TW380337B - Satellite direct radio broadcast system with formatting of broadcast data and processing thereof by satellite payload and reception by remote radio receivers - Google Patents

Abstract

A satellite direct radio broadcast system is provided which assembles bits of broadcast programs into prime rate increments, several of which are assembled into a frame. Frames are divided into symbols which are demultiplexed into alternating ones of a plurality of prime rate channels. The prime rate channels are demultiplexed onto a corresponding number of broadcast frequencies for transmission to a satellite. An on-board polyphase demultiplexer separates uplink signals into time division multiplexed streams of symbols. An on-board phase shift keying demodulator demodulates the symbols into digital baseband data. On-board rate alignment apparatus corrects clock rate differences between an on-board clock and the broadcast symbols. The satellite payload switches the symbols into time division multiplexed (TDM) data streams using two ping-pong buffers and a routing switch. The receivers process the TDM streams using master frame preambles and time slot control channels provided therein by the satellite, and service control headers (SCHs) provided therein by broadcast stations. The SCHs provide for addressing of particular receivers and for multimedia services. A management system is provided to manage and control the satellite and broadcast stations.

Description

B7 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs 5. Inventions (1) 1 I 1 Cross-references related to this request 1 1 1 1 December 995 8 E 1 by S. Joseph * Kambanella The application is under review. Please apply for a U.S. patent serial number Η0.08 / 569,346, which has been published and has been applied for. Please refer to the contents of this patent on November 5, 1996. * 背 1 © ^ 1 John Stone and s. Joseph * Kabanella establishes a document, outstanding beauty 丨 Note-Chapter W 1 National Patent No. 08 / 746,018 has been published and related to the patent The content of the subject matter of item L1 of the subject The above two patent applications have been specifically included in this patent application for reference. I 1 1 Scope of the invention I 1 I The invention relates to satellites The transmission system 9 broadcast data is formatted and processed by the satellite with 1 1 payloads and remotely. • fee Μ electric receivers. 0 The invented jifci Jingye. People with about 400 million megabytes are usually bad for short-wave wireless broadcasting. Dissatisfaction with sound quality > Not applicable. 0 Commonly expressed dissatisfaction with poor sound quality of both amplitude modulation and frequency modulation terrestrial radio broadcasting systems and k with insufficient public facilities. 0 These people P are mainly located in non-m Λ South America and 1 Asia 0 Therefore, it is necessary to build a .jy.M satellite-based direct radio broadcasting system to transmit signals such as sound, data and images to low-consumption receivers-I 1 receivers 0 1 I have & «tui Many satellite communication networks have been developed for commercial and military use. However, 1 1 Broadcasting service providers have proposed hPff 懕 1 1; can provide a flexible and economical way to the space sector 1 1 law 9 has not been proposed 9 consumers only need to use low-cost users white 1 1 The prepared radio receiver can receive high-quality radio signals. Therefore, I 1 This paper size applies the Chinese National Standard (CNS) Λ4 specification (210X 297 mm). 4 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs. V. Invent the sharp (2), a supplier who needs to provide such services, it can directly enter the satellite, and choose according to the number of space sectors it purchases and uses plus M. In addition, a low-cost radio receiving device is needed, which should be able to receive time division, multiplexing, and downstream bit streams. Summary of the Invention According to the present invention, a receiver for receiving time division, multiplexing, and downlink data streams from a satellite includes a phase-distorted key demodulator for demodulating downlink data streams into Symbol flow. The downlink data stream contains slots, and also has the number of primary frequency channels corresponding to the slots preset by the satellite. A correlator is connected to the demodulator in order to set a time slot control channel in the symbol stream. The slot control channel is inserted into the symbol stream by the satellite to determine which slot contains the preferential rate channel so as to correspond to each of a plurality of broadcast service providers. An input device is set up so that the operator can select one of the broadcast service providers and also send an output signal to the multiplexer. The multiplexer uses time slots to control channels and output signals, and selects some preferential rate channels in the M data stream. According to another aspect of the present invention, the corrector may operate in a query mode, a synchronous operation mode, and a prediction mode. According to another aspect of the present invention, a method for transmitting one of a plurality of preferential rate channels by satellite using a downlink signal includes a step of demodulating a downlink signal into a fundamental frequency time division, including a satellite Multiple bitstreams of generated frames. Each frame includes multiple time slots, and each time slot has a set of symbols. Each symbol in a group of symbols corresponds to the Chinese paper standard (CNS) A4 specification (210X 297 mm) applicable to this paper size (please read the precautions on the back before filling this page) -5-A7 B7 Central of the Ministry of Economy Printed by the Standardization Bureau employee consumer cooperatives. R'T_fIF ~~ I ~~ ^ ~ i V. The invention is poor (3) 1 1 I One of the multiple preferential rate channels f It occupies the similarity in each time slot Symbol. 1 1 1 position 0 This method moves in— «The step includes the step i of placing a frame in the bit stream using the main frame start mark introduced by the satellite /« · ~ · N 1 | 9 and at least one frame per Please refer to 1 in a time slot. Λ * Α * in at least one frame is retrieved from a group of 1 symbols. Pay 0 This symbol corresponds to the discount rate. It is the _. Of channel I. Note 0 | | W | The situation of the present invention »It is proposed to transmit the grid item I to the satellite on the uplink carrier The number of methods. This method can be used in the future. The data stream of many armament service providers' writings can be combined into the parallel stream on the upstream carrier. This can effectively use 1 page and economically use the space sector. Compiled into the first number with a priority rate increment of uniform 1 1 | and a pre-set ratio. 0 A frame with a pre-I 1 to determine the duration first produces 9 which includes the priority rate increment and the frame 1 order. Question 0 The frame is divided into Α * Λ *. Each symbol includes a predetermined number of consecutive sequences. 1 1 Hundreds of order bits. Λν " τ The number decreases to become the second number of the parallel priority path S 1 I. The symbol K that can be modified to form the priority rate path. This is used to divide consecutive 1 1 | symbols 0. Each priority rate path includes the priority rate path synchronization header used to install the remote receiver. Set the recovery priority channel. At this time, the priority rate is 1 1 and the channel is demultiplexed. T is placed on the corresponding one of the uplink carrier frequencies for broadcast transmission. 0-I 1 The priority rate according to the situation of the present invention The increment can be divided into two line segments. 9 is used as 1 1 I. Two different types of data are transmitted for special use. 0 1 1 According to another aspect of the present invention, f uses two tandem coding methods and cross 1 1 error coding methods. Μ is coded as a preventive correction of the previous error. 0 1 1 According to one aspect of the present invention »The% regulation is used to manage satellites 1 I and a large number of broadcasting stations are used to prepare festivals 9 from the broadcast channel to remote 1 by satellite β-This paper size applies Chinese National Standard (CNS) A4 specification (21〇 × 25 > 7mm) 6] 7 Β hair, five, ^ / 4 / \ Mingqidao, rail system line Lian wy D $ and control State star Zi Wei's star one The Weihan package control system is used to send the broadcast control with the number 0. The machine-generated admission line that can be connected to the electrical normal line is sent to the mid-air connection, and the control section is installed. At the wave field, now installed in the installation of measurement and control remote from Taiwan with a 'significant less letter to order. Ming 'Xingcheng Weisheng came to life; the radio station and broadcaster Guangxin and the heart control system to provide control and control of the M star, the letter and the satellite through a satellite guard and support to maintain the unified M 统 ’the heart. The meteorological control system of the medium-sized letter control system is based on the following: The big business festival, the next M joint work can be done, and the system can be made to control some ten β. Control 3 broadcast for Guangdao JM, some control and broadcast selection The broadcast frequency of Guangzhong Road RS is broadcasted by Guangwei Dao Xiangxin *, and broadcasted by Guangshou District Daoxinxin should be assigned with a data distribution channel and a broadcast channel. Broadcasting data can be stored with the channel and credit. The proposed system shall be used to provide services and control services, and the business letter of Star mention shall be destroyed. The 1 ¾ route system system for the service shall be controlled by the system to broadcast and retain all the bills. Most of the catalogues provided for the sample collection system are for the guards to use Tongbai and Tongcheng to control the time between the inter-system system and the wide control day. Star's number guardian sky beam. That light is used to make sure that the main point of the star beam broadcast system is wide, which is pre-entered; pre-entered the system; pass the system and control the number of planets by wire (please read the precautions on the back before filling out this page) _Q installed, printed by the Central Bureau of Standards, Ministry of Economic Affairs, Consumer Cooperatives, and also used the unified messenger system to stop broadcasting and control the final control when the broadcast is time and time. Show some beams, which is the middle seed of the light as the next day, choose a pass, choose a schedule to send out some schedules, which will be broadcast on the M broadcast, the letter after the letter, M should be used as a place to keep the insurance. Use the benefits in the order. Cheng Di ’s low-efficiency downgrade has a word size of M, which is more digital, but M is the number of channels that can be transmitted. The sample courier controls the loss and broadcasts. In the middle of the prescription, one paragraph is lost, and the other is clear. Exempted. In the departure area, the broadcast data can be broadcasted according to the local broadcast fan, the strong fan, and the strong broadcast. The wide paper can be widely matched. The space of this paper is applicable to the Chinese National Standard (CNS) Α4 size (210X 297 mm) 7 A7 B7 Printed by the Consumers' Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs V. Where to send (5) 1 1 I According to another aspect of the present invention, the transmission signal is digital > It is more enhanced due to I 1 1 Avoid snoring during transmission 0 Digital signal is 1 I Please 1 I In the future, provide a full range of services with flexibility 0 Long read 1 I According to the situation of one aspect of the present invention J read the back of the parallel broadcast channel 1 The first pair of time-separated switch symbol devices for time-division multiplexed data streams includes — and two notes% ^ 1 reciprocating conversion working buffer 0 __. Reciprocating conversion working buffer configuration items 1 I Then 1 f can store most of the first part of the parallel broadcast channel. The second reciprocating fill-in conversion job can be used to store the majority of the second part of the broadcast channel. Pages,-· 1 I The second part Most of the broadcast channels reach the second reciprocating buffer 1 1 The I device precedes the first part. Most of the broadcast channels reach the first reciprocating buffer! I's the buffer. The device also includes a selected line switch connected to the first 1 Order the output of the yuan punch with the second reciprocating conversion job. The first frame receives the I 1 collector connected to the alignment switch. The alignment access switch controls the buffering of the second 1 I reciprocating conversion job. The contents of the device are written to the first frame assembler. 0 1 II The contents of the replacement worker can be transferred to the frame signal assembly program on two or two Ms. 1 1 According to the situation of one aspect of the present invention, the satellite payload processing system 1 is used to process a single channel of each carrier. It has a frequency division multiple query II uplink signal and it includes a multi-phase multiplexer processing 9 is used to separate | the uplink signal enters the time-division multiplexed data stream of the symbol to go to 0 polyphase multiplexing solution 1 1 The tuner processor indicates that each 1 1 Multi-carriers and the uplink signals are sequentially connected to the multi-phase multiplexer 1 1 processor 0 phase shift keying demodulator and multi-phase multiplexer 1 | processor output link 0 This is to demodulate the symbol stream into a phase rtfff. If desired, this paper size applies the Chinese National Standard (CNS) A4 specification (210X297 mm). 8 A7 B7 Printed by the Central Bureau of Standards, Ministry of Economic Affairs, Consumer Cooperative

Fifth, the invention (6) II 1-point multi-modulated digital baseband bitstream. III According to another aspect of the present invention, f Satellite frequency alignment device I 1 Please include I.- Clock, input switch > output switch,-· 1 1 1 Buffer for reciprocating conversion operation It includes the first buffer and the second element read back 1 punch connected to the input switch and output switch __. One and the second uy Note% The first and second buffers are based on the operation of the input switch and output switch. Λ- Pay number stream 〇 / 3/3 ECL Weighing instrument then fill in the __. The buffer of the uplink clock rate obtained according to the uplink signal of Μ to connect the page '— / 1 I receive binary digits The second element punch in the buffer pair is installed on it! 1 I Shi Ling essentially empties all the stored content to the second element punch 1 1 〇 The first and second The operation of the buffer in turn activates the input switch and input 1 to order the switch 0. The first and second correctors are connected to the first and second 1 1 buffers, respectively. 0 When the magnetic head indicates that it has been detected When the amplitude 1 I frame in the baseband Λ-Λ- side stream is generated, a pulse spike is generated accordingly. The operation of the buffer pair M 1 1 | writes the baseband .Λ-Λ · stream to the buffer ifr Go to one of the pairs until the pulse spike appears. 0 The input and output switches change to their opposite states. 0 1 1 The uplink signals of the first and second buffers are read from 1 to 1 according to the clock rate installed on them. The output goes to 0 to synchronize the pulse oscillator with the first sum The second corrector phase • _ | I connection will produce a smooth pulse for each A »A * read to the output 0 1 1 | The counter is connected to the oscillator to calculate a smooth pulse. According to the counter's 1 1 The value can be hundreds of bits added or subtracted from the sleeve end of the data stream. 0 1 1 Brief description of the diagram 1 1 It will be easier to understand by reading the following detailed description in conjunction with the drawings 1 1 The present invention These and other features and silly points. These drawings constitute the original type I. The paper size is applicable to the Chinese National Standard (CNS) A4 specification (210X 297 mm). 9-V. Invention) Explanation (7) A7 B7 Central Ministry of Economic Affairs Part of the Bureau's Consumer Cooperatives printed and published part of the calculation. They include: Fig. 1 is a schematic diagram of a direct satellite broadcasting system established by a specific device according to the present invention. Fig. 2 is a flow chart depicting the sequence of signal processing operations from head to head in the system described by the specific device of the present invention in Fig. 1. Fig. 3 is a schematic block diagram of a broadcasting ground station constructed according to a specific apparatus of the present invention. Fig. 4 is a schematic diagram illustrating a broadcast sector multiplexing according to a specific apparatus of the present invention. Fig. 5 is a schematic block diagram of a specific apparatus according to the present invention processing payloads on a satellite. Fig. 6 is a schematic diagram illustrating a split transmission and demodulation process on a satellite according to a specific apparatus of the present invention. Fig. 7 is a schematic diagram illustrating frequency calibration on a satellite according to a specific apparatus of the present invention. Fig. 8 is a schematic diagram illustrating switching and time division multiplexing operations on a satellite according to a specific device of the present invention. FIG. 9 is a schematic block diagram of a radio receiver constructed in accordance with a specific apparatus of the present invention and used in the system depicted in FIG. 1. FIG. Fig. 10 is a schematic diagram illustrating a specific apparatus of the present invention to explain receiver synchronous operation and branch transmission operation. Figure 11 is a schematic diagram illustrating the synchronization and multiplexing operations performed on the receiver in order to recover the coded broadcast channel according to the specific device of the present invention, M and (Please read the precautions on the back before filling this page)

