CN103124207A - Wireless communication system and device - Google Patents
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Abstract
The invention discloses a wireless communication system, a network device and a terminal device. The network device is used for dynamically configuring the structure and the length of a current communication frame and transmitting frame structure configuration information in the current communication frame, and the terminal device is used for acquiring the structure and the length of the current communication frame according to the frame structure configuration information of the current communication frame. By dynamically configuring the frame structure, different service features and requirements of future rich and varied data services are considered, the flexible variable frame structure simultaneously meeting link adaptation and service requirements is designed for adaptive dynamic resource allocation, and the requirements of devices with different processing capacities can be met. By dynamically configuring the frame length, and control overhead, scheduling overhead and implementation complexity can be reduced.
Description
The application requires the applying date to be that March 25, application number in 2011 are 201110074598.5, denomination of invention is the priority in first to file of " method of adjustment of demodulating in radio communication system pilot tone and system ", should all embody in this application at full content of first to file.
The application requires the applying date to be that March 31, application number in 2011 are 201110081193.4, denomination of invention is the priority in first to file of " a kind of wireless communications method, system and equipment ", should all embody in this application at full content of first to file.
It is on May 19th, 2011 that the application requires the applying date, and application number is 201110130194.3, and denomination of invention is the priority in first to file of " a kind of communication system ", should all embody in this application at the full content of first to file.
The application requires the applying date to be that January 16, application number in 2012 are 201210011924.2, denomination of invention is the priority in first to file of " wireless communications method and device ", should all embody in this application at full content of first to file.
The application requires the applying date to be that February 16, application number in 2012 are 201210035552.7, denomination of invention is the priority in first to file of " wireless communications method and device ", should all embody in this application at full content of first to file.
The application requires the applying date to be that February 21, application number in 2012 are 201210041655.4, denomination of invention is the priority in first to file of " wireless communication system and be used for the device of radio communication ", should all embody in this application at the full content of first to file.
The application requires the applying date to be that February 21, application number in 2012 are 201210041650.1, denomination of invention is the priority in first to file of " device that is used for radio communication ", should all embody in this application at full content of first to file.
The application requires the applying date to be that February 21, application number in 2012 are 201210041651.6, denomination of invention is the priority in first to file of " device that is used for radio communication ", should all embody in this application at full content of first to file.
Technical field
The invention belongs to wireless communication field, relate in particular to wireless communication system and equipment.
Background technology
In recent years, the wireless communication system that is applied to short-and-medium communication distance have wireless local area network technology WiFi based on 802.11 standards, bluetooth (Bluetooth) system based on 802.15 and by mobile communication system derivative and come towards Femto technology of indoor application etc.
WiFi technology based on 802.11 is the current the widest a kind of wireless network transmission technology of using.Because the WiFi system has adopted carrier sense/conflict to avoid (CSMA/CA, Carrier Sense Multiple Access with Collision Avoidance) mechanism, system effectiveness is lower, and is larger to waste of radio resources.The basic reason that causes this problem is that CSMA/CA mechanism is a kind of random division multiple accessing access mechanism based on competition, access point (AP, Access Point) and website (STA, Station), perhaps between different STA, can by the right to use of CSMA/CA mechanism competition Radio Resource, compete simultaneously wireless channel, just bump this moment, causes the waste of Radio Resource.For fear of collision, have CSMA/CA mechanism and require AP or STA to need random back when the competition wireless channel, when all AP and STA keep out of the way, though wireless channel is available free, be not used, this is also the significant wastage to wireless channel.For above-mentioned reasons, 802.11 system effectivenesies are lower.For example: 802.11g system physical layer peak rate can reach 54Mbps, but transmission control protocol (TCP, Transmission Control Protocol) layer under large packet downloading service achievable rate not higher than 30Mbps, under the small data packets business, because the expense ratio increases, but peaking speed is lower.Although there is above-mentioned shortcoming, 802.11 systems are flexible, do not rely on centralized control mechanism, therefore also can realize lower equipment cost.
Femto technology based on the 3GPP standard is from mobile communication system evolution and the new technology that covers in a kind of faced chamber that comes.Based on the data statistics to the 3G system, about 70% data service all occurs in indoor, so indoor high-speed rate data access scheme is just particularly important.The Femto base station is called femto base station, and volume small and exquisite (approximate with Wi-Fi) is disposed flexibly.Owing to coming from mobile communication system evolution, Femto has almost inherited the base station all characteristics of mobile communication system.Femto equipment is just in conjunction with its limited coverage, and the less application scenarios features such as access user reduce the device processes ability, and then reduces equipment cost.Consider from duplex mode, identical with mobile communication system, the Femto base station can be divided into Frequency Division Duplexing (FDD) (FDD, Frenqucy Division Duplexing) and time division duplex (TDD, Time Division Duplexing) two classes duplex mechanism.FDD up-downgoing carrier resource is symmetrical, and there is certain wasting of resources when making the FDD system in the face of data service in the asymmetrical service feature of data service up-downgoing data traffic.TDD system uplink downlink is operated on same carrier wave, is that uplink downlink distributes different Radio Resources by the time division resource, therefore can the asymmetrical data service of better adaptive up-downgoing business demand than FDD.Yet, the TDD duplex mode of mobile communication system (comprise Femto system), up-downgoing resource static allocation, in the face of the different Various types of data business of demand, for example: browsing page, mobile video, moving game, machine is difficult to realize the dynamic adaptation of business demand and resource division to machine (M2M, machine-to-machine) etc.Compare with Wi-Fi, because Femto has adopted based on the centralized control mechanism of dispatching, between base station or AP and terminal, perhaps do not exist between terminal due to the waste of radio resources that competition conflicts and random back causes, so link efficiency is higher.
Although the Femto system is also by being scheduling to uplink and downlink communication, be different terminal distribution Radio Resources, but the frame structure of its static configuration can not mate the Radio Resource of up-downgoing flexible allocation, can not change with less granularity self adaptation business, when business and resource distribution when unbalance or can cause and queue up when long, the user experiences reduction, perhaps can cause the channel capacity waste.
Summary of the invention
In view of this, technical problem to be solved by this invention is to provide wireless communication system and equipment, thereby realize and the service based demand dynamically to divide the up-downgoing wireless transmission resources, preferably the following abundant species of dynamic adaptation and the different data traffic requirement of feature.
For there is a basic understanding some aspects to the embodiment that discloses, the below has provided simple summary.This summary part is not to comment general, neither determine the key/critical component or describe the protection range of these embodiment.Its sole purpose is to present some concepts with simple form, with this preamble as following detailed description.
Technical scheme of the present invention is achieved in that
A kind of wireless communication system comprises the network equipment and at least one terminal equipment, wherein:
The described network equipment, the structure of the current communication frame of dynamic-configuration and frame length, the frame structure configuration information of the current communication frame of transmission in current communication frame;
Described terminal equipment by detecting the frame structure configuration information of current communication frame, is determined structure and the frame length of current communication frame.
A kind of network equipment comprises:
Dispensing unit, the structure of the current communication frame of dynamic-configuration and frame length;
Transmitting element, the frame structure configuration information of the current communication frame of transmission in current communication frame.
Optionally, comprise at least descending sub frame in current communication frame.
Optionally, comprise at least targeting sequencing and system information channel in described descending sub frame.
Optionally, described transmitting element sends the frame structure configuration information of current communication frame in described system information channel.
Optionally, described transmitting element also sends the frame length configuration information of current communication frame in system information channel.
Optionally, also comprise in described descending sub frame as at least one in lower channel:
Descending transmission channel is used for transmission downlink business and/or descending control signaling and/or feedback;
Descending sounding channel is used for measurement and the estimation of down channel quality and/or state.
Optionally, described descending sounding channel is positioned at the centre of described descending transmission channel.
Optionally, also comprise sub-frame of uplink in the structure of described current communication frame.
Optionally, also has the protection interval between described descending sub frame and described sub-frame of uplink.
Optionally, described sub-frame of uplink comprises as at least one in lower channel:
Uplink transport channel is used for transmission uplink service and/or up signaling and/or feedback;
The uplink detection channel is used for uplink signal-channel quality and/or state measurement and estimation;
The uplink scheduling request channel is used for terminal equipment and triggers uplink scheduling request or signaling feedback;
Uplink random access channel is used for transmitting up access signaling or signaling feedback.
Optionally, also comprise control channel in described descending sub frame, be used to indicate distribution and the scheduling of transfer resource and take the transformat of the channel of transfer resource.
Optionally, described system information channel and described control channel are by a kind of mode or compound mode multiplexed resource in time division multiplexing, frequency division multiplexing, code division multiple access.
Optionally, described transmitting element sends the frame structure configuration information of a part of current communication frame in described system information channel, wherein comprises at least the duration of described control channel, sends the frame structure configuration information of the current communication frame of another part at described control channel.
Optionally, after described dispensing unit gets schedule information, determine the transfer resource of scheduling according to schedule information, structure and the frame length of the current communication frame of the transfer resource coupling of dynamic-configuration and scheduling.
Optionally, described transmitting element sends the frame structure configuration information of current communication frame by at least one channel of current communication frame.
Optionally, described transmitting element also sends the frame length configuration information of current communication frame by at least one channel of current communication frame.
Optionally, this equipment also comprises:
Communication unit by the channel of selectivity configuration in current communication frame, is communicated by letter with terminal equipment.
Optionally, during described communication unit executable operations, comprise and carry out one or more in following operation:
Channel by at least one selectivity configuration in current communication frame sends distribution and the scheduling of indication transfer resource and takies the information of transformat of the channel of transfer resource;
Channel by at least one selectivity configuration in current communication frame sends downlink service data and/or control signal and/or feedback;
Channel by at least one selectivity configuration in current communication frame sends sequence, and this sequence is used for quality and/or the state measurement of down channel;
Channel by at least one selectivity configuration in current communication frame receives uplink business data and/or up signaling and/or feedback information;
By the channel receiving sequence of at least one selectivity configuration in current communication frame, this sequence is used for quality and/or the state measurement of up channel;
Channel by at least one selectivity configuration in current communication frame receives uplink scheduling request information and/or feedback information;
Channel by at least one selectivity configuration in current communication frame receives initial access channel information.
A kind of terminal equipment comprises:
Receiving element, the frame structure configuration information of the current communication frame of reception;
Detecting unit by detecting the frame structure configuration information of present frame, is learnt structure and the frame length of current communication frame.
Optionally, comprise at least descending sub frame in current communication frame.
Optionally, comprise at least targeting sequencing and system information channel in described descending sub frame.
Optionally, described receiving element receives the frame structure configuration information of current communication frame in described system information channel.
Optionally, described receiving element also receives the frame length configuration information of current communication frame in system information channel.
Optionally, also comprise in described descending sub frame as at least one in lower channel:
Descending transmission channel is used for transmission downlink business and/or descending control signaling and/or feedback;
Descending sounding channel is used for measurement and the estimation of down channel quality/state.
Optionally, described descending sounding channel is positioned at the centre of described descending transmission channel.
Optionally, also comprise sub-frame of uplink in the structure of described current communication frame.
Optionally, also has the protection interval between described descending sub frame and described sub-frame of uplink.
Optionally, described sub-frame of uplink comprises as at least one in lower channel:
Uplink transport channel is used for transmission uplink service and/or up signaling and/or feedback;
The uplink detection channel is used for uplink signal-channel quality/state measurement and estimation;
The uplink scheduling request channel is used for described terminal equipment and triggers uplink scheduling request or signaling feedback;
Uplink random access channel is used for transmitting up access signaling or signaling feedback.
Optionally, described uplink scheduling request channel, described uplink random access channel and described uplink transport channel are passed through a kind of mode or the compound mode multiplexed resource in time division multiplexing, frequency division multiplexing, code division multiple access.
Optionally, also comprise control channel in described descending sub frame, be used to indicate distribution and the scheduling of transfer resource and take the transformat of the channel of transfer resource.
Optionally, described receiving element receives the frame structure configuration information of a part of current communication frame in described system information channel, wherein comprises at least the duration of described control channel, receives the frame structure configuration information of the current communication frame of another part at described control channel.
Optionally, this equipment also comprises:
Computing unit, the structure of the current communication frame of determining according to described detecting unit is calculated the frame length of current communication frame.
Optionally, described receiving element receives the frame structure configuration information of current communication frame by at least one channel of current communication frame.
Optionally, described receiving element also receives the frame length configuration information of current communication frame by at least one channel of current communication frame.
Optionally, this equipment also comprises:
Communication unit by the channel of at least one selectivity configuration in current communication frame, is communicated by letter with the network equipment.
Optionally, when described communication unit is communicated by letter with the network equipment, carry out one or more in following operation:
Channel by at least one selectivity configuration in current communication frame receives distribution and the scheduling of indication transfer resource and takies the information of transformat of the channel of transfer resource;
Channel by at least one selectivity configuration in current communication frame receives when downlink service data and/or descending control signaling and/or feedback;
By the channel receiving sequence of at least one selectivity configuration in current communication frame, this sequence is used for quality and/or the state measurement of down channel;
Channel by at least one selectivity configuration in current communication frame sends uplink business data, up signaling and/or feedback information;
Channel by at least one selectivity configuration in current communication frame sends sequence, and this sequence is used for quality and/or the state measurement of up channel;
Channel by at least one selectivity configuration in current communication frame sends uplink scheduling request information and/or feedback information;
Channel by at least one selectivity configuration in current communication frame sends initial access channel information.
By adopting scheme proposed by the invention, can realize following functions:
1, by base station or CAP centralized dispatching terminal or the STA related with it, be different terminals or STA distributing radio resource, the waste of radio resources of having avoided competition mechanism to bring;
2, can realize dynamic tdd frame length and frame structure configuration, the resource proportional arrangement of up-downgoing flexibly, improved system effectiveness and saved control overhead and scheduling overhead for indoor scene, the service based demand is dynamically divided the up-downgoing Radio Resource, demand is transmitted in the following abundant species of dynamic adaptation and the different data service up-downgoing of feature preferably, there is no the constraint of fixing frame length or frame duration, the frame structure flexibility and changeability has also reduced the complexity that realizes simultaneously;
3, can be take less granularity as the user and the uplink and downlink communication distributing radio resource, resource distributes preferably that self-adapted service changes, and the Radio Resource that distributes for different user and uplink and downlink communication is adaptation service demand and transmission condition preferably;
4, larger service rate changes in demand that not only can adaptive different terminals, and the dynamic change of adaptive wireless channel preferably.The present invention is the dynamic change of adaptive various data traffic requirement better, with channel capacity and business demand Dynamic Matching, can obtain better system effectiveness.For the different wireless communication scene, self adaptation is adjusted frame structure, optimization system expense.Can weigh business demand and channel characteristics, dynamically divide the uplink downlink resource, under the condition of considering link circuit self-adapting, be different terminals dynamic assignment Radio Resource;
5, except above-mentioned feature, the present invention considers that also information feedback postpones, and different brackets equipment is to the demand in processing time etc.Above-mentioned consideration can both improve system effectiveness and performance;
6, can realize this frame feedback, reduce the feedback delay of multi-user's multiple-input, multiple-output (MU-MIMO);
7, can realize this frame scheduling, reduce the dispatch delay of business.
For above-mentioned and relevant purpose, one or more embodiment comprise the feature that the back will describe in detail and particularly point out in the claims.Below explanation and accompanying drawing describe some illustrative aspects in detail, and its indication is only some modes in the utilizable variety of way of principle of each embodiment.Other benefit and novel features will consider by reference to the accompanying drawings and become obviously along with following detailed description, and the disclosed embodiments are to comprise being equal to of all these aspects and they.
Figure of description
Fig. 1 is the schematic diagram of the frame structure that provides of the embodiment of the present invention one;
Fig. 2 is the schematic diagram of the frame structure that provides of the embodiment of the present invention two;
Fig. 3 is the schematic diagram of the frame structure that provides of the embodiment of the present invention three;
Fig. 4 is the schematic diagram of the frame structure that provides of the embodiment of the present invention four;
Fig. 5 is the schematic diagram of the frame structure that provides of the embodiment of the present invention five;
Fig. 6 is the schematic diagram of the frame structure that provides of the embodiment of the present invention six;
Fig. 7 is the schematic diagram of the frame structure that provides of the embodiment of the present invention seven;
Fig. 8 is that the schematic diagram of protection interval setting is received and dispatched in the up-downgoing that the embodiment of the present invention eight provides;
Fig. 9 is the schematic diagram of the frame structure that provides of the embodiment of the present invention nine;
Figure 10 is the schematic diagram of the frame structure that provides of the embodiment of the present invention ten;
Figure 11 is the schematic diagram of the frame structure that provides of the embodiment of the present invention 11;
Figure 12 is the schematic diagram of the frame structure of the up-downgoing scheduled transmission process that provides of the embodiment of the present invention 12;
Figure 13 is the structural representation of wireless communication system provided by the invention;
Figure 14 is the structural representation of the network equipment provided by the invention;
Figure 15 is the structural representation of terminal equipment provided by the invention.