This paper size applies Chinese National Standard (CNS) A4 specification (210 × 297 mm) 10 A7 B7 Printed by the Consumers' Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. The invention is sharp (S) 1 1 I Figure 12 is a specific example according to the present invention Device for managing satellite and broadcasting station system 1 1 1 0 1 I Please II Detailed description of preferred specific devices 1 1 Review 1 Read 1 According to the present invention, Μ satellite-based broadcasting system 10 is the channel satellite's note ·% 1 »| Program broadcast matters of many different broadcasting stations 23 a and 23b (K is summarized as 23) I ## Go out 9 As shown in Figure 1 Designed for 29 Macbooks to receive one or more time-division multiplexed pages from satellite 25 downlink 1 I (TDM) from satellite 2 5-downlink modulated to 1.86 megasymbols per second (Msym / SI 1 I) L-band carrier 27 〇 The user's radio reception 4 * 16 m 29 is designed to be able to demodulate and demultiplex I 1 TD MH carrier M to recover the bits constituting the digital information content or to subscribe from the broadcast 1 According to the specific device of the present invention, the broadcast station 23 and the satellite 25 need to configure the format of the uplink and downlink signals, and M 1 I can use a relatively low-cost radio reception scheme. The job can be improved, and the receiver can be improved. 1 The radio receiver can be a mobile device mounted on a vehicle, such as a handheld device 2 8 b or a processing terminal with a display. 1 1 Although Only shown in Figure 1-• satellites for illustration > the system 1 0 1 preferably includes 3 geostationary satellites 2 5 a > 25b and 25c (Figure 12); configuration for -1 1 Bands 1 467 to 1 4 9 2 MHz (Zones) 0 This band has been allocated to broadcast satellites 1 I Services (BSS) Direct Audio Broadcasting (DAB) 0 Broadcasting station 23 in an X- most good frequency band 11 using the row line 21 is to say from 7050 to 7075 MHZ (hereby). Each 11 satellites 25 are preferably configured to work on three downward 1 1 line point beams designated as 31 a, 3 lb, and 31 ο0. Each beam can cover approximately 140C million square meters on the 1 power distribution network. Kilometer j is downward from the center of the beam (4dB dB)! Discuss 1 This paper size applies the Chinese National Standard (CNS) A4 specification (210X 297 mm) 11 A7 B7 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs V. Inventions (3) 1 1 Out of 0 On the power distribution network Within 28 million square kilometers, use 8 d B (¾ down shot 1 1 I out. According to the receiver's benefit and temperature ratio is 13dB / K 9 then the beam center 1 1 | the gain can reach 14dB 〇 please 1 1 With continued reference to FIG. 1, the uplink signal 21 generated from the broadcasting station 23 is read from the ground 1¾ and reads back. The frequency division multi-channel channel of the I-plane station 23 is modulated. 0 The ground station 23 is best set to note 1 at Within the line of sight of the satellite 25 0 Each broadcasting station 23 preferably has the ability to directly connect to the _ · number of multiple satellites from the white matter 1 1 device and write-or more 16 kilobits per second (kbp S) Frequency increments are placed on a single carrier. 0 Paginated 1-frequency multi-channel channels are used for uplinking. It can be divided between multiple independent broadcasting stations. 1 1 points. Space sectors can significantly reduce power consumption and thus also reduce uplink earth stations. The cost of 23 1 1 creates the conditions. The main frequency increment of 16 kilobits per second is the order of most base 1. The insertion and programming of the system or the use of the basic unit in the system 10 are beneficial to the size of the channel. And it can be combined to obtain a higher bit rate 1 1 1 0. For example, the main frequency increment can be combined to build a program channel whose bit 1 1 rate can reach 128kbP S (kilobits per second), which is close to the quality of compact records. The sound of the mountain has reached, for example, the media 1 which contains image data. [Volume nsi. Broadcast Festival 100I. Each satellite 25 can achieve FDMA communication in the uplink at the base frequency level. And 1, " I | Each carrier can be connected between multiple channels / time division multiple (MCPC / IDM) channels. 1 can be used for each satellite to convert at the base frequency level. As detailed in detail * The main frequency channel transmitted by the broadcasting station is separated on the satellite 25 1 | into a separate baseband signal of 16 kb PS (kilobits per second) 1 I 0 and then 1 single channel is sent on the specified line Go to one or more of the 1 1 I beams 31 a 31biD 31 c, and each of the down beams becomes 1 1 -12-This paper size applies to China National Standard (CNS) A4 specifications ( 210 > < 297 mm) A7 B7 Printed by the Central Standards Bureau of the Ministry of Economic Affairs-Industrial and Consumer Cooperatives V. Instructions for issuing ice (i〇) 1 1 Single TDM stream of I-body signal (thus-•• fundamental frequency processing, As far as the uplink frequency is 1 1 1 and the channel arrangement between the uplink FDMA and downlink TDM signals is 1 I Please provide 1. A high level of channel control. 0 Read 1 | End-to-end signal processing that occurs in system 10 will refer to Figure 2 to M. Read back 1 Explain 0 System responsible for end-to-end signal processing The components will be noted below with reference to the picture ?! | 3 ~ 1 1 re-enter--step detailed description t as shown in Figure 2 9 For example, at the broadcasting station 2 3 Matter I The audio signal for white sound source is best to use MPEG2 5 layer 3 coding (26 program blocks refilled f), the digital information compiled by the broadcast service provider at the broadcasting station 23 should be compiled in the format of page 1 I and then entered with the service control class (SCH) (box 圔 2 8 ) I 1 | in the frame of the broadcast channel. The following will describe the details in the following: 0% cycle 1 1 sex frames preferably have a period of 43 2 milliseconds (ins). Each frame is preferably serviced. The control header is specified as η X 2 2 4 bits *. As soon as the bit rate becomes η X 1 1 16 .519kb PS (kilobits per second) 0 Because the pseudo-random bit stream is added to the service control 1 I header Each frame is then increased by adding a pseudo-random bit stream to the service control header 1 1 | Make it change the frequency. 0 Use a key that allows coding to change the information control of the frequency pattern d. 0 The bits in the frame are then pre-encoded for super V · /-刖 Error correction 1 1. It is best to use Two concatenation methods, such as the Ritz-Solomon method9, followed by I-frequency interleaving followed by convolutional encoding (for example, the interlaced trellis-shaped convolutional encoding method described by Weier | Ier) (see block diagram 30) ) 1 I 〇 The coded bits in each frame correspond to each initial The rate increment (PRI.) Is re-differentiated or decremented sequentially in order of I 1 to become a parallel initial rate channel (PRC S) (block diagram 1 1 32) > In order to achieve the recovery of every--initial frequency channel, the initial frequency 1 should be set 1 rate channel synchronization header. Each of the several initial frequency channels needs to perform differential code in the next 11 steps, and then use 9 such as »9C ° right-angle phase shift chain control 1 1 This paper size applies to China National Standard (CNS) A4 specification (2! 0X297 public %) -13 A7 B7 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs 5. Description of the invention (11) 1 I | Modulated to the intermediate frequency (IF) carrier frequency (block 34) 〇m 1 of the initial rate channel 1 1 The intermediate frequency carrier frequency constitutes 23 broadcasting channels of the broadcasting station 9 and is converted to the X band ^ -V 1 | Μ to be transmitted to the satellite 25 * As shown by the arrow 3 6 〇 Please read 1 | The carrier coming out of the broadcasting station 23 It is a single-channel / frequency-division multi-reading back I-I query (SCPC / FDMA) carrier on each carrier. On each satellite 25, the carrier of SCPC / FDMA is received. 9 Multi-channel mediation and modulation are restored. Rate Carrier (see Box I and Box 38) (> Initial The frequency channel digital fundamental frequency channel is restored by the satellite 2.5. This pass is filled in. 1 The channel is subject to the frequency collimation function. M Compensates the clock rate on the satellite and the carrier clock on the satellite page, 〆1 I receives the initial rate channel. The difference between the rates (block 40). The multiplexed and demodulated digital stream from the 1 1 | initial rate channel is provided to the 1 1 time division multiplexing frame assembler for arranging the paths and switching elements. The digital stream of the channel at the beginning of the 1st order is sent from the split transmission and demodulation equipment on the satellite 25 to the time-division multi-channel frame assembler in a given route. This is based on the command from the ground 1 I station. Connect a sequence device for controlling the switching on the satellite (eg 1 1 [$ satellite control center 23b in Figure 12 controls each operating area). Two time-division multiplexing carriers can be established. Their sex περ pairs 3 satellites 1 1 star beams 31 a, 31b and 31 c (block ffl 42) > three I time-division multiples after QPS κ modulation The channel transmission carrier is turned up to the L-band frequency as indicated by II in arrow 44. • inr Μ radio receiver 29 is configured to receive any of the three time-division multiplex transmission carriers 1 1 | and can modulate the reception. Carrier (block diagram 46). No 1 1 wire receiver 29 is designed to use the main frame 1 1 provided during satellite 5 processing to synchronize with the bit stream of the time-division multiplex carrier. 0 Uses time slot control 1 1 channel (TSCC) f The initial rate carrier can also receive 1 I transmission from the time-division multiplex carrier. The digital stream is re-multiplexed to the field effect ate described above. 懕 Code 1 1 This paper standard applies to China National Standard (CNS) A4 specifications ( 210X 297 mm) -14 A7 B7 Printed by the Central Bureau of Standards of the Ministry of Economic Affairs and Consumer Cooperatives 5. The initial rate channel format of the invention proof (12), refer to Box 30 (Box 50). The field effect processing preferably involves the use of a dimensional material lattice decoder, for example, non-interlaced; then, the use of Ritz-Solomon decoding to restore the original channel and armpit containing 11 > < 16 kbit / s Service control head. The n x 16 kbit / s broadcast channel segment is provided to the MPEG 2.5 layer 3 source decoder 'for switching back to the audio state. According to the present invention, a very low-cost broadcast radio receiver 27 can achieve an effective output. This is because the processing and time-division multiplexing described above are connected with the broadcasting station 23 and the satellite 25 (see box 圔 52). The uplink multiplexer and 诹 靱 will now be described with reference to FIG. 3 A signal processing method for converting data streams from the plurality of broadcasting stations 23 into parallel data streams for transmission to a satellite. To illustrate the problem, four program information sources are used: 6 (), 64, 68, and 72. Both sources 60 and 64 or 68 and 72 are coded and coded and transmitted together as a single program or service. A description will be given of a program coding method including sound sources 60 and 64 together. Signal processing is the same for programs containing digital information from sources 68 and 72. As mentioned earlier, the broadcasting station 23 gathers information from one or more information sources, compiles it into special programs, and sends it to the broadcasting channel ', which is characterized by increments of 16 kbps (kilobits per second). These increments are called initial rate increments or abbreviated as PRls, so the bit rate carried in the broadcast channel is nX 16kbps (kilobits per second), where η is the primary rate used by the special broadcast eye provider The number of increments. In addition, each 16 kbps primary rate increment can be further divided into two 8 kbps sections, and the pathways and switches are arranged together by the system 10. The mechanism of segmentation is the machine with the same initial rate increment that can carry two different service items (please read the precautions on the back before filling this page) This paper size applies the Chinese National Standard (CNS) A4 specification (210X297 mm) 15-A7 B7 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs 5. Description of the invention (Κ 1 1 1 Principle 9) For example, I use low bit rate for low bit rate blue five-tone signal or for two types that are not 1 1 1 A kind of low bit rate 卩 σ —a_. Channel 9 and so on. 0 The number of initial rates is the best 1 | It is good to determine 9 in advance. 1 That is, 1 is set according to the program code. Value of the physical limit c η-generally based on the relevant business to set the reading back! For example, the cost of a single broadcast channel y the service provider is willing, τΓε think the fee paid %% Μ 1 Use 0 in Figure 3 for the- -Η of broadcast channel 5 9 but Μ power supply 60 to 64 Matter 1 | Then 1 t is equal to 4 types. (In the specific device described, fill in the η value of the broadcast channel_6 7%. In this installation, the power source is set to 6 types from 68 to 72. Page 1 I -More than one broadcast service provider can enter--1 1 | Broadcast station 23 0 For example, the first service provider can > λ generate a broadcast channel 59 I 1 ♦ »and the second service provider can generate a broadcast Channel 67 〇 The letter 1 order processing method described here and according to the present invention; allow broadcast services with different data streams 1 1 providers can transmit to satellites in parallel data streams so that they can provide 1 I for armpit services to reduce broadcast costs and maximize The use of space sectors in space 〇 Because the efficiency of space sector is limited to a maximum of 1 1 degree, the broadcasting station can achieve low power consumption components and reduce expenses 0 For example, the antenna of broadcasting station 23 can use 1 1 with very small holes The output antenna on the satellite 0 requires a payload of 1 on the satellite to use less memory, less processing power, and therefore requires less power consumption. -1 I reduces the weight of the payload 0 i 1 broadcast channel 59 Or 67 is characterized by having a minimum of 432 milliseconds, as shown in Fig. 4. I 1 is selected during this period to facilitate the use of the MPEG source encoding 1 1 device system 10 which will be described below. The frame pair can be set in different presets. Set the value to 1 1 〇 If the period period is 432 milliseconds, then every 6 thousand ratios of Ϊ /, the main frame rate per second is 1 I increase-heavy request 16 000 X 0. 4 3 2 seconds per frame = 6 9 1 2 bits per frame. As shown in Figure 4 1 1 This paper size applies to Chinese National Standard (CNS) A4 specifications (210 × 297 mm) 16 A7 B7 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs 5. The invention description (hi), so the broadcast channel contains These 16 kbit / sec main rate increments have values η that are transmitted as a group in frame 100. As will be explained below, these bits are demodulated on the antenna electrical exclamation machine by changing the frequency M. This kind of frequency changing operation provides a function that the service provided is changed to password transmission according to the opinion of the service provider. 