Embodiment
The following description and drawings illustrate specific embodiments of the present invention fully, to enable those skilled in the art to put into practice them.Other embodiments can comprise structure, logic, electric, process and other change.Embodiment only represents possible variation.Unless explicitly call for, otherwise independent assembly and function are optional, and the order of operation can change.The part of some embodiments and feature can be included in or replace part and the feature of other embodiments.The scope of embodiment of the present invention comprises the gamut of claims, and all obtainable equivalents of claims.In this article, these embodiments of the present invention can be represented with term " invention " individually or always, this is only for convenient, surpasses the invention of and if in fact disclose, and is not that the scope that will automatically limit this application is any single invention or inventive concept.
Core of the present invention is: structure and the frame length of the current communication frame of network equipment dynamic-configuration, and send the frame structure configuration information of current communication frame in current communication frame, terminal equipment is learnt structure and the frame length of current communication frame by detecting the frame structure configuration information.
The implication of said structure comprises: in communication frame, each channel has or not and duration.
Adopt the present invention, can avoid competing the waste of radio resources that conflict or random back cause.(comprising: LTE with traditional mobile communication system, the next generation mobile communication systems such as WiMax) difference, the present invention is by the dynamic-configuration frame structure, make the frame structure flexibility and changeability, can realize that the service based demand dynamically divides the up-downgoing Radio Resource, preferably the different data service up-downgoing transmission demand of the following abundant species of dynamic adaptation and feature.Simultaneously, this system can provide very little resource granularity, larger service rate changes in demand that not only can adaptive different terminal equipment, and the dynamic change of adaptive wireless channel preferably.The present invention can not only reduce control overhead and scheduling overhead for indoor application by the dynamic-configuration frame length, also can satisfy outdoor fast-changing requirement, can also reduce the complexity of realization simultaneously.The summary speech, the present invention can weigh business demand and channel characteristics, dynamically divides the uplink downlink resource, under the condition of considering link circuit self-adapting, is different terminal equipment dynamic assignment Radio Resource.
The network equipment of mentioning in the present invention not only is confined to CAP, may be also base station or other network equipments, and terminal equipment also not only is confined to STA, may be also terminal or other-end equipment.
Communication frame in the present invention be with the TDD duplex mode (on a certain fixed carrier, the network equipment and terminal equipment are changed timesharing by transmitting-receiving and are completed reception and emission) for basic, each communication frame comprises descending (DL, Downlink, from the network equipment to the terminal equipment direction) transmission and up (UL, Uplink, from terminal equipment to network equipment direction) two parts of transmission, but the configuration of the duration capable of dynamic of downlink transfer and uplink, and then the also capable of dynamic variation of the frame length of each communication frame.The network equipment can be indicated by following two kinds of methods the structure of each communication frame or structure and frame length.
First method: indicate frame structure by system information channel.
The network equipment transmits system's basic configuration information and the frame structure configuration information of present frame by system information channel.
The said system basic configuration information comprises band configurations, antenna configuration, frame number etc.
Above-mentioned frame structure configuration information can comprise following several: the duration of each channel or local channel in this frame; The configuration of each channel or local channel in this frame.Wherein the duration of channel can be realized with many bits (bit), when the duration of channel is zero, does not comprise this channel in implicit indication communication frame.The configuration of channel comprises existence, position and the existence of channel and one or more in duration.Wherein the existence of channel can realize with 1bit, the having or not of indicating channel, can be used for the fixing channel of some durations, and when in the indication communication frame, certain channel being arranged, the duration of indirectly knowing this channel is fixing duration; The existence of channel and duration can realize with many bit, and both the having or not of indicating channel, the also duration of indicating channel, can be used for the revocable channel of some durations.
For a specific example, can comprise in frame structure configuration information of the present invention: control channel duration, descending transmission channel duration, the configuration of descending sounding channel, uplink detection channel configuration, uplink scheduling request channel configuration, uplink transport channel duration and uplink random access channel configuration.
All terminal equipments related with the network equipment obtain the frame structure configuration information by the detection system information channel, thereby determine this frame structure, further can be according to the frame length of this frame structure calculating book frame, and for example with the duration addition of various piece in this frame structure.
Optionally, the network equipment can also send the frame length configuration information in system information channel, and all terminal equipments related with the network equipment obtain the frame length configuration information by the detection system information channel, directly obtain the frame length of this frame, does not need to calculate.
Second method: by system information channel and control channel joint instructions frame structure.
The network equipment is by the frame structure configuration information of system information channel and control channel joint transmission present frame.
All terminal equipments related with the network equipment obtain the frame structure configuration information by detection system information channel and control channel, thereby determine this frame structure, further can be according to the frame length of this frame structure calculating book frame.
Optionally, the network equipment can also send the frame length configuration information by system information channel, perhaps unite transmission frame length indication information by system information channel and control channel, all terminal equipments related with the network equipment can directly be determined the frame length of this frame by the frame length configuration information.
The below illustrates respectively the frame structure of different configurations as an example of several embodiment example.
Each frame comprises descending sub frame at least, also may comprise sub-frame of uplink, descending sub frame is divided different channels with sub-frame of uplink according to function, and each channel is divided different fields according to function.Have the protection interval between descending sub frame and sub-frame of uplink, be used for the network equipment and complete transmission duplex with terminal equipment and change and other function.
Embodiment one
Fig. 1 is the schematic diagram of the frame structure that provides of the embodiment of the present invention one.
As shown in Figure 1, abscissa represents the time, and ordinate represents frequency, and this frame includes only descending sub frame and protects the interval.At least comprise targeting sequencing and system information channel in descending sub frame.The duration of targeting sequencing and system information channel is for presetting, need not the network equipment at the frame structure indication information indicating, therefore the frame structure indication information in the present embodiment, indication be in communication frame except targeting sequencing and system information channel other channels have that it's too late configures.
Targeting sequencing (Preamble) can be divided into short training sequence and long training sequence.Wherein, short training sequence is used for frame detection, automatic gain control, coarse frequency is synchronous or thick sign synchronization, and long training sequence is used for smart Frequency Synchronization, smart sign synchronization or channel estimating etc.
System information channel is used for transmitting system basic configuration information and frame structure configuration information.System information channel can also be further used for sending the frame length configuration information.
The network equipment is at system information channel broadcast frame structure configuration information.
All terminal equipments related with the network equipment by the frame structure configuration information, can determine to include only in current communication frame targeting sequencing and system information channel.
When the network equipment sends the frame length configuration information, all terminal equipments related with the network equipment are directly learnt the frame length of current communication frame, when the network equipment did not send the frame length configuration information, all terminal equipments related with the network equipment went out the frame length of current communication frame according to the Structure Calculation of current communication frame.
Embodiment two
Fig. 2 is the schematic diagram of the frame structure that provides of the embodiment of the present invention two.
As shown in Figure 2, the basic ascending-descending subframes at Fig. 1 also may comprise control channel and descending transmission channel.
Control channel, the transformat that is used for sending distribution and the scheduling of transfer resource and takies the channel of transfer resource.Concrete, according to application scenarios, control channel can the indicating downlink transmission channel, one or several the distribution of transfer resource and the scheduling, and the transformat of these channels in descending sounding channel, uplink transport channel, uplink detection channel, uplink scheduling request channel and uplink random access channel.
Descending transmission channel is used for the network equipment and transmits downlink business and/or descending control signaling and/or feedback information to terminal equipment.The feedback that the feedback here can pointer be carried out uplink service.
Carry out downlink business scheduled transmission and/or downlink signaling scheduled transmission and/or feedback transmission in descending transmission channel.
Each terminal equipment can pass through the time-division, and frequency division, code divide, sky divides or the downlink transfer resource is shared in the combination of above-mentioned multiplex mode.
Embodiment three
Fig. 3 is the schematic diagram of the frame structure that provides of the embodiment of the present invention three.
As shown in Figure 3, also may comprise sub-frame of uplink on the basis of Fig. 2, sub-frame of uplink comprises uplink transport channel.
Uplink transport channel is used for terminal equipment and transmits uplink business data and/or up signaling and/or feedback information to the network equipment.The feedback here can comprise the feedback for downlink business, can also comprise the feedback to descending channel quality information (CQI) and/or descending channel condition information (CSI).
Carry out uplink service scheduled transmission and/or the transmission of up signaling scheduling and/or uplink feedback scheduled transmission in uplink transport channel.
Each terminal equipment can pass through the time-division, and frequency division, code divide, sky divides or uplink transmission resource is shared in the combination of above-mentioned multiplex mode.
Particularly, in frame structure, can be by use bit (bit) position indication frame structure in system information channel.Be exemplified below:
In system information channel, with 6bits indicator control channel duration, this 6bits maximum can be indicated 63 OFDM symbols, resource smallest allocation unit: 1 OFDM symbol.For example: if this 6bits is 010000, being converted to decimal number is 16, corresponding 16 OFDM symbols.
In system information channel, with 9bits indicating downlink transmission channel duration, maximum 511 OFDM symbols.For example: if this 9bit is 100000000, being converted to decimal number is 256, corresponding 256 OFDM symbols.
In system information channel, with 9bits indication uplink transport channel duration, maximum 511 OFDM symbols.
In system information channel, can protect interval, totally 1 OFDM symbol with the 1bit indication.Perhaps system information channel is not indicated and is protected the interval, but system configures.
The method that control channel indicating downlink transmission channel or uplink transport channel resource are distributed is exemplified below:
At control channel, indicate certain STA in the original position of descending transmission channel with Nbit respectively, then with Nbit indicate this STA behind this position continuously what bit are resources for its distribution.For example: N=9, control channel is indicated original position to STA, and 000010000, being converted to decimal number is 16, represents that this STA original position is the 16th OFDM symbol.Resource size is 000100000, and being converted to decimal number is 32, (comprises this symbol) after representing this symbol, and continuous 32 symbols are all distributed to this STA.At control channel, indicate certain STA in the original position of uplink transport channel with Mbit respectively, then with Mbit indicate this STA behind this position continuously what bit are resources for its distribution.
Can also jointly indicate frame structure by system information channel and control channel, be exemplified below:
In system information channel, with 6bits indicator control channel duration;
In control channel, with 9bits indicating downlink transmission channel duration, with 9bits indication uplink transport channel duration.
Based on the embodiment three of Fig. 3, can each control channel or transmission channel be set with signaling and service detach in the up-downgoing transmission, and at the duration of system information channel indicating control channel and the duration of up-downgoing transmission channel.The network equipment is informed the terminal equipment control channel duration related with it, up-downgoing transmission channel duration and protection interval setting by system information channel.Each terminal equipment related with the network equipment can obtain control channel duration, descending transmission channel duration and uplink transport channel duration by the frame structure configuration information of detection system information channel.By targeting sequencing duration, system information channel duration, control channel duration, descending transmission channel duration, protection interval duration and uplink transport channel duration are carried out summation operation, determine the frame length of this frame.If perhaps the network equipment at the system information channel indicating frame length of this frame, terminal equipment directly obtains frame length, does not need to calculate.
Embodiment four
Fig. 4 is the schematic diagram of the frame structure that provides of the embodiment of the present invention four.
As shown in Figure 4, on the basis of Fig. 3, be provided with descending sounding channel at descending sub frame, descending sounding channel is used for down channel quality and/or state measurement and estimation.If the configuration of the duration of descending sounding channel, having or not with 1bit indicating downlink sounding channel in system information channel.As shown in Figure 4, descending sounding channel is positioned at the back of descending transmission channel.
Embodiment five
Fig. 5 is the schematic diagram of the frame structure that provides of the embodiment of the present invention five, and descending sounding channel is positioned at the centre of descending transmission channel.
In the MU-MIMO transmission plan, not only to the downlink channel condition information delay-sensitive, and multiuser MIMO can relate to larger signal and processes complexity due to descending MU-MIMO systematic function.Consider channel condition information and postpone, and hardware handles complexity that may be different under the different application scene, it is more reasonable that descending sounding channel is positioned at the centre of descending transmission channel.If descending sounding channel position is fixed, can be used in system information channel and have or not with 1bit indicating downlink sounding channel.If have terminal or the STA of different disposal ability in system, descending sounding channel position changeable.At this moment, not only need having or not of indicating downlink sounding channel in system information channel, also need two descending transmission channel durations in indicator diagram 5.Two descending transmission channel duration indications can be adopted following three kinds of methods:
The duration of difference indicating downlink transmission channel one and descending transmission channel two;
The duration of the difference total duration of indicating downlink transmission channel and descending transmission channel one;
The duration of the difference total duration of indicating downlink transmission channel and descending transmission channel two.
By the above-mentioned dynamic or semi-static descending sounding channel position of arranging, for the equipment of different disposal ability provides enough processing times.
Particularly, in frame structure, can be by use bit position indication frame structure in system information channel.Be exemplified below:
In system information channel, with 6bit indicator control channel duration, maximum 63 OFDM symbols; With the total duration of 9bits indicating downlink transmission channel, 511 OFDM symbols, with the duration of 7bits indicating downlink transmission channel two, 80 OFDM symbols; With 9bits indication uplink transport channel duration, maximum 511 OFDM symbols; With 2bits indicating downlink sounding channel configuration, indication respectively: without descending sounding channel, descending sounding channel position 1, descending sounding channel position 2 and descending sounding channel position 3, for mating different Sounding bandwidth.Descending sounding channel position 1,2,3 is all system definition allocations really; With 2bits indication uplink detection channel configuration, indicate respectively 0,1,2,4 OFDM symbol; With 2bits indication uplink scheduling request channel configuration, indicate respectively 1,2,3,4 OFDM symbol; With 1bit indication uplink random access channel configuration, indication has and without two kinds of situations respectively, if having, and 1 OFDM symbol only.
Perhaps can jointly indicate frame structure by system information channel and control channel, be exemplified below:
In system information channel, with 6bits indicator control channel duration; And at control channel, with the total duration of 9bits indicating downlink transmission channel, with the duration of 7bits indicating downlink transmission channel two, with 9bits indication uplink transport channel duration, with the configuration of 2bits indicating downlink sounding channel.
Each terminal equipment related with the network equipment is by the frame structure configuration of detection system system information channel; can obtain control channel duration, descending transmission channel one duration, descending sounding channel duration, descending transmission channel two durations, protect the interval duration; and by targeting sequencing duration, system information channel duration, control channel duration, descending transmission channel one duration, descending sounding channel duration, descending transmission channel two durations, protection interval duration, uplink transport channel duration are carried out summation operation, obtain the frame length of this frame.If perhaps the network equipment at the system information channel indicating frame length of this frame, terminal equipment directly obtains the frame length of this frame.
Embodiment six
Fig. 6 is the schematic diagram of the frame structure that provides of the embodiment of the present invention six.
In sub-frame of uplink, some auxiliary channels can be set, for example: be provided with one or more in uplink detection channel, uplink scheduling request channel or uplink random access channel at sub-frame of uplink.Wherein, the uplink detection channel is used for quality and/or state measurement and the estimation of up channel; The uplink scheduling request channel is used for terminal equipment and triggers uplink scheduling request or up rapid feedback; Uplink random access channel is used for terminal equipment and initially accesses, or the terminal equipment dispatch request.Can indicate respectively the configuration of uplink detection channel, uplink scheduling request channel and uplink random access channel in system information channel.If above-mentioned auxiliary channel have fixing physical layer channel form (for example: take 1 or several symbol duration), only need to indicate respectively with 1bit the configuration of some channels wherein in system information channel, for example: uplink random access channel, indicate with 1bit in system information channel, if this bit position is 0 o'clock, illustrating does not have the collocating uplink Random Access Channel, if this bit position is 1 o'clock, illustrate to have configured uplink random access channel, only indicate 1 OFDM symbol.If above-mentioned auxiliary channel does not have fixing physical layer channel form, can use 2bits to indicate its configuration, for example: the uplink detection channel, indicate with 2bits in system information channel, if value is 00, illustrate and there is no the collocating uplink sounding channel, be that the uplink detection channel is 0 OFDM symbol, if value is 01, illustrate that the uplink detection channel is 1 OFDM symbol, if value is 10, illustrate that the uplink detection channel is 2 OFDM symbols, if value is 11, illustrate that the uplink detection channel is 4 OFDM symbols.
Fig. 6 is only that the frame structure that three kinds of auxiliary channels all comprise is given an example, and in actual conditions, according to the difference of system applies scene or scheme, some auxiliary channel can not considered yet.