100 frames per frame is specified as no more than 224 bits for service management headers. As a result, each frame has a total of 7 1 3 6 bits and the bit rate per second does not exceed (16,518 + 14/27) bits. The purpose of the service control header is to send data to each radio receiver whose frequency has been adjusted to receive the broadcast channel 5 9 or 67. The purpose is to control the reception mode of various multimedia arms; to display data and images To send key messages for decoding, to write to specific receivers, and other capabilities. Continuing to refer to FIG. 3, the sources 60 and 64 are respectively encoded with MPE G2, 5 layers, and 3 encoders 62 and 66. The two sources are then added together by means of a coupler phase 7 6, and then processed by the processor of the broadcast station 2 3. K provides the encoded signals in the frames that occur 4 2 2 ms from time to time, that is to say these are already shown in Figure 3. It has been shown by the processing module 7 8. The modules marked on the broadcasting station in Fig. 3 correspond to the programmed modules and related hardware, such as digital memory and encoder circuits, executed by the process. The bits in the frame 100 are then coded. Digital signal processing software (DS P), special integrated circuit (ASICS) and customized large-scale integrated circuit chip are used for the two serial coding methods for field effects. The cathode ray tube is protected. First, the Ritz-Solomon encoder 80 a is used to generate 2 2 3 bits from 2 5 5 bits and then input the encoder. The bits in frame 100 are re-encoded according to a known interleaving scheme, as shown in reference number 80b. Interlaced coding can provide further protection against sudden errors encountered in transmission, because this paper size applies the Chinese National Standard (CNS) A4 specification (210X 297 mm) (Please read the precautions on the back before filling this page ) ^. 1T -17-A7 B7 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs. V. Instructions α 5) The 1 1 I method can spread damaged bits to channels. With continued reference to the 1 1 1 module 80 9 in use, the maintenance skin encoder 80c can be used, and a known approximately 1 I, 1 1 bundle length convolutional code scheme can be used. The Viterpi encoder 83c can be used for each Input first read 1 I into U to generate two output bits. The net result produced is to change each increment of 6 9 1 2 bits per frame used for read back 1 in broadcast channel 5 9 to a net result of 1 6 3 2 0 FEC tEJ. Note-encoding bit c such Each F EC-encoded broadcast channel (for example, channel 59 matters 1 I then 1 \ f or 6 7) contains η X 1 6 3 2 0 encoded, rearranged and re-encoded information bits written in 0 so that the original broadcast The initial rate increment of 16 kilobits per second has been paged, and 〆1 I cannot be regarded as the same. However, the FEC coded bits are organized according to the original 1 1 | 4 3 2 millisecond frame structure. The total error-proof coding rate is 1 1 (255/223) X 2 = 2 Η h 64/223) 1 As you continue to refer to FIG. 3, the floating-point information processor abnormal code encodes the broadcast signal's η X 1 6 3 2 0 bits of the frame, and the channel divider 8 2 is used to divide or demultiplex 1 1 to become η. The parallel primary rate channel transmits 16 32 bits per channel * converted into 1 1 I 8160 two-bit symbols. This process will be further explained in FIG. 4. The broadcast channel d channel 59 is characterized by the use of 4 2 2 millisecond frames 1 0 0 with a sub-channel 1 0 2 0 1 1 The remainder of the frame 104 includes a primary rate channel of 16 kbit / s). For each channel in the primary rate channel, it is equivalent to 6 9 1 2 bits per frame, which is encoded with the _-II floating point information processor exception code. 106 can obtain 1 I. The following series of Ritz * Solomon 225/223, interleaved 1 1 encoding and encoding using the 1/2 floating-point information processor exception code as previously described, and linked to the module 1 1 piece 80 80 as previously described 9 using 1/2 Floating-point information processing Weida machine abnormal 1 1 coded frame 1 0 6 contains η X 16320 bits, which is equivalent to 816C > group of two bits 1 1 code point 0 For convenience of explanation > each code point specifies a reference Number 1 0 8. Root 1 This paper size applies the Chinese National Standard (CNS) A4 specification (210X 297 mm) 18 A7 B7 Printed by the Staff Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. Description of the invention (16) 1 1 | According to the invention f Figure 4 The formula for specifying the symbol to pass through the initial rate channel has been described in the formula 1 1 1. Therefore, the ArA- number will spread according to time and frequency. 9 This will further reduce the 4πε radio receiver caused by the broadcast process. Please refer to the service of the broadcast channel. 1 The service provider 59 has purchased 34 initial rate channels for transmitting the image for reading back 1 1 sending the image 9 and the service provider of the broadcast channel has purchased rm beacon. Attention of 36 initial rate channels is used to send images 0 Figure 4 illustrates the first-the broadcast channel 5 9 and the designated symbol 11 4 matters. 1 | Then bridge the initial rate channels 110a 110b 110c and 11 of η respectively = 4 0 d loading situation Recovering each two-digit set 114 pages on the receive,-1 I 9 initial rate channel synchronization header or start mark 112a 9 112b 9 112c and 112d 1 1 I are placed respectively at 1. ^ of the initial rate channel. Month (1 side. Initial rate channel synchronization head (classified as a reference number 112 under 1 1) Contains 48 AW pay numbers. Initial rate channel is the same as 1. Progressive head 11 2 is placed in each group 8 1 6 The front of the 0 symbol thus increases the number of .Λ-Λ * payouts per frame at 432 milliseconds to 8208 Λ-Α * payouts. Therefore, the symbol rate becomes 1 I 8208/0 .432 which is equal to each initial rate. Channel 110 is 19,000 kilosymbols per second 1 1 I (K 3 y ffl / s) 〇 Initial rate Channel initial 1 1 2 4 8 symbols are mainly used for synchronization of the initial rate channel clock of the d-wireless receiver Resolve to recover the symbol from Baixialian 1 1 satellite transmission 27. Initial rate on the processor 116 mounted on it | The initial mark of the channel is used to absorb the arrival Lianxin cr is composed of Wu Λ-Λ- number signing rate and the time difference between the device II used to switch the signal ii account m and the time-division multiplexed transmission stream of the downlink 1 I 〇 During the use of frequency alignment on the satellite Add 1 " 0 " to each of the 48 initial rate channel symbols " 0 " decrease--', 0 " or not increase or decrease 0 1 1 This way the time-division multiplexed downlink line The initial rate channel 1 1 performed on it has 47 48 or 49 symbols determined by the frequency adjustment process. 0 As shown in Fig. 4 1 I shows the redundant symbol 11 4 specifies the initial rate for flail in a cyclic manner 1 1 This paper size applies to China National Standard (CNS) A4 (210X: 297 mm) -19-V. Description of the invention (17) (Please read the precautions on the back before filling this page) Channel; In this way, symbol 1 Designated for the initial rate channel 110a; Symbol 2 is designated for the initial rate channel nob; Symbol 3 is designated for the initial rate channel 11 oc; Symbol 4 is designated for The beginning of channel 11 0 d; 5 designated for initial symbol rate 110e, and so on. The split transmission process of this initial rate channel is completed by the processor of the broadcast station and is shown as a channel allocation (DEMUX) module in FIG. The start of the initial rate channel is used to indicate the start of the initial rate channel frame of the broadcast channel 59 using the sequencer module and the adder module. The n initial rate channels are sequentially differentially coded, and then a set of quadrature phase shift keying modulators 86 are used to modulate the primary rate channel quadrature phase shift keying to the IF carrier frequency, as shown in FIG. 3. Four sets of quadrature phase-shift keying modulators 86a, 86b, 86c, and 86d are used for the initial rate channels 110a, 110b, 110c, and 110d, respectively, for broadcasting channel 59. Therefore, there are a total of four initial-rate channel intermediate frequency carrier frequencies to form three broadcast channels 59. The four carrier frequencies use an upconverter 88 in the X-channel to ascend to the specified frequency position for transmission to the satellite 25. The up-converted initial rate channel is then transmitted through the amplifier 90 to the antennas (eg, VSAT) 91a and 91}). Printed by the Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs. According to the present invention, the transmission method used by the broadcasting station 23 is to combine n multiplicity and frequency division multiplex transmission (SCPC / FDMA) carriers of each carrier to the uplink Signal 2 1 goes. These SCPC / FD Μ Α carriers are separated on a grid of center frequencies. These center frequencies are preferably separated from each other by 38000 Hertz (Hz), and K48 adjacent center frequencies or carrier channels are required as a group. Organize. Dividing the 48 carrier channels into groups is useful for preparing multiple transmissions and multiple demodulation on the satellite 25. 48 paper sizes are applicable to Chinese National Standards (CNS) A4 specifications (210X297 mm) -20- A7 B7 Printed by the Consumers ’Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. Invention Zhu Ming (-1S) 1 1 I wave channel The different groups formed do not have to be connected to each other. The bearers related to the special broadcast channel 1 1 1 (ie, channels 5 9 or 6 7) do not need to be connected to a group of 48 bearers 1 |. The channels do not need to be allocated at 48 In the same group of carrier channels, please read II. Figure 3 and Figure 4: The transmission method described in combination allows read back on the selected frequency. 1 The flexibility optimizes the ability to fill the spectrum and avoids sharing. The same unnoticed users of the power spectrum interfere with it. Matters 1 I Re I The system 10 is advanced. It is an additional copy for broadcasters or broadcast service providers. The ability to lay the foundation 0 It is relatively easy to use this system to build pages. —, 1 I parity rate broadcast channel and transmission to receiving mt m 29 〇 Typical broadcast channel 増. 1 1 1 The volume or initial rate increment is preferentially adopted 16 32 48 64 80 96 112 1 1 and 1 2 8 kilobits per second 0 The radio receiver can relatively easily interpret the broadcast channel 1 for different bit rates. See the processing of the radio receiver described in Figure 4 1 1 0 Therefore broadcast The scale and cost of the station can be designed to meet the broadcaster ’s rated work 1 I rate and financial resource constraints to design 0 Broadcasters with insufficient financial means can install a small VSAT terminal ixiii * It requires only a relatively small amount of machine Power d can broadcast 16 kilobytes per second program to its country. This is enough to transmit 1 1 broadcast language and music have much better quality than short-wave radio. On the other hand 1 family has solid Broadcasting companies selling high-tech and high-tech broadcasters only need to use a slightly larger antenna, 1 I, a larger power of 64 kilobytes per second, and M 1 1 can broadcast the quality of the U-field body sound, and further increase the rated power. It is possible to broadcast close to compact disc (CD) stereo quality at 96 kbytes per second. 1 1 »Broadcasting full-texture singing at 1 2 8 kbytes per second. Stereo m Quality 1 1 Quantity 0 1 I To achieve many advantages Frame size Λ Sub-channel size Initial mark size and 1 1 This paper size is applicable to China National Standard (CNS) A4 size (210X297 mm) 21 Staff Consumer Cooperatives, Central Bureau of Standards, Ministry of Economic Affairs Print A7 1: a 3: 9 ___ Β7 —----------------- 5. Description of the invention (丨 9) The length of the program path control will be described with reference to FIG. 4. The description of the processing method of the broadcasting station with reference to FIGS. 3 and 4 is not limited to these values. When using an MPEG source encoder (for example, encoder 62 or 66), it is convenient to reach a frame period of 4 3 2 m s. 224 bits are selected for each sub-channel 102 to facilitate the encoding of floating-point (information) processor exception codes. The 48-symbol program routing control sequence is selected to achieve each program routing control 110 to reach 8208 symbols; and thus to simplify the implementation of multiplexing and shunt transmission on satellite 25, which will be detailed below Narrative. For quadrature phase keying modulation (ie 22 = 4), it is convenient to determine that the symbol contains two bits. For further explanation, if the phase shift key modulation in the broadcasting station 23 uses 8 phases instead of 4 phases. It is more convenient to determine a symbol with 3 bits, because each 3 bits (ie, 2 3) can be relative to one of the 8 phases. If there is a broadcasting station on M in the system 10, software can be provided on the broadcasting station 23. The regional broadcast control equipment (R B C F) 2 3 8 (Figure 12) uses the task control center (MCC) 240, satellite control center (SCC) 236, and broadcast control center (BCC) 244 to allocate space sector channels and arrange the routes. By allocating the initial rate channel carrier channel 110, the space in the '48 channel groups there can be used. For example, a broadcasting station may wish to provide 64 kilobits per second service on 4 initial rate channel carriers. Due to the current spectrum usage situation, four carriers cannot be used in adjacent places, but in non-adjacent areas, a group of up to 48 carriers can be used. Further, the regional broadcast control device 238 can use its mission control center and satellite control center to allocate the initial rate channels between different 48 channel groups to non-adjacent areas. Applies to China National Standard (CNS) Α4 specification (210X297 cm) on regional broadcast control equipment or on a paper scale I ~ 22 ~~ (Please read the precautions on the back before filling this page) h

1T A7 B7 Yin Fan, a consumer cooperative of employees of the Central Standards Bureau of the Ministry of Economic Affairs, 5. Description of the invention (20) 1 1 The software of the mission control center and satellite control center on 1 broadcast stations is on the regional broadcast 1 1 I broadcast control equipment 238 or on -On the broadcasting station 23, the initial rate channel carrier of the special broadcast service 1 I can be redistributed to other frequencies M to avoid intentional (i.e. blockage) or accidents at the location of the special carrier 1 1 I The nature of the interference. The current reading system has three sets of regional broadcast control equipment 2 3 δ One set of attention 1 The device is used for three regional satellites-additional satellites can be composed of these three sets Equipment matters if 1 I and 1 in a set to control 0. Fill 1C. Next will be installed— > Detailed description of the matters related to the processing of satellite 5 in Figure 6. '卫星 1 0 Install on satellite A multi-phase processor executed digitally 〇1 1 It is used for signal regeneration on satellites and transmission in the initial rate channel. 1 1 11 4 Digital fundamental frequency recovery > Utilization of 38000 Hz The 48 carrier groups separated from each other at the center frequency 1 order 1 I rate will be facilitated by the multi-phase processor. 0 Broadcast station 23 The software or radio communication equipment 238 can 1 1 1 complete the segmentation, that is, It is said that the segmentation processing can be optimized to complete the initial rate channel 1 1 uplink carrier channel, that is to say, to complete the tasks of the 48 carrier channel groups. 0 The principle of segmenting the uplink carrier frequency is not as everyone knows. 1 | Reorganize the files on the hard disk drive of the computer. 0 After a period of time, the bits saved by the fragmentary method of I are still not enough for data access. 〇1-| I is well-oriented The function of the broadcast control center on the telecommunications equipment allows for directing. • far telecommunications equipment remotely monitors and controls the broadcasting stations to ensure that their operations are within specified limits. 1 I satellite payload processing 1 I on satellite For the restoration of the fundamental frequency, each of the 96 satellites has an initial rate of 1 1 1 time-division multiplexing on the satellite. The downlink carrier completes the switch arrangement on the satellite. 