Particularly, in frame structure, can be by use bit position indication frame structure in system information channel.Be exemplified below:
In system information channel, with 6bit indicator control channel duration, maximum 63 OFDM symbols; With 9bits indicating downlink transmission channel duration, maximum 511 OFDM symbols; With 9bits indication uplink transport channel duration, maximum 511 OFDM symbols; With 2bits indication uplink detection channel configuration, indicate respectively 0,1,2,4 OFDM symbol; With 2bits indication uplink scheduling request channel configuration, indicate respectively 1,2,3,4 OFDM symbol; With 1bit indication uplink random access channel configuration, indication has and without two kinds of situations, when uplink random access channel is arranged, is fixed as 1 OFDM symbol respectively.
Perhaps can jointly indicate frame structure by system information channel and control channel, be exemplified below:
In system information channel, with 6bits indicator control channel duration, with 1bit indication uplink random access channel configuration; And in control channel, with 9bits indicating downlink transmission channel duration, with 9bits indication uplink transport channel duration, with 2bits indication uplink detection channel configuration, with 2bits indication uplink scheduling request channel configuration.
the frame structure configuration that each terminal equipment related with the network equipment is broadcasted by system information channel, can obtain the control channel duration, the descending transmission channel duration, the uplink transport channel duration, the uplink detection channel configuration, uplink scheduling request channel configuration and uplink random access channel configuration, and pass through the targeting sequencing duration, the system information channel duration, the control channel duration, the descending transmission channel duration, protection interval duration, uplink detection channel duration, uplink scheduling request channel duration, uplink transport channel duration and uplink random access channel duration carry out summation operation, obtain the frame length of this frame.If perhaps the network equipment at the system information channel indicating frame length of this frame, terminal equipment directly obtains the frame length of this frame, does not need to calculate.
Embodiment seven
Fig. 7 is the schematic diagram of the frame structure that provides of the embodiment of the present invention seven.
As shown in Figure 7, be to be provided with descending sounding channel in descending sub frame, and also be provided with giving an example of uplink detection channel, uplink scheduling request channel and uplink random access channel simultaneously in sub-frame of uplink.But in actual conditions, according to the difference of system applies scene or scheme, some auxiliary channel can not considered yet.
Embodiment eight
Fig. 8 is that the schematic diagram of protection interval setting is received and dispatched in the up-downgoing that the embodiment of the present invention eight provides.
The present invention need to reserve transmitting-receiving change-over time for the network equipment and terminal equipment.For example: when the network equipment and terminal equipment were changed from DL to UL, its radio-frequency channel just was converted to by emission or reception and receives or emission state; When the network equipment and terminal equipment were changed from UL to DL, its radio-frequency channel just was converted to emission or accepting state by receiving or launching.At Fig. 1 to the embodiment one to six shown in Figure 6; the protection interval that has only kept DL to UL conversion; and the protection interval of UL to DL conversion by base station or CAP by the emission advance reservation; that is: with the uplink time advance; protection interval for the network equipment and terminal equipment reservation UL to DL conversion; specifically as shown in Figure 8, come downwards to guard time sum that up protection interval GI should be not less than maximum DL to UL Yu the UL to DL of the network equipment and terminal equipment shown in Fig. 1 to Fig. 7 this moment certainly.
Except method to set up shown in Figure 8 (the timing advance method that mobile communication system is general), also can consider scheme shown in Figure 9, arrange respectively and protect the interval.
Embodiment nine
Fig. 9 is the schematic diagram of the system frame structure that provides of the embodiment of the present invention nine.
In embodiment nine; can be for going upward to descending and coming downwards to up descending protection interval, protection interval (DGI) and the up protection interval (UGI) that arranges respectively separately in system information channel; described descending protection is spaced apart and comes downwards to up transmitting-receiving protection interval, and described up protection is spaced apart and goes upward to descending transmitting-receiving protection interval.
Particularly, in frame structure, can be by use bit position indication frame structure in system information channel.Be exemplified below:
In system information channel, with 6bit indicator control channel duration, maximum 63 OFDM symbols; With the total duration of 9bits indicating downlink transmission channel, 511 OFDM symbols, with the duration of 7bits indicating downlink transmission channel two, 80 OFDM symbols; With 9bits indication uplink transport channel duration, maximum 511 OFDM symbols; Configure with 2bits indicating downlink sounding channel, indication respectively: without descending sounding channel, descending sounding channel position 1, descending sounding channel position 2 and descending sounding channel position 3, be used for mating different Sounding bandwidth (20MHz/40MHz/80MHz), descending sounding channel position 1,2,3 is all system definition allocations really; With 2bits indication uplink detection channel configuration, indicate respectively 0,1,2,4 OFDM symbol; With 2bits uplink scheduling request channel configuration, indicate respectively 1,2,3,4 OFDM symbol; With 1bit indication uplink random access channel configuration, indication has and without two kinds of situations respectively, if having, and 1 OFDM symbol only; With 1bit indicating downlink protection arranged spaced; With the up protection arranged spaced of 1bit indication.
Perhaps can jointly indicate frame structure by system information channel and control channel, be exemplified below:
In system information channel, with 6bits indicator control channel duration, with 2bits indication uplink scheduling request channel configuration; And at control channel; with the total duration of 9bits indicating downlink transmission channel; duration with 7bits indicating downlink transmission channel two; with 9bits indication uplink transport channel duration; with the configuration of 2bits indicating downlink sounding channel, with 2bits indication uplink detection channel configuration, with 1bit indication uplink random access channel configuration; with 1bit indicating downlink protection arranged spaced, with the up protection of 1bit indication interval UGI configuration.
each terminal equipment related with the network equipment is by the frame structure configuration of detection system information channel, can obtain the control channel duration of this frame, descending transmission channel one duration, descending sounding channel configuration, descending transmission channel two durations, descending protection arranged spaced, the uplink detection channel configuration, the uplink scheduling request channel configuration, the uplink transport channel duration, uplink random access channel configuration and up protection arranged spaced, and pass through the targeting sequencing duration, the system information channel duration, the control channel duration, descending transmission channel one duration, descending sounding channel duration, descending transmission channel one duration, descending protection interval duration, uplink detection channel duration, uplink scheduling request channel duration, the uplink transport channel duration, uplink random access channel duration and up protection interval duration carry out summation operation, obtain the frame length of this frame.If perhaps the network equipment at the system information channel indicating frame length of this frame, terminal equipment directly obtains the frame length of this frame, does not need to calculate.
In above-described embodiment one to nine, auxiliary channel and up-downgoing transmission channel have adopted time-multiplexed transmission means.According to the scene requirement, also can realize auxiliary channel and up-downgoing transmission channel frequency division or code division multiplexing, embodiment ten as shown in figure 10.
Embodiment ten
Figure 10 is the schematic diagram of the frame structure that provides of the embodiment of the present invention ten.
In embodiment ten; as shown in figure 10, system information channel indicator control channel duration, descending transmission channel duration, the configuration of descending sounding channel, uplink detection channel configuration, uplink scheduling request channel duration, uplink transport channel duration, uplink random access channel configuration, descending protection arranged spaced and up protection arranged spaced.Control channel is frequency or the code word of uplink transport channel, uplink scheduling request channel and each channel occupancy of uplink random access channel reassignment.
Uplink scheduling request channel and uplink random access channel can realize that time-division, frequency division, code division multiplexing or time-division, frequency division, code divide combination multiplexing with uplink transport channel, and the distribution of concrete resource is indicated by control channel, the subcarrier number that for example takies in uplink transport channel with 4bits indication uplink scheduling request channel, maximum 16 subcarriers are positioned at uplink transport channel upper sideband edge; With the subcarrier number that 4bits indication uplink random access channel takies, maximum 16 subcarriers, be positioned at uplink transport channel lower sideband edge in uplink transport channel.
Each terminal equipment related with the network equipment is by the frame structure configuration information of detection system information channel; learn the structure of communication frame; by targeting sequencing duration, system information channel duration, control channel duration, descending transmission channel one duration, descending sounding channel duration, descending transmission channel two durations, descending protection interval duration, uplink detection channel duration, uplink transport channel duration and up protection interval duration are carried out summation operation, obtain the frame length of this frame.If perhaps the network equipment at the system information channel indicating frame length of this frame, terminal equipment directly obtains the frame length of this frame, does not need to calculate.
In embodiment one to ten, system information channel and control channel adopt time division multiplexing mode, and by system information channel indicator control channel duration.The quantity of the terminal equipment that in every frame, control channel capacity demand can be dispatched is with the need dynamically adjusted.
Embodiment 11
Figure 11 is the schematic diagram of the system frame structure that provides of the embodiment of the present invention 11.
As shown in figure 11, also feasible system information channel and control channel frequency division, code division multiplexing or time-division, frequency division, code divide the combination multiplexed resource, this resource multiplex mode is for presetting, and the network equipment need not indication, and other resource distribution is indicated by control channel.The position of system information channel and size are fixed, the control channel duration is indicated by system information channel, for example: system information channel and control channel take altogether 10 OFDM symbols, system information channel takies described 10 OFDM symbol fixed positions, and control channel takies all the other time symbol and/or sub-carrier resources.
What Figure 11 provided is the system information channel situation mixed with the time-division with the control channel frequency division, and in practical application, system information channel and control channel also can be only by the frequency division multiplexing resources.
System's dynamic-configuration communication frame in the present invention, thus realization specifically realizes by the following method neatly to the up-downgoing scheduling of resource of each terminal equipment:
Step s1101: the network equipment obtains schedule information.
Wherein, schedule information comprises the dispatching requirement (for example: the service quality QoS demand of business to be scheduled and queue length, different business, service priority etc.) of the different business stream of each terminal equipment or each terminal equipment.
Wherein, step s1101 also may comprise: (can the network equipment obtain the state information of descending transmission channel or the ability that quality information depends on terminal equipment to the state information of the transmission channel of each terminal equipment or quality information to obtain the network equipment, if terminal equipment do not support, the network equipment can not rely on this channel information scheduling).
In the descending scheduling transmission, the frame duration is determined to be completed by the scheduler of network equipment side.Scheduler is from MAC or the high-rise down dispatch information that obtains of the network equipment.
Step s1102: the scheduler of the network equipment is completed dispatching algorithm, according to down dispatch information, or according to state or the quality information of schedule information and channel, is all or part of terminal equipment scheduling transmission resources that business demand is arranged.
Each terminal equipment can pass through the time-division, and frequency division, code divide, sky divides or transfer resource is shared in the combination of above-mentioned multiplex mode.
Step s1103: the network equipment is determined the structure of this frame according to dispatching duration in the transfer resource calculating book frame of dispatching in this frame;
The structure of determining this frame also may comprise step afterwards: the frame length of calculating book frame.
Step s1104: the network equipment is broadcasted the structure of this frame, and sends the descending scheduling signaling.
Wherein, can pass through system information channel, perhaps system information channel is combined with control channel, and perhaps other channels are broadcasted the structure of this frame;
Can send the descending scheduling signaling by control channel or other channels.
Wherein, step s1104 also may comprise step: the frame length of broadcasting this frame.
At this moment, by system information channel, perhaps system information channel is combined with control channel, and perhaps other channels are broadcasted structure and/or the frame length of this frame.
By said process, realized the dynamic-configuration to frame structure.
The descending scheduling that receives network equipment transmission when terminal equipment will be believed from now on, check system information channel and control channel, according to system information and descending scheduling signaling, calculate and obtain the transfer resource that each terminal equipment takies, determine the frame length of downlink transfer duration, uplink duration and calculating book frame;
If step s1104 not only broadcasts the structure of this frame and also broadcasted frame length, terminal equipment directly obtains the frame length of this frame, does not need to calculate.
Come the detailed description system how by the dynamic-configuration frame structure below by specifically describing an embodiment 12, thereby realize neatly the up-downgoing scheduling of resource to each terminal equipment.
Embodiment 12
Figure 12 is the schematic diagram of the frame structure of the up-downgoing scheduled transmission process that provides of the embodiment of the present invention 12.
In embodiment 12, based on the frame structure scheme that previous embodiment one to 11 provides, consider the MIMO-OFDM transmission mechanism, system work process is exemplified below:
Certain CAP is associated with 4 STA:STA0, STA 1, STA 2 and STA 3.At frame N, only there is STA0 that downlink traffic transmission is arranged, other STA is not only without downlink traffic transmission but also without uplink traffic transmission.Complete descending scheduling and link circuit self-adapting for the ease of frame N+1, CAP requires STA0, STA 1, STA 2 and STA 3 by descending sounding channel measurement channel condition information and feeds back to CAP (not consider TDD system up-downgoing reciprocity here, if but consider the up-downgoing reciprocity, can obtain the descending transmission channel quality by the uplink detection channel, and do not need STA by descending sounding channel measurement channel condition information and feed back to CAP).Complete uplink scheduling and link circuit self-adapting for the ease of frame N+1, CAP requires STA0, STA 1, STA2 and STA3 all to launch uplink detection signal, and auxiliary CAP measures uplink signal-channel quality.1 OFDM symbol of static system configuring preamble sequence, 1 OFDM symbol of system information channel, other channel is indicated by system information channel.Be 63 OFDM symbols of control channel indication with 6bits.Based on the demand, at frame N, CAP is that control channel distributes 9 to control subchannel, dispatches respectively the STA0 downlink transfer, STA0, STA1, STA2, STA3 downlink channel condition information feedback and STA0, STA1, STA2, STA3 uplink detection channel allocation.STA0 down channel quality and business demand that AP is known according to frame N-1 are used for transmission STA0 downlink data for STA0 has distributed 511 OFDM symbols, wherein have after 80 OFDM symbols are positioned at descending sounding channel.Therefore, in system information channel, CAP is 511 OFDM symbols with 9bits indicating downlink transmission duration.CAP has descending sounding channel, 2 OFDM symbols with the 2bits indication.CAP 1bit is 1 OFDM symbol of DGI indication, is 1 OFDM symbol of UGI indication with 1bit.For the uplink detection channel allocation 4 survey subchannels, survey subchannels by the multiplexing OFDM symbol of frequency division mode for these 4.Consider the feedback requirements of STA0, STA 1, STA 2 and STA 3, for being divided into, STA0, STA 1, STA 2 and STA 3 joined 16 OFDM symbols for feedback transmission (uplink), can the time-division between 4 STA uplink transport channel also can frequency division, concrete scheduling of resource is completed at control channel.System information channel 2bits is that the uplink scheduling request channel has been indicated 2 OFDM symbols, amounts to 4 dispatch request subchannels.Indicated 1 OFDM symbol with 1bit for random access.Obtain frame structure by above-mentioned configuration, AP sends to STA0, STA 1, STA 2 and STA 3 with this communication frame.
based on embodiment eight, STA0, STA 1, STA2, after STA3 receives communication frame, by the broadcast message of detection system information channel, can obtain 63 OFDM symbols of control channel duration, 511 OFDM symbols of descending transmission channel duration (wherein 2 80 OFDM symbols of descending sounding channel duration), 1 OFDM symbol of DGI duration, 1 OFDM symbol of descending sounding channel duration, 1 OFDM symbol of uplink detection channel duration, 2 OFDM symbols of uplink scheduling request channel duration, 16 OFDM symbols of uplink transport channel duration, then uplink random access 1 OFDM symbol of channel duration and 1 OFDM symbol of UGI duration pass through 1 OFDM symbol of targeting sequencing channel duration, 1 OFDM symbol of system information channel duration, the control channel duration, the descending transmission channel duration, descending sounding channel duration, the DGI duration, uplink detection channel duration, uplink scheduling request channel duration, the uplink duration, uplink random access channel duration and UGI duration carry out summation operation, determine frame N frame length, i.e. 1+1+63+511+2+1+1+2+16+1+1=600 OFDM symbol.
Above embodiment one to 12 is only preferred embodiment, but the present invention not only be confined to realize the present invention by channel noted earlier, realize that by following information transferring method technical scheme of the present invention is also within protection scope of the present invention.Take network equipment side as example, specific as follows:
Send the frame structure configuration information of present frame by at least one channel of current communication frame.Further, can also send by at least one channel of current communication frame the frame length configuration information of present frame.
The channel of at least one selectivity configuration by current communication frame sends distribution and the scheduling of indication transfer resource and takies the information of transformat of the channel of transfer resource.
The channel of at least one selectivity configuration by current communication frame sends downlink service data and/or descending control signaling and/or feedback information.
The channel of at least one selectivity configuration by current communication frame sends sequence, and this sequence is used for down channel quality and/or state measurement.
The channel of at least one selectivity configuration by current communication frame receives uplink business data and/or up signaling and/or feedback information.
The channel receiving sequence of at least one selectivity configuration by current communication frame, this sequence is used for uplink signal-channel quality and/or state measurement.
The channel of at least one selectivity configuration by current communication frame receives uplink scheduling request information and/or feedback information.
The channel of at least one selectivity configuration by current communication frame receives initial access channel information.
When terminal equipment side, also carry out above information transferring method, be that concrete sending and receiving is just in time opposite with network equipment side.For example, receive the frame structure configuration information of present frame by at least one channel of current communication frame.