1 1 This paper size applies the Chinese National Standard (CNS) A4 specification ( 210X297 mm) -23-The Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs, the Consumer Cooperative Association of Inner Mongolia, Guangzhou B7 V. Invention Description (2i) Roads and assembly are important. Use the method of "one carrier per mobile waveguide" on the satellite 25 to amplify the time-division multiplex carrier on the satellite. Satellite 25 preferably contains eight baseband processors mounted on the satellite. However, only one processor 116 is shown in the figure. If the situation requires this, only 6 of the 8 processors are used at a time. In the event of a failure, they can provide redundancy and, depending on the situation, order them to abort the transmission. The single processor 116 will be described with reference to FIGS. 6 and 7. It is understandable that the same components are preferably provided for each of the other seven processors. Referring to FIG. 5, it can be seen that the uplink carrier 21 of the * coded initial rate channel is received by the frequency band receiver 120 on the satellite 25. Full uplink capability is best between 288 and 38 4 initial rate channels each with 164 bit / s uplink channels (that is, 6 X 48 carriers if 6 processors are used or if all 8 processors 11 6 are used, then 8 X 4 8 carriers). As will be explained further below, the 96 initial rate channels are selected and multiplexed for transmission in each of the downlink beams 27 on a carrier having a bandwidth of approximately 2,5 MHz. Each uplink initial rate channel is able to arrange the path into all, some or none of the downlink beams 27. The order and position of the initial rate channels in the lower beam can be programmed to solve them, or they can be selected from a remote, range and control (TRC) device 24 (Figure 1). Each multi-phase multiplexer and mediator 1 2 2 receives a single divided-frequency multiple-access uplink signal in a group of 48 flail channels and generates a single analog signal. On a single analog signal, the data of the 48 divided-frequency multiple access signals is time-multiplexed and completes the high-speed demodulation of a series of data. This point will be combined with the Chinese Standard (CNS) A4 specification (210 × 297 mm) in accordance with the paper size shown in Figure 6. (Please read the precautions on the back before filling this page.)印 ^ A7 B7 5. Description of the invention (22) Further detailed description. Six of these polyphase demultiplexers and demodulator 122 will operate in parallel to process 288 divided frequency multiple access signals. Path selector switch and modulator 1 2 4 selectively direct each channel of the six series of data streams into all, some or none of the down-link signals 27 and will further modulate and up-convert the 3 down-link Time multiplex transmission 27. Three traveling wave tube amplifiers (TWTA) 126 respectively amplify 3 downlink signals, and these signals are reflected to the earth using the L-channel transmission antenna 128. Satellite 2_5 also contains three transparent payloads, each of which includes a multiplexer, a down-converter 130 and an amplifier group 132, all of which are configured on the channel of a common "bent pipe", which converts the input signal Frequency is used for relay. As such, each satellite 25 in the system 10 is preferably configured with two communication payloads. The first type of payload handled on the satellite will be described with reference to Figs. The second type of communication load table is a transparent load, which can change the time-sharing multiplex transmission carrier in the uplink from the frequency position in the X-band spectrum of the uplink to the frequency position in the lower-band spectrum of the L-band. The time-division multiplexed transport streams for transparent payloads are aggregated at the broadcasting station 2 3 and sent to the satellite 2 5. Use module 1 30 to convert its reception and frequency to the lower frequency position; in module 1 32, use a traveling wave tube amplifier to enhance K and transmit it to one of the beams. For the radio receiver 29, the time-division multiplexed signals appear to be the same, regardless of whether they come from the above-mentioned processing load indicated at 1 2 or from the light-transmitting load at 133. The carrier frequency positions for each of the loads 121 and 133 are separated on the grid at 9 20 kHz intervals. The grids K are staggered with each other. In this way, the carrier position from the mixed signals of the two payloads 1 2 1 and 1 3 3 is the paper size applicable to the Chinese National Standard (CNS) A4 specification (210X 297 mm) (Please read the notes on the back before filling This page). Equipment. Order 25 Printed A7 '' B7 by the Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs V. Description of Inventions (23) at 460 kHz intervals. The demultiplexer and demodulator 122 mounted on it will now be described in detail with reference to FIG. As shown in Figure 6, SCPC / FDMA (divided frequency multiple access) bearers, each of which is specified with reference number 1 36 and allocated to a group of 48 channels. For illustrative purposes, a set of 138 cases is shown in FIG. The carrier 136 is separated on a grid having a center frequency separated by 38 kHz. This interval determines the design parameters of the multiphase multiplexer. For each satellite 25, it is most preferable to use 288 uplink initial rate channels, SCPC, to divide the frequency multiple access carrier, so that it can be received from many broadcasting stations 23. Therefore, the six polyphase demultiplexers and demodulator 122 will be selected first. Install the processor 116 on the satellite to accept these initial rate channels, SCPC / divide frequency multiplexed uplink carriers 136, and convert them to three downlink time-shared multiplex carriers, each carrier in 96 slots carry 96 initial rate channels. An uplink spherical beam antenna 11 8 is used to receive 2 8 8 carriers. Each group of 48 channels is converted to the intermediate frequency (superheterodyne) frequency, and then the intermediate frequency is filtered to select the frequency band occupied by the specific group (138). This processing takes place in the receiver 120. The filtered signal is sent to the multi-phase multiplexer 144 as an input signal before being input to the analog-to-digital converter 140. The demultiplexer 144 decomposes the SCPC / divided frequency multiple access channel 138 into a time-division multiplexed analog signal stream, which includes modulation symbols for quadrature phase shift keying, so that it can be sequentially presented in multiples. The contents of 48 SCPC / divided frequency multiple access channels appear in the output of the channel mediator 1 4 4. This time-division multiplexed analog signal stream is sent to the digitized according to the prescribed route. The paper size applies the Chinese National Standard (CNS) A4 specification (210X 297 mm) (please read the precautions on the back before filling this page). · -26-A7 B7 Printed by the Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs V. Invention Zhu Ming (24) 1 1 I The demodulator and differential decoder 146 implemented by quadrature phase shift keying. The quadrature 1 I 1 phase shift keying demodulator and differential decoder 146 sequentially demodulates the modulation signal of the quadrature phase shift key / -— 1 | control into a digital baseband bit. For demodulation processing, please read the symbol 1 I Timing and carrier recovery 0 Due to the use of quadrature phase shift keying for modulation, the baseband reads back 1 Α * Λ * The sign contains two bits each baseband Λ * Λ * Vector symbols. Attention 1 demodulator 144 and demodulator and decoder 146 K will be referred to as multiplex demodulation matters 1 I re 1 demodulator and demodulator (D / D) 148 0 using high-speed digital technology, using known The multi-filled Γ phase technology is used to demultiplex the uplink carrier 21, D / D can optimize the page 1 I 0 demodulator with quadrature phase shift keying is the most suitable for recovering the two symbols of baseband. 1 1 | Best Queue to Share Digitally Implemented Demodulator. The restored symbols 1 from each of the initial 1 1 rate channel carriers 11 0 are sequentially differentially coded and restored 1 to order the original rate channel symbols 1 0 8 originally used on the input encoder, which also means 1 I The station 23 is at channel splitters 82 and 98 in FIG. 1 I Satellite 25's payload preferably includes 6 digitally executed 48 carrier D / Ds 1 1 [148 > In addition, two spare D / Ds carrier lines are installed in the satellite payload to replace failures Processing device 0 1 1 Then refer to FIG. 6 to know that the processor 1 16 is programmed according to the calibration number 1 50. The software I module is used to control the demodulator and the difference in the quadrature phase shift. * | I The time-division multiplexed symbol stream generated at the output of the dynamic decoder 1 46 completes 1 I synchronization and rate alignment functions. 0 Rate collimation module 1 5 0 Software part 1 1 and hardware Components such as digital memory buffers and oscillators have been referred to 1 1 Figure 7 and are described in more detail in 圏 6. The frequency collimation module 150 compensates for the difference between the clock of the 1 I mounted on the device and the clock of the single uplink initial rate received on the satellite 25 through the symbol supported by the 1 I channel. The clock rate is different because 1 1 This paper size applies to the Chinese National Standard (CNS) A4 specification (210X297 mm) -27 A7 B7 Printed by the Staff Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. Description of the invention (25) 1 II Different broadcasts The difference between the different clock rates on station 23 and the different Doppler frequencies m at the same location due to the movement of satellite 25. The clock rate difference is W under the original ^^ 1 | Caused at broadcast station 2 3 The clock itself or the clock here. Please read it by yourself. 1 I start the clock rate and upload the readback on the ground line between the studio and the broadcasting station 23. Send 0. I7. Note that the frequency correction module 1 5 0 can be increased by K. Or subtract the 0 M value symbol, or do nothing at the end of the channel at the initial rate of 1 1 and 1 〆 432 milliseconds in each event. The value of 0 " value book is quadrature phase key I- and Q-channels of control-modulated symbols contain bits that are straight to zero Page, 〆1 I " 0 '' value symbol · 1 End of the initial rate channel 1 1 2 Under normal conditions contains 48 1 1 I AW payment number 〇 47 other. KAf payment number is followed by a & quot The initial symbol of the value of "0" 1 1 0 when the uplink is connected, the .AA- sign time of m is controlled by the quadrature phase keying modulator 146, and the same is the symbol of the frequency recovery of the uplink carrier and the clock 1 5 2 When the time 1 I is synchronized, for this special initial channel 110, the initial mark of the initial channel 1 I -far needs to be changed. 0 When the AW number of the uplink is reached, it indicates that 1 1 I is installed on it. The clock with an AW pay number 9 will add the '0' symbol to the beginning of the initial rate d channel 11 2 at the beginning of the initial mark for instant processing by the initial channel, so that 1 1 produces 49 Α * Λ * pay numbers. The length of 0 when the UP payment number reached has timing, so that the clock on the top of I is pushed forward by one symbol, so that the giant is processing -· 1 I Start rate The initial rate start of the channel deletes a “0” symbol at the beginning, so 1 I generates a length of 47 symbols. 0 1 1 Enter the rate alignment module 1 5 0 as described earlier. The signal includes a 1-bit complex base-frequency two-bit symbol stream. This is to make each received one. The initial 1 1 start rate channel is at the original symbol rate of each quotient. 0 There are 2 8δ such information 1 I stream. According to each of the six active processors 1, 16 issued from the digital display 1 4 8 0 1 1 This paper size applies the Chinese National Standard (CNS) A4 specification (2I0X 297 mm) 28 A7 B7 Central Bureau of Standards, Ministry of Economic Affairs Printed by the employee consumer cooperative V. Description of the invention (26) 1 1 I The functions described here only involve a digital display 148 and a directional rate 1 1 1 Alignment module 150. However, it can be understood that it has 5 skins. On the satellite 1 | the active processor also performs the same function 0 Please read 1 I for The symbol of the uplink initial rate channel for the evaluation of straight alignment leads to the clock on the back of the satellite. The clock must be divided into three steps. No. 1—Easy note 1 in the reverting work. Intention 7. Puncher 1 5 3 Each-in the buffers 1 4 9 and 151 all symbols should be based on the matter 1 I then | 〆 their original 8208 two-bit Λ-Λ- sign of the initial rate channel frame 11 0 symbols are compiled to fill this group 〇This—. The point requires the initial rate channel end 112 (which contains the words of 47 symbols unique page 1 I) and the local storage of the unique words in the corrector labeled 155. 1 1 1 copy for correction. Placed in the buffer. The number of ticks of the second clock on top of 1 1 is determined to be 152 after correction of the peak value. It can be used to adjust the length of the initial rate channel head 11 2 K compensation rate difference 'third 1 I * initial rate The track frame M and its revised title are calculated as the zero line of time based on the frequency conversion on the loading tool 1 I into the appropriate position in the memory component for switching and alignment (Figure 1 1 8). The initial rate channel ΑΤΑ * pays the number to enter the slow firing device 1 1 on the left side of the reciprocating conversion operation. The reciprocating conversion action causes a buffer 149 or 151 to be filled up. Loading clock rate 〇 This operation ~ * 1 I Iterative transformation from this frame to the next frame causes the input of buffers 149 and 151 1 1 m between input and output flow 0 new arrival symbol is written to the buffer In 149 or 1 1 1 51, they may happen to be connected at-. Continue writing M to fill the buffer 1 1 149 or 15 1 > until the pulse peak appears. At this time, the writing should stop 1 1 and $ and the input and output switches 161 and 163 should be turned to inverse bit 0 so that 1 I captures the uplink initial rate channel frame 1 like this. So, its 48 header symbol resides 1 1 Γ '" Λ This paper size applies to Chinese National Standard (CNS) A4 (210X 297 mm) -29-A7 B7 Printed by the Consumers ’Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. Invention Xu Ming (27) 1 1 I There are only 48 slots in the Α-Λ * pay slot. One slot is located at the output end of the yuan punch. 1 1 1 is not filled. 0 160 160 data symbols fill the first 8 1 6 0 slot < title / · — ^ 1 | The contents of the buffer are read into the output of the clock rate mounted on it,-丨 > · Mi 0 please go ahead. Read 1 I The numbers read out are those containing 47, 48 or 49 symbols Read the 1 title of the initial rate channel 0—a " 0 "value character has been removed or added to Note 1 of the title of the initial rate channel Make the adjustment at the beginning M. 0 The length of the header 11 2 is controlled by the signal from the frame symbol 1 1 then 1 1 and the counter 1 5 9 to calculate the frequency symbol of the clock mounted on it. Fill 1 and it will overlap to the initial rate. Channel frame period M determines the length of the title ° This transition to the overlay 1 I changes the role of the buffer 0 1 1 1 In order to complete this counting, the frame corrector 1 5 5 of the frame correction tip 1 1 peak Pulse 9 is used as the frame of the initial rate channel to fill the buffers 149 and 151 and 1 is set to be smoothed by the synchronous pulse oscillator (SPC). 1 The smooth synchronization pulse is used to calculate the Λ * Λ * pay sign occurrence time of each frame. 