In wireless communication system of the present invention, there are these two kinds of communication equipments of the network equipment (such as base station or CAP etc.) and terminal equipment (such as terminal or STA etc.).The present invention can network enabled equipment simultaneously and the communicating by letter of a plurality of terminal equipments, can support spatial domain, the time domain according to different user, the difference of frequency domain channel quality, the multi-user is carried out scheduling and the distribution of spatial domain, time domain or frequency domain resource.
The present invention also provides a kind of wireless communication system, structure as shown in figure 13, this system comprises the network equipment 131 (for example: base station or CAP) and at least one terminal equipment 132 (for example: terminal or STA), by the network equipment 131 scheduling, be different terminal equipments 132 distributing radio resource.
The network equipment 131 for structure and the frame length of the current communication frame of dynamic-configuration, sends the frame structure configuration information of current communication frame in current communication frame.
The present invention also provides a kind of network equipment, structure as shown in figure 14, this network equipment comprises: dispensing unit 141 and transmitting element 142.
Dispensing unit 141 is for structure and the frame length of the current communication frame of dynamic-configuration.
Transmitting element 142 is used for the frame structure configuration information at the current communication frame of current communication frame transmission.
In one embodiment, comprise at least descending sub frame in current communication frame, comprise at least targeting sequencing and system information channel in descending sub frame.Transmitting element 142 sends the frame structure configuration information of current communication frame in system information channel.Further, transmitting element 142 also sends the frame length configuration information of current communication frame in system information channel.
Further, when also comprising control channel in descending subframe, transmitting element 142 can send the frame structure configuration information of a part of current communication frame in system information channel, wherein comprise at least the duration of control channel, sends the frame structure configuration information of the current communication frame of another part at control channel.
In one embodiment, after dispensing unit 141 gets schedule information, determine the transfer resource of scheduling according to schedule information, structure and the frame length of the current communication frame of the transfer resource coupling of dynamic-configuration and scheduling.
The concrete structure of the various communication frames of dispensing unit 141 possible configurations has a detailed description in preamble embodiment, repeats no more here.
In one embodiment, transmitting element 142 sends the frame structure configuration information of current communication frame by at least one channel of current communication frame.Further, transmitting element 142 also sends the frame length configuration information of current communication frame by at least one channel of current communication frame.
In one embodiment, also comprise in the network equipment: communication unit, by the channel of at least one selectivity configuration in current communication frame, communicate by letter with terminal equipment.
Above-mentioned communication unit may be carried out one or more in following operation when executive communication:
Channel by at least one selectivity configuration in current communication frame sends distribution and the scheduling of indication transfer resource and takies the information of transformat of the channel of transfer resource;
Channel by at least one selectivity configuration in current communication frame sends downlink business and/or descending control signaling and/or feedback information;
Channel by at least one selectivity configuration in current communication frame sends sequence, and this sequence is used for quality and/or the state measurement of down channel;
Channel by at least one selectivity configuration in current communication frame receives uplink business data and/or up signaling and/or feedback information;
By the channel receiving sequence of at least one selectivity configuration in current communication frame, this sequence is used for quality and/or the state measurement of up channel;
Channel by at least one selectivity configuration in current communication frame receives uplink scheduling request information and/or feedback information;
Channel by at least one selectivity configuration in current communication frame receives initial access channel information.
The present invention also provides a kind of terminal equipment, structure as described in Figure 15, this terminal equipment comprises: receiving element 151 and detecting unit 152.
Receiving element 151 is for the frame structure configuration information that receives current communication frame.
Detecting unit 152 for detection of the frame structure configuration information of current communication frame, is learnt structure and the frame length of current communication frame.
In one embodiment, comprise at least descending sub frame in current communication frame, comprise at least targeting sequencing and system information channel in descending sub frame, receiving element 151 receives the frame structure configuration information of current communication frame in system information channel.Further, receiving element 151 also receives the frame length configuration information of current communication frame in system information channel.
In one embodiment, when descending subframe comprises control channel, receiving element 151 receives the frame structure configuration information of a part of current communication frame in system information channel, wherein comprise at least the duration of control channel, receive the frame structure configuration information of the current communication frame of another part at control channel.
In one embodiment, this terminal equipment also comprises: computing unit, the structure of the current communication frame of determining according to detecting unit 152 is calculated the frame length of current communication frame.Computing unit mainly is used in the network equipment and does not directly indicate in the situation of frame length.
In one embodiment, receiving element 151 also receives the frame structure configuration information of current communication frame by at least one channel of current communication frame.Further, receiving element 151 also receives the frame length configuration information of current communication frame by at least one channel of current communication frame.
In one embodiment, this terminal equipment also comprises: communication unit, by the channel of at least one selectivity configuration in current communication frame, communicate by letter with the network equipment.
During above-mentioned communication unit executive communication, may carry out one or more in following operation:
Channel by at least one selectivity configuration in current communication frame receives distribution and the scheduling of indication transfer resource and takies the information of transformat of the channel of transfer resource;
Channel by at least one selectivity configuration in current communication frame receives when downlink service data and/or descending control signaling and/or feedback information;
By the channel receiving sequence of at least one selectivity configuration in current communication frame, this sequence is used for quality and/or the state measurement of down channel;
Channel by at least one selectivity configuration in current communication frame sends uplink business data and/or up signaling and/or feedback information;
Channel by at least one selectivity configuration in current communication frame sends sequence, and this sequence is used for quality and/or the state measurement of up channel;
Channel by at least one selectivity configuration in current communication frame sends uplink scheduling request information and/or feedback information;
Channel by at least one selectivity configuration in current communication frame sends initial access channel information.
The possible structure of current communication frame is described in detail in the embodiment of preamble, repeats no more here.
In the wireless communication system that the embodiment of the present invention provides, the network equipment and terminal equipment, the communication frame structure that relates to can comprise the structure of enumerating in preamble in each embodiment, basic identical in operation principle and associative operation flow process and aforementioned wireless communications method embodiment, do not repeat them here.
Adopt system of the present invention and equipment, by dynamic-configuration frame structure and frame length, can realize that the service based demand is dynamically divided the up-downgoing Radio Resource in the short-distance and medium-distance wireless communication system, preferably the following abundant species of dynamic adaptation and the different data traffic requirement of feature.Simultaneously, can provide very little resource granularity, larger service rate changes in demand that not only can adaptive different terminals, and the dynamic change of adaptive wireless channel preferably.By the dynamic-configuration frame length, can not only reduce control overhead and scheduling overhead for indoor application, also can satisfy outdoor fast-changing requirement, can also reduce the complexity of realization simultaneously.The summary speech, can weigh business demand and channel characteristics, dynamically divide the uplink downlink resource, under the condition of considering link circuit self-adapting, be different terminals dynamic assignment Radio Resource.
Should be understood that the particular order of the step in disclosed process or the example that level is illustrative methods.Based on design preference, should be appreciated that, the particular order of the step in process or level can be in the situation that do not break away from protection range of the present disclosure and rearranged.Appended claim to a method has provided the key element of various steps with exemplary order, and is not to be limited to described particular order or level.
In above-mentioned detailed description, various features are combined in single embodiment together, to simplify the disclosure.This open method should be interpreted as reflecting such intention, that is, the embodiment of theme required for protection need to be than the more feature of the feature of clearly stating in each claim.On the contrary, as appending claims reflected, the present invention was in the state that lacks than whole features of disclosed single embodiment.Therefore, appending claims clearly is merged in detailed description hereby, and wherein every claim is alone as the independent preferred embodiment of the present invention.
Description above comprises giving an example of one or more embodiment.Certainly, all possible combination of describing parts or method in order to describe above-described embodiment is impossible, but those of ordinary skills should be realized that, each embodiment can do further combinations and permutations.Therefore, the embodiment that describes herein is intended to contain all the such changes, modifications and variations in the protection range that falls into appended claims.In addition, " comprise " with regard to the term that uses in specification or claims, the mode that contains of this word is similar to term and " comprises ", just as " comprising, " in the claims as link word explain like that.In addition, using any one term " perhaps " in the specification of claims is to represent " non-exclusionism or ".
Claims (37)
1. a wireless communication system, comprise the network equipment and at least one terminal equipment, it is characterized in that:
The described network equipment, the structure of the current communication frame of dynamic-configuration and frame length, the frame structure configuration information of the current communication frame of transmission in current communication frame;
Described terminal equipment by detecting the frame structure configuration information of current communication frame, is determined structure and the frame length of current communication frame.