〇 The number will be 8207, 8208, or 1 I 8 20 9 It indicates whether the title of the initial rate channel is 47 48 or 1 1 49 49 Λ · Λ-the length of the sign 0 This information makes it appropriate Number of Λ * Α * The number from the frame buffer line (out of M) keeps the symbol stream synchronized with the clock installed on it; it also keeps independent from the starting point of the ground 1 1 ball end. I expect the rate difference to the system 10 to modify the sequence of the sequence. The time is longer than •. '| I. For example, a clock rate difference of 10-6 can modify the sequence program of the initial rate channel on the average of 123 initial 1 frames. The obtained rate is adjusted 1 1 integer The symbol rate of the initial rate channel can be accurately synchronized with the 1 1 clock 15 2 installed on it. This allows the baseband bit symbols to be arranged at appropriate positions in the time-divisional 1 1 transmission frame. Synchronization Normalized initial rate channels 1 1 are represented by 154 in FIG. 6. These initial rate channels will now be described with reference to FIG. 8 1 This paper size applies the Chinese National Standard (CNS) A4 specification (210X 297 mm) 30 Central Ministry of Economic Affairs Standard Bureau Off-Work Consumption Social printed A7 1 1 λ a ^ '_____ Β7_ V. Description of the Invention (* 2S) 1 5 4 how to approach and how to arrange a switch on the device. Figure 6 illustrates how a D / D148 is used to process the initial rate channel. The other five active D / Ds on the satellite also perform similar processing. The initial rate channel is transmitted from each of the 6 D / Dsl48s, each of which is synchronized and collimated, and each serial stream with a symbol rate of 4 8 X 1 9 0 0 appears. For each D / D 1 4 δ, it is equal to 912,200 symbols per second. The serial data stream 154 from each D / D 148 can be decomposed into 48 parallel, initial rate data streams with a rate of 19,000 symbols per second, as shown in 圔 7. The total number of initial rate channel data streams from all 6 D / D si 48 on satellite 25 amounts to 288, and each D / D 1 4 8 contains 19 0 0 system / second initial rate channel data streams. Therefore, the symbol has a signal occurrence time or period of 1/19000 seconds, which is equivalent to a duration of approximately 52.63 microseconds. As shown in Figure 8, for the appearance time of each uplink initial rate channel symbol, 288 symbols appear on the outputs of the six D / Dsl48a, 148b, 148c, 148, 148e, and 148f channels. As soon as each initial rate channel symbol appears, the 288 symbol value is written to the switch and permutation memory 156. The contents of buffer 1 56 are read into the three downlink time-division multiplexing frames assembler 16 0, 16 2 and 16 4. Using the arrangement route and switching elements marked 1 72, the contents of each of the 2 8 8 memory cells are grouped according to 96 symbols, a total of 2 6 2 2 groups are read into the assembler voice 1 6 0 , 16 2 and 164 in each of the three time-division multiplexing frames; its constant phase delay is 136.8 milliseconds, and each time-division multiplexing frame period or 138 milliseconds occurs once. Therefore, the scan rate, or 136.8 / 2622, is faster than the duration of one symbol. Arrange the access switches and modulators 1 2 4 Including a reciprocating conversion paper size Applicable to Chinese National Standard (CNS) A4 specifications (210X297 mm) ~ (Please read the precautions on the back before filling this page) Pack. Order one 31- Printed by the Consumers' Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs A7 1 B7 V. The memory of invention description (29), which is generally calibrated to 156 devices; it also includes buffers 1 5 6 a and 1 5 6 b. The 2 8 8 uplink initial rate channels calibrated to 1 5 4 are used as inputs for arranging switches and modulators 1 2 4. Correct the sign of each initial rate channel occurring at 1900 symbol rates per second according to the timing of the clock installed above. The initial rate channel is written in parallel to the M 1 900 Hz clock rate into 2δ8 positions of the reciprocating conversion work memory 156a or 156b as input. At the same time, the memory is used as the output of 1 5 6 b or 1 6 6 a, respectively, reading the symbol K 3 X 1. 8 4 MHz read rate stored in the previous frame to 3 time-multiplexed frames Go. The latter has a rate K sufficient to simultaneously generate three parallel streams of time-division multiplexed frames, one of which is directed to each of the three beams. The symbol arrangement route switch 172 controls the arrangement of the symbols into their prescribed light beams. This switch can arrange symbols into any one of the time division multiplexing streams of 1, 2, and 3. It occurs at a rate of 1.84 million systems / second per time-division multiplexed stream. The output memory is clocked at intervals of 16.8 milliseconds and paused at 1.2 milliseconds. M allows the insertion of 96 average free-run symbols and 2 11 2 dual-subcarrier system symbols. It should be noted that each symbol is read into a time-division multiplexed stream on a K. There is a frequency-divided modulation and program-controlled channel. It is not used or can be missed. The element punches 156a and 156b for reciprocating switching work by switching elements 158a and 158b from one frame to another. Referring next to Fig. 8, 96 symbol groups are transmitted to each of the time-division multiplexed frames in a corresponding slot of 2 6 2 2. The corresponding symbols (that is, the corresponding symbols (ie, ith symbols) for all 96 uplink initial rate channels are grouped together in a time-division multiplex transmission frame, as shown in the 16 slot of symbol 1. Each frame Time-sharing multiple paper sizes are applicable to China National Standard (CNS) A4 (210X297 mm) (Please read the notes on the back before filling out this page) € Binding. Order Θ -32-Printed by the Staff Consumer Cooperative of the Central Bureau of Standards, Ministry of Economic Affairs System A 7, '< ι1 ι' ι ______ B7 V. Invention of sharp (3.0) The content of 2622 slots in the transmission frame is increased by the appearance time of the signal to the entire 136.8 milliseconds—a pseudo-random bit pattern to the entire 136 8 millisecond signal appearance time. In addition, 1 * 2 millisecond appearance time is added to the beginning of each time-sharing multiplex frame to insert a 96-symbol main frame sequence program (^^ 卩) and 2112 The symbols of the dual sub-carrier system channel (1 ^ (:( :), as shown by 168 and 170 respectively. The total is 2622 time slots, each time slot carries 96 symbols and the main frame sequence program (MFP) and The dual-carrier system channel (TSCC) symbol is time-multiplexed per frame The double subcarrier system in the input frame is 253,92 symbols, which results in a downlink symbol rate of 1.84 million symbols per second. The system is represented by 6 numbers 148A., 148B, 148C, 148D, 148E and 148F output the initial rate symbol alignment approach and time-division multiplexing frame assembler 160, 162, and 164. The input is controlled by the switch sequence unit 172 installed on it. The command stored on the command line of the satellite control center 238 (Fig. 12) is sent up. Each symbol in the symbol stream of the selected uplink initial rate channel can be arranged in the route, and enters the time in the time division multiplex transmission frame. * To transmit to the desired destination beam 27. The method of permutation does not depend on the relationship between the time when the symbols of the uplink initial rate channels appear and the time of the symbols in the time-division multiplexed downlink of the downlink. This reduces the complexity of the satellite 25 load. Moreover, the symbols sent from the selected initial rate channel of the uplink can be arranged by the rib switch 1 5 8 into 2 or 3 destination beams. Radio Receiver operation The radio receiver 29 that will be used in the system 10 will be described with reference to Fig. 9. The radio receiver 29 includes a radio frequency section 176, which has a paper size applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm). ) (Please read the notes on the back before filling out this page). Assemble. Order> 33- printed by the Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs A7 1 4 B7 V. Inventing Weiming (31) Antenna 178 For receiving U-band electromagnetic waves and pre-filtering M, select the operating frequency band of the receiver (for example, 142 to 142 MHz). The radio frequency section 176 may also include a low-noise amplifier 180, which can receive signals with minimal self-generated noise and exclude interference signals. Such interference signals may come from other users who share the operating frequency band of the receiver 29. device. The mixer 1 8 2 is used to reduce the received frequency spectrum to an intermediate frequency (1 F). The output of the high-performance IF filter mixer 182 and the local oscillator synthesizer 186 selects the required bandwidth of the time-division multiplexing carrier. In this way, a mixed input frequency can be generated, which is needed to input the signal required for the falling frequency to the center of the IF filter. The time-division multiplex transmission carrier is located at the center frequency, and a 460KHz separation zone is separated on the grid. The bandwidth of the IF filter 184 is approximately 2.5 MHz. The carrier must be separated by at least 7 or 8 spaces or approximately 3.3 MHz. The radio frequency region 176 is designed to be able to select the required time-division multiplex carrier bandwidth to have minimal internally generated interference and distortion and to exclude interference carriers that may occur in the operating frequency band from 152 to 192 MHz. Interfering carriers are rated in most parts of the world. In general, adequate protection can be obtained if the ratio of the interference signal to the wanted signal is 30 dB to 40 dB. In some areas, operating near high-power transmitters (for example, near terrestrial microwave transmitters used in public telephone networks and other broadcast audio services) requires the front end to be designed with good protection. Use the RF section 1 7 6 from the downlink signal, recover the desired time-division multiplex carrier bandwidth from the downlink signal, and provide it to the analog / digital converter 188, and then send it to the quadrature phase shift chain control demodulator 190 . The quadrature phase shift keying demodulator 1 0 0 is designed to recover the time-division multiplexed bits transmitted from the satellite 2 5 The paper size applies to the Chinese National Standard (CNS) A4 (210X 297 mm) (Please read first (Notes on the back then fill out this page)

* 1T -34-kl B7 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs 5. Description of the invention (32) 1 1 Streams 0 These are based on the selected carrier frequency, with the help of the 1 1 loader and equipment The c ^ 1 I quadrature phase shift demodulator demodulator 1 9 0 is the best way to perform the function. The first method is to read the 1 I first. Read the IF signal in the RF section 176. 1 • | The number is converted into a number Λ-.Λ- and the number is used to execute it using a known digital processing method. Note 1 Means that quadrature phase shift keying 0 mediation is the best Using Λ-Α * pay number timing and carrier frequency recovery and matter 1 I re \ decision circuit It can send the symbol sampling and writing code of the quadrature phase shift keying demodulator 1 0 0 to the baseband. Way to access the bit stream 〇 page ____ 1 I better restore integration in the channel An analog-to-digital converter 1 1 I 188 and a quadrature phase shift keying demodulator 190 0 are set on the chip 187. This is to use the RF / IF 1 1 circuit board 176 to recover the intermediate frequency signal from the intermediate frequency signal. Recovered broadcast channel 1 subscription digital baseband signal σ occupies m 0 Channel recovery circuit 1 8 7 Synchronizer and predictor module including time division multiplex 1 I transfer 192 multiple 1 1 demodulator for time division multiplex 194 The alignment of the synchronizer controlled by the program approach and the multiplexer I 1 I The operation of the various devices on the 196 MHz will be described in further detail in conjunction with FIG. 10 and described below. It is located at the output of the quadrature phase shift keying demodulator 190. The time division at the end is transmitted to the main frame pulse synchronization corrector 200. It is located in the time | time division multiplexing synchronization corrector and predictor module 192. _-1 I The corrector 2 00 compares the received bit stream with the stored mode 0. When 1 I finds that there is no signal in the receiver, the corrector 200 first enters the search 1 1 horizontal mode to find the desired one in this mode The main frame pulse correction mode does not have any time gate or aperture limitation on the output. When the corrector issues 1 I, it needs to be corrected. F It enters a mode in which the 1 I door opens at a certain interval f. During this interval, it advances to the next 1 1 paper size. China National Standard (CNS) A4 specification (210X 297 mm) 35 A7 B7 Yin Ju, Consumer Work Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs of the People's Republic of China 5. Invention (3ij 1 1) Ready to make corrections. If the signal appears Correct the time 1 1 1 If the event reappears, the process of the time gate repeats. For example, if 1 I occurs for 5 consecutive time frames, the synchronization will be announced by software. Please read 1 1 〇 But the synchronization threshold is Can be changed. If the minimum number of consecutive readings is 1 * 1 and no correction occurs in the time frame, the corrector will reach the synchronization threshold. Note 1 Note 1 will continue to look for correction patterns. Boxing item 1 I re 1 / Assuming synchronization has occurred. Corrector enters synchronization mode. Fill in this mode in this mode. 9 It adjusts its parameter κ to reach the maximum possibility to continue synchronization lock. '— 1 | 〇 If the correction is lost The corrector enters a special prediction mode. In this mode 1 1 1 the corrector will continue to maintain the same by predicting the next correction event will come. I I will be stepped through 0. The message m is lost (for example, up to 10 seconds). The corrector can maintain Enough 1 order accurate synchronization M to achieve instant recovery when the signal comes back 0 1 | This fast recovery is beneficial because it is important for mobile reception conditions 1 I 〇 If a specific period of time passes The correction cannot be restored again. 1 1 I > The corrector 2 0 0 returns to the search mode, and is in sync with the main d frame pulse of the time division multiplex frame. Under the circumstances, TSCC can be recovered by time division multiplexing frame 1 1 demultiplexer 1 9 4 (see box 分 202 in Fig. 10). 0 The information contained in TSCC I can be determined in the time division multiplexing frame. The bearer program provider I can find each set of 1 1-section giant provider channels of the 96 initial rate channels in the time-division multiplexing frame. In any one of the initial-rate channels, there can be 1 1 more channels from time-sharing. Part of the transmission frame is transmitted 0. Part of the time-division multiplexed frame contains the initial 1 1 rate channel number. The channel number is preferentially scrambled. This can be done because the same is added to the 1 1 receiver 29. Scrambling mode 0 These will be added to the initial rate channel of the time-division multiplexing frame mounted on the 1 I satellite. 0 The scrambling mode is 1 1 This paper size applies the Chinese National Standard (CNS) A4 specification (210X 297 mm) 36 A7 B7 Central Standard of the Ministry of Economic Affairs Printed by the employee consumer cooperative V. Description of the invention (34) 1 I The time-division multiplexed frame in the time-division multiplexed frame is synchronized to M. 0 1 1 1 The symbol of the initial rate channel in the time-division multiplexed frame is not grouped. Adjacent to a 1 | but extended to the entire frame 0 Initial rate channel in time division multiplex frame Please read 1 I Section contains 26 22 groups of symbols are included in the initial back 1 I rate of time division multiplex frame In the channel, the position of the symbol in each of the __ · initial rate channels is from 1 to 9 6 Note-meaning 0 from the bottom up, so that everything belongs to the first initial rate channel 1 | The Λ-Λ · pay sign is in the first position among all 2622 groups 0 belongs to the initial Φτ script 1 * The symbol of the loading rate 2 is in the second position among all 2 6 2 2 groups of symbols π 1 1 The analogy is shown in the block diagram 2 0 4 < > It is clear that the arrangement of the initial rate channel in the 1 1 1 time-division multiplexing frame can reduce the size of the memory. The storage 1 1 device is used to complete the switching and arrangement of the route on the satellite κ and to make more than 1 reservation at the receiver. The transmitted 0 is shown in Figure 9. The TSCC is recovered from the multiplexed 1 I modulator 1 9 4 of the time-division multiplex transmission and provided to the controller K 1 I on the receiver 29 to restore the initial state of the special broadcast channel. The carrier number of the initial channel of 1 1 I related to the broadcast channel is related to the spread channel extracted from the clear time-sharing d multiplex frame slot position determined by the TSCC. This This combination 1 1 is performed by the controller in the radio. It has been briefly explained at 2 0 5 at 圏 1 0. The controller 2 20 receives the * · I 1 selection of the broadcast channel determined by the wireless operator and This choice is combined with the information of the initial rate channel included in the TSCC. In the transmission frame, the A * A * payment number is extracted and rearranged so as to restore 1 1 several original rate channels 0 1 1 See the block diagrams in Figures 9 and 10 respectively. ΛτΛ- sign of each initial rate selected by the operator (e.g., shown at 207) 1 I is related to the broadcast channel (e.g., shown at 209) '> these:? Ϊ 号 1 1 This paper size applies to China National Standard (CNS) A4 (210X 297 mm) 37 A7 B7 Printed by the Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs 5. Description of the invention (35) 1 1 Multiple multiplexed transmissions are processed by floating point information The format of the broadcast channel 1 1 1 encoded by the machine abnormal code is removed. ○ The first several channels of the broadcast channel are rearranged before the multiplexing is completed. The rearrangement is useful because in system 10, please first 闳 1 I Channels of end-to-end connection lines are multiplexed, Multi-channel demodulation and frequency collimation on the upper side of the read will encounter the problem of repeating the timing of the number of times. Note: | This problem can be used in the relative alignment of the original frame recovery. Move up to matter 1 I and 4 symbols to resolve> In order to recombine these several initial rate channels to fill out this broadcast channel, for each __. 47% 48 or 49 symbol header in the initial rate channel IV, 1 I Synchronization completed. Α-Λ- The length of the number head depends on the initial rate of the uplink on the satellite. 1 1 | Timing alignment on the channel is completed. Each of the η initial rate channels of the-47 initial rate channels at the beginning of the latest 1 order received signals are synchronized on the 0 sequence program corrector to detect a 1 I accident and correct the pulse spike during the correction.Issue a symbol 0 according to the correlation correction pulse spikes 1 1 of the several initial rate channels related to the broadcast channel 1 1 | Appear at the corresponding time and operate the initial rate channel according to the chain with the 4 symbol wide collimation buffer Α-Λ- The content of the paid number can be accurately aligned and multiplexed again. 1 1 Input Μ Recovery Μ Floating point [Information] Processor exception code-encoded broadcast channel 0 is 1 | Modified floating point [Information] processor Abnormal code-encoded broadcast channels and ¢ 4¾ m.-II initial rate channels require multiplexing at the broadcast station 23 using the Λ * Α · 付 1 I spread order to float the [information] processor exception Code-coded broadcast channel M 1 1 is multiplexed in reverse order to the initial rate channel as shown in block 1 of Figure 10 1 1 Figures 206 and 208 0 1 1 Figure 11K Example illustrates a broadcast including 4 initial rate channels How is the channel 1 I Recovered on the receiver (block diagram 196 in Figure 9) 〇 On the left, it means 4 strips 1 1 This paper size applies to China National Standard (CNS) A4 (210X 297 mm) 38 A7 B7 Employees of the Central Bureau of Standards, Ministry of Economic Affairs Printed by a consumer cooperative. 5. Description of the invention (: Chuan) 1 1 I The initial rate of the mediation channel arrived. ○ Due to the change of retiming, different time delays will occur from the broadcast station to the satellite through the satellite to the antenna. /-, 1 I can have a relative offset between the η initial rate channels that make up the broadcast station channel. # Read 1 I up to 4 symbols. The first step in the restoration is to rearrange these initial rates. Read back 1: The content of Λ * Λ- 付 σ in 1 track. This is through the __. Group of first-in-first-out punches, each of which is slow. Note-I means that the punches have the same length as the change range. Each initial rate channel has a matter I and then k 1 '. My own buffer 222 > Each initial rate channel is first supplied with a corrector 226 that can determine the initial rate header that reaches the flashpad. 4 initial rates are shown in the figure. Each page in the channel > 〆I The arrival moment of a 绦 is represented by the spike of the correction pulse. As the 1 1 1 correction occurs, each buffer 222 immediately begins to write and then continues 1 1 Continue until the end of the frame. In order to arrange the symbols in rows and send them to the initial rate 1, the order channel is opened to read 1 I from all buffers at the moment when the last relevant event occurs. This causes all the symbols of the initial rate channels to be in the buffer 1 I 22 The 2 outputs are read out in parallel in a parallel manner (block diagram 2 06). The next step is to re-assign the newly-arranged AW payment number 2 2 8 to the single string X suspect stream using the multiplexer 2 30. This is the broadcast channel that has been re-encoded. The length of the initial rate channel header can be 47-48 1 I or 49 subscript lengths when it is installed on top of M 1 52 rate calibration. This variable can be canceled in the correlator 2 2 6. The method is Use only the last 47 rungs to get detection related events. 1 | See the block diagrams 198 and 210 in Figure 9 respectively. The floating-point information processor 1 1 The constant-coded broadcast channel is then provided to the floating-point information processor's exception code 1 1 The management module 210 ′, the encoder, and the 啭Most of the errors encountered during the transmission between encoder positions are corrected by the floating point information processing module 4m micro-abnormal code processing module 0 floating 1 I point information processing machine preferentially uses a viterb ί T re 1 1 is decoded 1 1 ο η-This paper size applies Chinese National Standard (CNS) Λ4 specification (210X297 mm) 39 A7 B7 Printed by the Consumer Cooperatives of the Central Standardization Bureau of the Ministry of Economic Affairs 5. Description of the invention (3 ^ 1 1 I It then removes frequency interleaving and then uses Re ed Sol 〇m ο η decoding 1 1 1 device 〇 floating point information processor abnormal code processing module to restore the original broadcast channel 9 1 I It contains η > < 1 6 thousand instructions per second Channel increment and its η X 2 2 4-bit sub communication please read 1 1 I channel (block 212) 1 Read back η X 1 6 kbit / s section of the broadcast channel is provided to the demodulator such as MPEG Note-Chapter II 2.5 layer 3 source decoder 214 for switching back to the audio signal > Low fist item 1 1 The cost of the receiver used by the radio to receive satellites from the broadcast channel is to write r and write it. It is possible because the broadcast transmission via satellite 25 is digital. Many other services are also represented in the digital format. As previously mentioned, 1 1 1 子 The sub-channels included in the broadcast channel provide a wide range of future service options. 1 1 A control channel 0. Therefore, by using the entire time-division multiplexed bit stream and 1 Set the TSCC information bit M of the unprocessed demodulation format signal separation and the changed 1 | Resuming the use of the broadcast channel that is correct and wrong can enable The chipset is generated to perform these 1 choices of these services. 0 Radio reception m 29 can also be 1 1 for uniform addressing. Each radio provides an acknowledgement code. 0 The bits carried in the SCH channel of the broadcast channel can be used to Query code 〇 For mobile operation using the radio receiving m 1 1 29 according to the present invention, M /, "the line calendar is equipped with some devices to enable 1 I instantaneous prediction and restoration of the maximum peak pulse correlation of the main frame, the accuracy rate must reach Ί I Ten seconds interval is 1/4 symbol 1 The symbol timing of this oscillator has a short time 1 The accuracy is better than a part of every 100 million symbols. The oscillator is most suitable for installation in a radio receiver m Inside especially handheld radio receiver 1 1 machine 2 9 b inside 1 1 management satellite and broadcasting station system 1 I as mentioned above, system 10 may be > x contains-1 Or more satellites 25 0 In order to achieve 1 1 This paper size applies Chinese National Standards (CNS) A4 specifications (210X 297 mm) 40 A7 B7 Printed by the Bayer Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. Description of the invention (33) 1 1 To the problematic figure 12, there are 3 satellites 25a-25b 25c 1 1 1 〇 There are several satellites in the system 10. It is preferable that it contains several chase D * £? Stations ^ -s 1 I 24 a '24b 24 C' '2 4d and 24 e their positions can be achieved each 1 please read 1 1 satellite 25 a, 2 5 b and 25 c are located in the squall line of the two tracking stations (usually adopted Read back © The tracking station with reference number 24 is controlled by the regional control equipment (RBCF) 238a, 238b or 1 238c. Each regional broadcast control equipment 2 38a 238b and matters I then W 2 3 〇c Both contain satellite control centers (SCC) 23b a 236b and 236 C, respectively Copy Center (MCC) 240 a, 2 40 b and 24 〇 £ and a broadcast control page ___ · 1 I Center (BC C) 244a 2 4 4 b and 244c 〇 Each satellite control (seem 1 1 1 satellite Data bus and communication payload. The center is also the place where space fans manage and control computers and human resources. The equipment should be ordered by a certain number of 1 9 technology trained in management and control of satellites in orbital lotus 1 | personnel 24 hours a day, someone managed it 0 satellite control center 236a 1 I 236b and 2 3 6 c Monitor the components mounted on it, especially the satellites 1 1 that operate the phase rrtp 臛 such as 25 a η 25b and 25 C c. Each tracking station 24 is preferably directly connected to the corresponding satellite control center 2 3 6 av 236b or 236c keeps in touch directly through the public telephone network circuit of the dual standby 1 working all day. 01 | Phase I regional broadcasting equipment 238a, 238b and 238c in each of the regions served by satellites 25a 25b and 25c shall be sound, Data Figure 1 1 The broadcast channel is reserved by the Elephant Service through the Mission Control Center (MCC) 240 a, 1 240b, 2 4 0c. The channel is arranged for the space sector channel, and these services are approved to send 1 1 services. These are to provide broadcast services. Provider and to the axilla Information provided by the service provider 1 | Information 〇1 I Each mission control center should be configured with K to reach the level that can reach 1 1 This paper size applies Chinese National Standard (CNS) A4 specifications (210X 297 mm) 41 Central Ministry of Economic Affairs Printed by the Consumer Bureau of Standards Bureau A7 B7 V. Description of Invention (30) The frequency of the uplink initial rate channel and the location of the initial rate channel in the time-division multiplexing program. Each mission control center performs dynamic and static control. Dynamic control includes time windows for completing work tasks, that is, arranging the use of empty sectors by month, week, and day. The Sales Section should be staffed with the ability to sell space sectors at the appropriate directional radio frequency and provide mission control centres with data and instructions indicating effective capacity to facilitate the use of the sold capacity. The mission control center generates a comprehensive plan to occupy the time and frequency space of the system. The plan is then converted into a command for use as an on-board switch 172 mounted on it and sent to the satellite control center for transmission to the satellite. The plan should be updated every 12 hours and transmitted to the satellite. The mission control center generates a comprehensive space that is used to occupy the time and frequency of the system 10. The plan is preferably updated every 12 hours and transmitted to the satellite. The mission control centers 240a, 240b, and 240g also monitor the time division multiplexing received by the response channel system monitoring equipment (CSME) 242a, 242b, and 242c. The channel system monitoring equipment station confirms that the broadcasting station 23 provides broadcasting channels within the scope of the technical specifications. Each broadcast control center 244a, 2 44b, and 244c monitors whether each broadcast ground station 23 in its area is within the selected frequency, power, and antenna measurement point tolerances. The broadcasting control center can connect with the corresponding broadcasting station to order the broadcasting station with poor function to stop broadcasting. The central facility 2 46 preferably provides technical support services and backups for each satellite control center. While selecting some specific devices with certain advantages to explain the invention, it should be recognized that those techniques used in the art can be made (please read the cautions on the back before filling out this page). Binding. Thread This paper size is in accordance with Chinese National Standard (CNS) A4 specification (210X297 mm). 42 V. Invention description (within 40 A7 B7 regulations. Attachment 0 to Fan Li's application is subject to modification. ΠΜ 9Q Fan Bian's SPO S 'is not the same (please read the precautions on the back before filling out this page). ··· 11..4 The paper size printed by the Employee Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs applies the Chinese national standard ( CNS) Λ4 size (210X297 mm) 43

Claims (1)

A8 B8 C8 D8 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs 6. Application for patents 1 1 | 1. A receiving device for receiving time-division multiple downlink data streams from satellites 1 1 1 9 Contains 1 I for solution Phase-shift keying demodulator J that adjusts the downlink data stream to become a Λ-Λ * pay-signal stream. Please first 1 1 闳 I The downlink data stream includes a time slot and is read in accordance with the relevant reading in the time slot specified by the satellite. Note 1 provided by a pre-determined initial-rate channel. Note I: The corrector associated with the fresh adjuster is used to place and synchronize to the AW * payroll stream inserted by the satellite. Go to the main frame sequence program and make a program. In the query book 1 A mode and synchronous operation mode of ___. Kind of operation Page'— 1 I The multiplexer connected to the corrector is used to put 1 1 I in the pay number stream — a time slot control channel inserted by the satellite into the 1 1 ΛΤΑ · pay Go to K to confirm that the time slot contains the initial rate channel. It is willing to order multiple broadcast service providers and 1 for frtc. An input device is configured to enable the operator to select one of the 1 I broadcast arms. The service provider can also provide the output signal to the multiplexer by operation 1 1 | llEg m The multiplexer can use the time slot control channel and the output signal to pass from the initial rate channel through operation Select some of the initial rate channels 0 1 1 2. For example, the receiver of the first scope of the patent application, where the corrector 1 | is configured to be based on the correction when the corrector detects the main frame correction type · | IThe output end of the router is the time gap predicted by the next correction event, so that 1 1 operates in the prediction mode with a time slot and hole limit at the same time 5 When the 1 1 cannot detect the main frame correction type, the time gate is not used Or the aperture limits M 1 1 query mode to operate 〇1 I 3. For example, the receiving device of the scope of patent application of claim 1, wherein when the main frame 1 I correction mode detects a predetermined minimum number of consecutive time frames in the downlink data stream 1 1 This paper size is in accordance with Chinese National Standard (CNS) A4 specification (210X297 mm). 