2. a network equipment, is characterized in that, comprising:
Dispensing unit, the structure of the current communication frame of dynamic-configuration and frame length;
Transmitting element, the frame structure configuration information of the current communication frame of transmission in current communication frame.
3. equipment as claimed in claim 2, is characterized in that, comprises at least descending sub frame in current communication frame.
4. equipment as claimed in claim 3, is characterized in that, comprises at least targeting sequencing and system information channel in described descending sub frame.
5. equipment as claimed in claim 4, is characterized in that, described transmitting element sends the frame structure configuration information of current communication frame in described system information channel.
6. equipment as claimed in claim 5, is characterized in that, described transmitting element also sends the frame length configuration information of current communication frame in system information channel.
7. equipment as claimed in claim 4, is characterized in that, also comprises in described descending sub frame as at least one in lower channel:
Descending transmission channel is used for transmission downlink business and/or descending control signaling and/or feedback;
Descending sounding channel is used for measurement and the estimation of down channel quality and/or state.
8. equipment as claimed in claim 7, is characterized in that, described descending sounding channel is positioned at the centre of described descending transmission channel.
9. equipment as claimed in claim 4, is characterized in that, also comprises sub-frame of uplink in the structure of described current communication frame.
10. equipment as claimed in claim 9, is characterized in that, also has the protection interval between described descending sub frame and described sub-frame of uplink.
11. equipment as claimed in claim 9 is characterized in that, described sub-frame of uplink comprises as at least one in lower channel:
Uplink transport channel is used for transmission uplink service and/or up signaling and/or feedback;
The uplink detection channel is used for uplink signal-channel quality and/or state measurement and estimation;
The uplink scheduling request channel is used for terminal equipment and triggers uplink scheduling request or signaling feedback;
Uplink random access channel is used for transmitting up access signaling or signaling feedback.
12. equipment as described in claim 7 to 11 any one is characterized in that, also comprises control channel in described descending sub frame, is used to indicate distribution and the scheduling of transfer resource and takies the transformat of the channel of transfer resource.
13. equipment as claimed in claim 12 is characterized in that, described system information channel and described control channel are by a kind of mode or compound mode multiplexed resource in time division multiplexing, frequency division multiplexing, code division multiple access.
14. equipment as claimed in claim 12, it is characterized in that, described transmitting element sends the frame structure configuration information of a part of current communication frame in described system information channel, wherein comprise at least the duration of described control channel, send the frame structure configuration information of the current communication frame of another part at described control channel.
15. equipment as claimed in claim 2 is characterized in that, after described dispensing unit gets schedule information, determines the transfer resource of scheduling according to schedule information, structure and the frame length of the current communication frame of the transfer resource coupling of dynamic-configuration and scheduling.
16. equipment as claimed in claim 2 is characterized in that, described transmitting element sends the frame structure configuration information of current communication frame by at least one channel of current communication frame.
17. equipment as claimed in claim 16 is characterized in that, described transmitting element also sends the frame length configuration information of current communication frame by at least one channel of current communication frame.
18. equipment as claimed in claim 2 is characterized in that, this equipment also comprises:
Communication unit by the channel of selectivity configuration in current communication frame, is communicated by letter with terminal equipment.
19. equipment as claimed in claim 18 is characterized in that, during described communication unit executable operations, comprises and carries out one or more in following operation:
Channel by at least one selectivity configuration in current communication frame sends distribution and the scheduling of indication transfer resource and takies the information of transformat of the channel of transfer resource;
Channel by at least one selectivity configuration in current communication frame sends downlink service data and/or control signal and/or feedback;
Channel by at least one selectivity configuration in current communication frame sends sequence, and this sequence is used for quality and/or the state measurement of down channel;
Channel by at least one selectivity configuration in current communication frame receives uplink business data and/or up signaling and/or feedback information;
By the channel receiving sequence of at least one selectivity configuration in current communication frame, this sequence is used for quality and/or the state measurement of up channel;
Channel by at least one selectivity configuration in current communication frame receives uplink scheduling request information and/or feedback information;
Channel by at least one selectivity configuration in current communication frame receives initial access channel information.
20. a terminal equipment is characterized in that, comprising:
Receiving element, the frame structure configuration information of the current communication frame of reception;
Detecting unit by detecting the frame structure configuration information of present frame, is learnt structure and the frame length of current communication frame.
21. equipment as claimed in claim 20 is characterized in that, comprises at least descending sub frame in current communication frame.
22. equipment as claimed in claim 21 is characterized in that, comprises at least targeting sequencing and system information channel in described descending sub frame.
23. equipment as claimed in claim 22 is characterized in that, described receiving element receives the frame structure configuration information of current communication frame in described system information channel.
24. equipment as claimed in claim 23 is characterized in that, described receiving element also receives the frame length configuration information of current communication frame in system information channel.
25. equipment as claimed in claim 22 is characterized in that, also comprises in described descending sub frame as at least one in lower channel:
Descending transmission channel is used for transmission downlink business and/or descending control signaling and/or feedback;
Descending sounding channel is used for measurement and the estimation of down channel quality/state.
26. equipment as claimed in claim 25 is characterized in that, described descending sounding channel is positioned at the centre of described descending transmission channel.
27. equipment as claimed in claim 22 is characterized in that, also comprises sub-frame of uplink in the structure of described current communication frame.
28. equipment as claimed in claim 27 is characterized in that, also has the protection interval between described descending sub frame and described sub-frame of uplink.
29. equipment as claimed in claim 27 is characterized in that, described sub-frame of uplink comprises as at least one in lower channel:
Uplink transport channel is used for transmission uplink service and/or up signaling and/or feedback;
The uplink detection channel is used for uplink signal-channel quality/state measurement and estimation;
The uplink scheduling request channel is used for described terminal equipment and triggers uplink scheduling request or signaling feedback;
Uplink random access channel is used for transmitting up access signaling or signaling feedback.
30. equipment as claimed in claim 29, it is characterized in that, described uplink scheduling request channel, described uplink random access channel and described uplink transport channel are by a kind of mode or compound mode multiplexed resource in time division multiplexing, frequency division multiplexing, code division multiple access.
31. equipment as described in claim 25 to 29 any one is characterized in that, also comprises control channel in described descending sub frame, is used to indicate distribution and the scheduling of transfer resource and takies the transformat of the channel of transfer resource.
32. equipment as claimed in claim 31, it is characterized in that, described receiving element receives the frame structure configuration information of a part of current communication frame in described system information channel, wherein comprise at least the duration of described control channel, receive the frame structure configuration information of the current communication frame of another part at described control channel.
33. equipment as claimed in claim 20 is characterized in that, this equipment also comprises:
Computing unit, the structure of the current communication frame of determining according to described detecting unit is calculated the frame length of current communication frame.
34. equipment as claimed in claim 20 is characterized in that, described receiving element receives the frame structure configuration information of current communication frame by at least one channel of current communication frame.
35. equipment as claimed in claim 34 is characterized in that, described receiving element also receives the frame length configuration information of current communication frame by at least one channel of current communication frame.
36. equipment as claimed in claim 20 is characterized in that, this equipment also comprises:
Communication unit by the channel of at least one selectivity configuration in current communication frame, is communicated by letter with the network equipment.
37. equipment as claimed in claim 36 is characterized in that, when described communication unit is communicated by letter with the network equipment, carries out one or more in following operation:
Channel by at least one selectivity configuration in current communication frame receives distribution and the scheduling of indication transfer resource and takies the information of transformat of the channel of transfer resource;
Channel by at least one selectivity configuration in current communication frame receives when downlink service data and/or descending control signaling and/or feedback;
By the channel receiving sequence of at least one selectivity configuration in current communication frame, this sequence is used for quality and/or the state measurement of down channel;
Channel by at least one selectivity configuration in current communication frame sends uplink business data, up signaling and/or feedback information;
Channel by at least one selectivity configuration in current communication frame sends sequence, and this sequence is used for quality and/or the state measurement of up channel;
Channel by at least one selectivity configuration in current communication frame sends uplink scheduling request information and/or feedback information;
Channel by at least one selectivity configuration in current communication frame sends initial access channel information.
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CN201210073387.4A Pending CN103124435A (en) | 2011-03-25 | 2012-03-19 | Wireless communication system, network device and terminal device |
CN201210074189.XA Pending CN103124207A (en) | 2011-03-25 | 2012-03-19 | Wireless communication system and device |
CN201210073249.6A Pending CN103124433A (en) | 2011-03-25 | 2012-03-19 | Device for wireless communication |
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