1 When applying for a patent, the Central Standards Bureau of the Ministry of Economic Affairs prints it at the same time. 5 in time mode — Contains: For the beginning of data flow determination, when the number of data streams is one or more, it is determined with the star to determine the extracted symbols of the donor. When the corrector configuration is measured, the step mode is used. Gap keeping The patentable scope of Formula failed to apply the predetermined minimum operation detected frame. This mode of receiving from satellites operates in the synchronous mode; when the mode determined by the main frame correction type is operated, the corrector continues to determine another prediction of the main frame correction mode. The receiving device of item 3, When the number of frames of the downlink data stream during the prediction mode is connected, the corrector is configured to return to the receiving device of the time-division multiplexed downlink data stream. ) Inserting a plurality of time-initial-rate devices including multiples per initial rate-slot position multiplexing above the initial-rate multi-symbol number, and demodulating them into time-slot position-linked data having multiple channels; Each symbol in the initial rate pass is associated with each node in the channel into the slot position channel. According to the at least pair of symbols, the initial rate pass is connected to one of the multiple symbols in the multi-symbol stream. A at least one time slot controls the demodulator from which the symbol is a symbol stream, and the downlink time slot is used for each channel pre-determined by the satellite. Assigned to the time slot M. Expanded. Assigned to the time slot to expand the majority of the symbols corresponding to the downlink channel. Each symbol is assigned to each of the time slots. The channel is controlled by the slot, this is to include the multiple symbols that are in accordance with the selected broadcast service; the channel extracts the multi-stream from the symbol stream, and the selected broadcast service is provided. This paper standard applies to the Chinese National Standard (CNS) Α4 specification (210 X 297 mm) 2 At least one initial rate channel for those applying for patent scope A8 B8 C8 D8; and a multiplexer for multiplexing the data stream that conforms to the selected broadcast server to a series of broadcast channels Go. The receiving device of item 5, in which the broadcast service rate channel ', and also includes a collimation equipment, the Central Consumers Bureau of the Ministry of Economic Affairs, the staff consumer cooperative print service provider 6. If between the application provider and the extraction Reached 7. If the rate channel package contains the majority and the first write to the can be read in, the 8. — several kinds of initial and the following several have a certain number of the next time slot, each In terms of the complexity of the flow modulator, a large number of symbols of the patent range require multiple primary devices to be connected and configured to align the majority of the initial rate channels with each other. The scope of the patent, which includes the initial rate of each terminal initially with the initial phase of the buffer, the initial rate channel header buffer, the initial rate channel can be detected from the satellite's rate channel to the step: the linked data The stream has multiple timeslots to provide, a complex symbol, which means that. Receive ^:: ¾ of each item 6 and the collimator ^ and a buffer for each of the channels, and a connected corrector, which is configured to determine the instant of arrival of the corresponding part and start the initial rate channel When the corresponding end of the last one of the buffers of each of the multiple initial-rate channels arrives, the queue broadcast channel data stream is generated as soon as it arrives. Method for recovering one less initial rate channel transmitted in a time-division multi-channel downlink data stream, including demodulation into a symbol stream, the downlink data stream includes a position and each of the initial rate channels is predicted in advance according to an initial rate channel of the satellite All complex symbol numbers are assigned to the time slot M, and each symbol of the initial rate channel relative to the downlink data start rate channel is assigned multiple symbols for each time slot (please read the notes on the back before filling (This page) • .—Installation —---- Order No. II-I — This paper size applies to China National Standard (CNS) 8-4 (210X297 mm) 3 D8 Printed by the Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs Sixth, the scope of patent application 1 1 I to a corresponding position in a plurality of timeslot positions to 1 1 I to multiplex the signal stream to the slot control channel This is by satellite, ~ -V 1 I Incoming orbits determine that most timeslot positions contain multiple Λ-Λ * Payout numbers 9 Please first 1 1 m I They are at least sent by the initial rate channel to the reader of the selected broadcast service provided by t7pp; Note! Note 1 I The broadcast service provider selected by the channel control channel from the Λ-Λ * Pay number Φ- 1 I] 0 Most of Λ-Λ * pay numbers and% are extracted from at least one initial rate channel of the r ~ r stream according to the majority of Λ-Λ- pay numbers of the selected broadcast service provider The multiplexed page v_ ^ 1 I makes it enter a serial broadcast channel data stream 〇1 1 1 9. As the method of the scope of patent application No. 8 which mentions the broadcast arm service 1 1 The provider uses a large number of initial Rate channels and further includes the step of aligning most of the initial 1 rate channels and prioritizing most 1 I AW payouts based on the majority of the initial rate channels Multi-channel transmission 〇1 I 10. If the method of the scope of the patent application No. 9 each initial rate channel 1! I includes — ^ title and the collimation step includes the next few steps d * the majority of the initial rate Each passage of the channel is written into the buffer according to the moment when the title arrives. 1 The decision to read the last moment of arrival from the yuan punch. 1 11-A way to receive the slave signal through the downlink, including the initial rate channel. The method of one of the multiple broadcast channels transmitted by 1 satellite includes the following steps: 1 1 demodulate the downlink signal to enter the base 1 1 frequency-division multiplexed bit stream generated by the satellite containing the frame each A frame of this kind contains multiple time slots> every 1 I time slot contains a group of symbols. Each pay sign in the group is again paired with 1 1 I corresponding to the npp of the initial rate channel. The The channel occupies each time slot 1 1 This paper size uses Chinese National Standard (CNS) A4 specifications (210X297 mm) 4 A8 B8 C8 D8 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs 6. Scope of patent application 1 1 I The same Λ * pay number bits 1 1 1 through the satellite using the main frame sequence program to put the frame into the bit stream i N 1 I from at least-each frame of the frame in the frame- To search for ΛΤΛ * in the AW payment number, please first 1 1 闳 I is equivalent to at least one initial rate channel. Read back | Retrieving a set of payment numbers from each time slot of at least one frame is at least equivalent to the note 1 meaning 1 a channel of the initial rate Φ- term 1 I k In order to restore the desired broadcast channel corresponds to at least this initial rate The symbol is transmitted to the satellite as if it were originally __. Sample pages 1 I 9 and 1 1 1 Extract the service control header from the broadcast channel 〇 1 1 12. As retrieved by the method in the scope of patent application No. 11 Steps include M 1 Ordering several steps 1 I Inserting the bit stream by the satellite to set the time slot control channel The control channel 1 I indicates which time slot contains the Λ-Λ-pay number and 1 corresponding to each initial rate channel II uses the control channel to select an initial rate channel to extract the pay number 0 d 13. The method of item 11 of the scope of patent application also includes if the service control terminal includes a broadcast station inserted into the broadcast path Code 1 | Priority transmission to satellites to pay unified attention to • fnr radio receivers should take «. I. Decisive steps to take 0 1 14. The method of item 11 also includes if the server 1 1 service control head contains control data and manipulates the radio receiver according to the eighth V, the control 1 1 data and the multiple functions include manipulating the radio receiver in a selected receiving mode. The selected multimedia service is provided to display the data 9 to display Figure 1 1 Like using the decoding chain set in the eye control head to decode the data 1 1 This paper size applies the Chinese National Standard (CNS) A4 specification (210 X 297 (Mm) 5 VI. What is the scope of the patent application? What should be adopted? The current situation should be based on the initial situation, multiple input, transmission, and receiving numbers. The cost of using the satellite satellites has been installed by the following types: The received telecom line is not connected, the receipt should be used to connect to the use of Zhongtai Road, the beginning of the original + with the basic complex to restore the medium letter to the United States under the letter of the Union under the adjustment from the following: It includes, the multiplexing and recovery of Taofang Square believes, Taiwan Road one Each frame of the frame number in the enclosed packet includes the number of frames, the number of symbols, the number of symbols, the number of symbols, the number of tokens, and the number of points in the transmission path. The big one uses a profit every time in the beginning of the phase of the pass when the beginning of the number of symbols in the corresponding phase of the one-to-one phase symbol group symbol should be in the same phase, the number of symbols to occupy a gap in the time flow The application position should be set to a few frames. The first-order median gap of the main group of the starting frame symbol in the sequence inspection should be inserted with a small star to the defender. Debut the channel and send the letter to CITIC. The broadcast application from Guangxin Yu should be widely used to restore the system, and control the sample number .. The head of the star magnetic flux defense system uses the starter to make the original control. If the service is to be completed, the machine will be completed, and the machine will be connected to the line. If there is no electricity, the line will be used for the operation of the system. Control the election according to the armpit of the acceptance, the function of the equipment installed in the receiver (please read first Note the surface and then fill 4) Ministry of Economic Affairs Bureau of Standards Employees Co-op installed print head system. Take advantage of the control machine, the server receives the service map, and the map is placed online. »To the data, send a note to explain the manifest alone, and work with the response code to translate the internal media code of the body. The long-headed, selective, and selective control of the service is provided for the service, and the service is provided in the first one to send a hundred festivals + J Guangsong B.S. The service is provided for the service, and it is broadcast from tww < ~~ The following M includes the method of sending and receiving from the French party, the receiving process is much longer or the sum of 1. The total has * 'to go to the middle of the digital transmission unit 10% of the volume of the increase rate of the division rate of 1 The rate in this section will be determined quickly and accurately. The paper size applies to the Chinese National Standard (CNS) A4 specification (210 × 297 mm). 6 Printed by the Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs. C8 D8 6. Apply for a patent to generate a frame with a predetermined period and include each initial / starting rate increment and frame title; divide the frame into symbols, and each symbol contains the predetermined sum of the bits Consecutive numbers; multiplex demodulate the symbols of the frame In the second number of the flat rate line initial rate channels, each initial rate channel has the same predetermined period as the frame, and the symbols provided by the initial rate channel can be separated in a predetermined order. Continuous symbols, each initial The rate channel includes an initial rate channel synchronization header for recovering the initial rate channel at the detour receiver; and modulating the initial rate channel to a corresponding number of uplink carrier frequencies for broadcast transmission. 7. For example, the method of claim 16 in the patent scope, wherein the frame mark includes a bit for controlling the receiver device. 18. The method of claim 16 in the patent scope, wherein the program is characterized by including Two sets of services, and further includes the ability to divide a single initial rate increment into two parts, which are used to transmit to the two services separately. 1 9. The method of item 16 in the scope of patent application, where the initial rate The second number of channels corresponds to the first number of the initial rate channel increment. 20. The method of item 16 in the scope of the patent application, wherein the modulation step includes the use of multiple orthogonalities. Steps of shift-keying the modulator to modulate each initial rate channel. 2 1. The method as described in item 20 of the scope of patent application, wherein each symbol includes two bits. 2 2. As the scope of patent application area 20 Method, in which the paper size of the initial rate channel is applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm) _____; ______ Equipment __:-(Please read the notes on the back before filling this page) Order ABCD Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs. 6. The second digit of the patent application scope and the complex number of the quadrature phase shift keying modulator correspond to the first number of the initial rate increment. 23. The method of claim 16 in the scope of patent application, wherein the predetermined order is ascending order. 2 4. A method of transmitting a broadcast program from a broadcast service provider to one or more remote receiver devices, including the following steps: Assemble the program to an initial rate with a uniform and predetermined frequency Generate the first integer of the amount; generate a bit frame with a predetermined period and contain each initial rate increment and frame start marker; encode the frame to generate an encoded frame that contains protection for previous error corrections The encoded bits; the encoded frame is decomposed into symbols, each of which includes a predetermined and continuous bit number; the signal is multiplexed into the second number of the parallel initial rate channel, which should be The symbols M are provided in a predetermined order across the initial rate channel M to separate consecutive symbols. Each initial rate channel contains an initial rate channel. The synchronization header M enables a remote receiver to recover the initial rate channel and the corresponding number The initial rate is modulated at the frequency of the uplink carrier for broadcast transmission. 25. The method according to item 24 of the patent application scope, which involves selecting at least one coding scheme from a group including Ritz-Solomon coding interleaving coding and Trellis convolution coding. This paper size applies to China National Standard (CNS) A4 specification (210X297 mm) _ q _ (Please read the precautions on the back before filling out this page)-Packing-Order A8 B8 C8 D8 Printed by the Consumer Standards Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 6. Applying for a patent scope of 1 1 1 26. The method for applying for the scope of patent application No. 24 involves coding packets 1 1 I including the following steps: 1 1 I encodes the frame according to the first coding scheme to generate Please read the first missing code first 1 1 Read | Frame read back I Intersect the first encoded frame. Wrong encoding M generates __. Frame 1 interlace encoding | Meaning of the frame and use the second encoding scheme Edit the rff of the interlaced coded frame. Post 1 item and then (27. If the method of the scope of patent application No. 26 is applied, where the-** kind of editing is filled in This coding scheme is the Ritz-Solomon coding scheme, page 0- ^ 1 28. If the method of the scope of application for patent No. 26 is used, the second coding 1 1 coding scheme is a trellis-folding coding scheme 0 1 1 29. For example, the method of applying scope No. 24 in the patent application, wherein the predetermined order 1 order 1 I is ascending order 0 30-a management system used to manage satellites and-a fixed number of broadcasting stations 1 1 1 unified it to prepare a hundred hundred by satellite use The broadcast channel sends the programmed section to a remote wireless 1 I electric receiver. The system includes a satellite control system, which is configured to generate control signals for controlling the attitude and orbit of the satellite, and generate data processing control signals. , Used to process the satellites connected to the satellite via the broadcasting system and arrange the route to send β 1 1 I in the satellite 1 I Note. A remote range and control system is connected to the satellite control system 1 1 and W communicates with the satellite to share the control signal α with the data processing signal 1 | The satellite control system provides the satellite and 1 I a mission control system connection In the satellite control system and the broadcasting station t 1 1 I, the mission control system is used to allocate and select broadcast channels to the service provider t it 1 1 -Q-This paper size is applicable to the Chinese National Standard (CNS) 8 4 specifications (210X297 (Mm) 9 6. The scope of the patent application hopes to transmit at least one set of programs via satellite, and store the channel data related to the task of the broadcast channel and provide the channel data to the designated broadcast channel. The task control system provides The service provider is prepared to provide many options: including the reserved broadcast channel for uplink transmission, the time and date of the day when the reserved broadcast channel is used; the number of satellite-related beams for the time division multiplexed transmission signal for downlink transmission , The The traffic control system can be used to indicate to the satellite control system that those time-division multiplexed signals in the beam are used and the satellite control system generates relevant data processing signals for aligning the program to selected beams. Go. 31. The system according to item 30 of the scope of patent application, which involves broadcasting channels corresponding to frequency positions in a predetermined radio frequency spectrum, and the task control system may prepare a program to allocate some of the broadcasting channels. Adjacent channels are given to one of these service providers. 32. For example, the system of item 31 of the patent application, wherein the task control system can perform a re-segmentation process by reassigning service providers to different broadcast channels to optimize the use of satellite uplinks. Spectrum. Printed by the Consumers' Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs (please read the notes on the back before filling out this page) 3 3. If you apply for the system of item 30 of the scope of patent application, it also includes a system related to the task control system. Linked channel service monitor. The task control system can verify that the program has sufficient signal strength and a low bit error rate by sending the program. The benefits of using the channel service monitoring are better than the service provider. Expenses on the bill. 34. If the system of the 30th scope of the patent application is applied, it further includes a broadcasting control center, which is used to supervise and control the broadcasting station. Keeping the broadcasting station. The paper size is applicable to the Chinese National Standard (CNS) A4 specification (210X297). Mm), Λ A8 B8 C8 D8 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs 6. The scope of the patent application 1 1 I keeps it at the previously set carrier nsi. Frequency allocation &antenna; 1 1 | Power level Within the limits of antenna orientation 0 1 I 35. If the scope of patent application No. 30 of the system is still in progress--Steps include-a 1 1 闳 j is used to supervise and control the broadcast control center of the station »It instructs the broadcasting station to stop using the broadcast by reading the back of the channel. Note I -1 of channel 0 means 1 I 36. If the system of patent application No. 30 is relocated, the steps include- 1 1 XX Supervises and controls the broadcast control center of this broadcast station 9 It can fill out 1 book by operating and send a command to at least one broadcast station asking it to reduce the power consumption of this broadcast station page ----- 1 | 0 1 1 37-A management system for managing satellites and a fixed number of 1 1 systems. It can generate programs to be transmitted to the radio receiver at vsta m by satellite. 1 The subscription system includes 1 I a Satellite control system It is configured to generate a control signal 9 for controlling the operation of a 1 1 I satellite. The satellite is configured to include frequency-separated, multi-access and 1-channel uplink signals and generate at least two time-division multiple channels. Downlink signal transmitted ▲ * Each '~ * message contains multiple time slots. The broadcast station can operate by modulating 1 This program becomes an initial rate increase The amount is used to transmit the satellite on the selected frequency division multiple access channel 1 I, and taS m will be further configured to be able to arrange the initial rate increment | The route will arrange the initial rate increment to the selected according to the control signal Time 1 t t 1 1 A mission control system is connected to the satellite control system and the broadcasting station 1 1) The mission control system specifies a number of divisional frequencies by operating 1 I access channels to those Services that wish to transmit this initial rate increase via satellite 1 1 I Donor > and specify at least __. This time-division multiple signal is used for this initial rate increase 1 1 This paper size applies Chinese National Standard (CNS) A4 specification (210 X 297 mm) 11 Printed by the Consumer Cooperatives of the Central Bureau of Standards of the Ministry of Economic Affairs VI. Application for patents 1 1 I Downlink transmission to store the divided frequency multiple access channels Assign the relevant 1 1 | channel data in time to the multiplexed signal and provide it to the satellite control system '—, 1 I This channel data is used to generate the control signal CT account m 9 and please read 1 1 first | at least one satellite The control system is used to generate a control signal t Η and at least one M. range and control system. Connected to the satellite control center and note 1 | configured to communicate with the satellite so that it can be controlled from the satellite The fist obtained by the system 1 I then ¥ control signal feedback to the satellite 0 ♦ Version A 38. For example, in the system of patent application No. 37, where the mission control page > — 1 I system programmable to The frequency-divided multiple access channels are discontinuously transmitted to the service provider.道 中 〇I 1 39. If the system of the scope of patent application No. 37 is applied, the system can be enabled by M 1 subscription through operation to confirm that the time-division multiplexed signal has successfully transmitted the 1 I initial rate incrementally. And give priority to other service providers to provide orders. 1 1 I 40. If the system of item 37 in the scope of patent application is applied, the main control system 1 1 can be operated through frequency division multiplexing channels for the service provider to use in a regular and temporary manner and One month is used by the service provider as a benchmark. One of them is 〇1 I 41. For example, the system in the 37th scope of the patent application, where the main control system U * 1 1 I system can be operated in pairs of frequency division Some channels are selected from the multiple transmission channels. 1¾ Services Ί The provider provides essentially fixed Λ exclusive services 0 1 1 42. If the system of the 37th scope of the patent application is applied, it also includes-1 stations with broadcasting Connected broadcast control system 0 The system is operable to monitor broadcasts. Make sure that the broadcast station is performing within a predetermined limit. The connection to the broadcast station 1 1 I requires at least one frequency Λ power. And antenna direction Pre-confirmed 1 1 This paper size applies the Chinese National Standard (CNS) A4 specification (210X297 mm) -12- Printed by the Staff Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs This paper size applies the Chinese National Standard (CNS) A4 specification (210 × 297 mm) ) D8 6. Work within the limits set by the scope of patent application. 43. The system of item 37 of the scope of patent application, further including a broadcasting control system connected to a broadcasting station, and the system is operable to supervise the broadcasting station and determine whether the broadcasting station is in a predetermined Work within limits; and can generate and transmit a command to the broadcast station to reduce its power consumption. .44. A device for switching symbols in a data stream for time-division multiplexed communication in a parallel broadcast channel, comprising: a first and a second reciprocating working buffer, the first reciprocating working buffer configured to The first batch of most symbols that can be stored in the parallel broadcast channel; the second transponder for the reversion conversion is configured to be able to store the second batch of most symbols that are stored in the parallel broadcast channel, in the parallel broadcast channel Most of the second batch of symbols reach the second reciprocating work buffer before the first batch of most symbols reach the first reciprocating work buffer; a switch that arranges the route, connected to the first and the first Two back-and-forth switching buffers are output; and the assembly language of the first frame is connected to the routing switch. This way alignment switch operates to control the contents of the second buffer to be written to the first frame assembler. 45. The device according to item 44 of the scope of patent application, further comprising a second frame assembler connected to the channel arrangement switch. The channel switch can be used to control the second reciprocating conversion work The contents of the device are written into the first frame assembler or the second frame assembler. -13-(Please read the precautions on the back before filling this page) Binding and ordering Open the way and install the items in it. 5 4th Fan Li specially invites the middle person who goes inside to rush the two slow sequence work, compile the exchange and transfer the frames to the two second and first sequence. Edit and control the incoming frame with one operation, one pass, one pass, one pass, and one that can accommodate mid-stream data. 'IIJ, a multi-minute line, and a two-way live bar. There are two items in the installation. 4 4 Wei Fanhe specifically requested that the application of the control system should be used for storage. It can be used for storage, can be operated, and can be used as a closing operation. It can be inserted into the M row to enter the device. For complex frames The first is to write the content * in ° -ΒΓ? 0 for Η slow to change cardioversion. Each goes to the first. The editor will revert to the item in the first 4 of the installation. 4 4 Fan Li specially applies for the time when the time is 1 to open at least to use as a pass. Slow work, change the number of the first letter, there is only one of the items in the second place, 4 4th, Fan Li specially requested to apply for such approval. The second pair is only 1 time. The degree makes Cheng Zuo's operation go through all the tools and only rushes to a small amount of work. The number is changed and the number of characters is changed. The multi-frame 1 is the item of the installation 4 4 The fan of the garden is specially invited. (Please read the precautions on the back before filling out this page)-Binding-Order printed by the Ministry of Economic Affairs, Central Standards Bureau, the Consumer Cooperatives, and then transfer to the second place: 3 Inserting energy can be as small as possible. The device saves frames as a symbol. It is clear that the internal M device will redefine the frame in the middle position to make a change, and the intermediate device will be redeployed. The second work will be included in the work reserve. The 5th item in the installation. Fan Li specially asked Shen Ru to insert one by one, insert 113 as little as can be used to pass through the sequence of the compilation of the frame 1st slot control to the slot phase of the symbol within the device-, when punching the gap The work 'in-house converter is transferred to Fuyuan to the second one, and it should be clearly stated in the table below that the table is used to make paper. The paper size is applicable to the Chinese National Standard (CNS) A4 specification (210 × 297 mm) 14 Printed by the Consumer Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs A8 > B8 C8 D8 6. The scope of patent application is for the parallel broadcast channels stored in the parallel broadcast channels. 52. The device according to item 44 of the scope of patent application, wherein the device is set in a satellite, and the arranging access switch is controlled by generating a control signal from a ground station and transmitting it to the satellite. 53. The device according to item 45 of the scope of patent application, wherein the second frame assembler can insert at least one frame bit into the buffer of the first reciprocating conversion operation by operation. The symbol is stored as a frame. In this first reciprocating buffer. 54. The device according to item 53 of the scope of patent application, wherein the frame contains time slots, and the second frame assembler can insert at least one bit K to indicate that the time slot control channel works in the first reciprocating conversion. This indicates that the time slot and the symbol in the buffer correspond to the corresponding symbol stored in the parallel broadcast channel. 5 5. —A satellite payload processing system for processing uplink signals including a plurality of "one channel per carrier" frequency-division multiple access carrier, including: a processor for a multi-phase multiplexer , Used to separate the time-division multiplexed data stream of the uplink signal into the symbol and propose that the symbol corresponds to the opposite symbol in the sequential uplink signal, and then send it to the exit of the processor of the multi-phase multiplexer in sequence. And a phase shift keying demodulator is associated with the output of the multi-phase multiplexer for demodulating the symbol stream into the corresponding time-division multiple digital baseband bit stream to 0 5 6. The satellite payload processing system with the scope of patent No. 55 further includes a differential decoder connected to a phase-shifted chain-control demodulator. When this paper size applies the Chinese National Standard (CNS) A4 specification (210X297 mm) _ r; _ (Please read the notes on the back before filling out this page). _ Order D8. 6. The time code coding is different when the patent application scope is the same. The serial number and the signal reply are restored. It's time to get connected Tune for solution, flow control, chain, run, move M, return Includes the installation accuracy of the satellite star < 1 kind of surface is installed with a clock timer to slow down. The second and the first one include a counterclockwise slow down;., Η close close change open open transfer The input and output of each input and output were reversed. The second letter, the second letter, and the last one received the first. The MW opened for the operation, and the output and the MW MW HKW were opened. Go to the root connector and rush, and slow down the root device hedger to buffer one by one. The receiver's shock rate in the bit is slow. Reunion from the upper symbol of Lianliu to the upper compound of the letter and number with the base letter ---- >-(Please read the precautions on the back before filling out this page) Order © · Central Bureau of Standards, Ministry of Economic Affairs When the employee consumer cooperative printed and stored and the customs clearance was unloaded, the same clock was used to make a real clock. Shi Chong's face was first installed in the second installation, and according to the first one, Slowly. The storage and output device of the second opening of the second pass can be flushed, the frame size of the first two is • the first and the second one is the first question and the standard semi-colon 'symbol with the correct base is in the first to second Test and check. One after the other matches are brought out of the base. Rush the pulse to continue the peak following the 111 MU straight, pass it to the middle of a pair of punches, and the pair of peaks of the peak to the pulse. Admission writing flow number This paper size applies to Chinese National Standard (CNS) A4 specification (210X297 mm) A8 B8 C8 D8 Printed by the Consumers' Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 6. The scope of patent application is up to 1 1 I. This input switch And the output switch is turned to inversion 0. First and 1 1 | The second buffer reads the uplink signal to the output 1 according to the clock rate installed on it. Please go to 1 1 闳 | a synchronous pulse oscillator Associated with the first and second correlators and can be read back. 1¾ operation is used to generate a smooth pulse for every 'symbol' read into the output. Note 1—the counter is in phase with the oscillator In order to calculate the lifting pulse, add and subtract a certain number of bits from the bit stream to the value of the counter according to the matter. Fill in this package. 60. If the satellite rate collimation device of the 5th item of the patent application, also includes a page_ ___ 1 I includes a receiver connected to the first buffer and the second buffer. * ΤΛ- The sign is misunderstood t 1 1 Its operation can know whether it is the first buffer or the second buffer. 1 1 Connected to this input switch to recover the signal from the uplink signal Λ * Pay No. 0 1 Order 6 1. For example, the satellite rate frequency collimation device of the scope of patent application No. 5 9 1 itttf m further includes a pay No. The time m is connected to the first buffer and the first 1 | two buffers and can be manipulated to make it -inr m theory is one of the first buffer 1 1 and the first 2 buffers. Can be connected to this output switch Stored in it 〇〇62-A method for calibrating the symbol rate of the uplink and the clock on the satellite includes the following steps: M 1 I * »* 1 1 | At the rate of receiving Λ-Λ * The number is stored in the buffer '! ArA * inserted into the title with the specified word comparison. The paid number Λ-Λτ The paid number has been stored in the 1 1 buffer. When the title is inserted, a corrected pulse spike 9 1 is generated. I Calculate the relevant pulses on the ΛτΛ- payment clock mounted on it: 1 I clock ticks and 1 1 generated by the spikes; adjust the length of the header in the buffer M to compensate the received symbol rate and the device 1 1 This paper size applies to China National Standard (CNS) A4 specifications (210X 297 mm). 17 VI. The surface of the rate symbol in the patent application range is A8 B8 C8 D8 (please read the precautions on the back first) (Fill in this page) This cooperative printed paper scale applicable Chinese National Standard (CNS) A4 size (210X 2SI7 mm)