WO2014079045A1

WO2014079045A1 - Method, apparatus and system for transmitting uplink data

Info

Publication number: WO2014079045A1
Application number: PCT/CN2012/085167
Authority: WO
Inventors: 李秉肇; 贺传峰; 张丹丹; 邵家枫
Original assignee: 华为技术有限公司
Priority date: 2012-11-23
Filing date: 2012-11-23
Publication date: 2014-05-30
Also published as: CN103959835A; CN103959835B

Abstract

Embodiments of the present invention relate to the communications field. Disclosed are a method, a user equipment and a system for transmitting uplink data, which can reduce a data volume of uplink transmission, thus reducing transmission power of the uplink data. A specific solution is: receiving an authorization control command from a base station, and determining a service authorization value according to the authorization control command; according to the service authorization value, self remaining power and a data volume to be transmitted, determining a size of a transmission block; and if the size of the transmission block and a size of a maximum transmission block corresponding to the service authorization value meet a preset condition, using a preset control channel default policy to send data to be transmitted to the base station. The embodiments of the present invention are mainly used in an uplink data transmission process.

Description

Uplink data transmission method, device and system

The present invention relates to the field of wireless communications, and in particular, to an uplink data transmission method, apparatus, and system.

Background technique

High-Speed Uplink Packet Access (HSUPA) is a transmission technology used in Wideband Code Division Multiple Access (WCDMA) uplink. When performing uplink data transmission, the user equipment can receive from the uplink. The authorization control command of the base station, and then maintaining the service authorization value according to the authorization control command, determining the size of the transport block according to the service authorization value, the remaining power, and the amount of data to be transmitted, selecting a transport block size, and transmitting the data to be transmitted and corresponding to the transport block size. Control information to the base station.

In the prior art, the user equipment sends the uplink data transmission to the base station in addition to the Dedicated Physical Control Channel (DPCCH) carrying the pilot information and the power control information. An Enhanced Dedicated Physical Data Channel (E-DPDCH) carrying uplink data and an Enhanced Dedicated Physical Control Channel (E-DPCCH) carrying control information required for decoding the E-DPDCH are transmitted. Wherein the control information E-DPCCH bearer comprising: indicates a transport block size of the transport format combination of indication (Transport Format Combination Indicator, E- TFCI), the retransmission sequence bad No. ¹ (Retransmission Sequence Number, RSN) J and a happy bit (Happy Bit , HB ).

In the process of implementing the foregoing, the inventor has found that at least the following problems exist in the prior art: In the prior art, when performing uplink data transmission, the user equipment must simultaneously send the E-DPDCH and the E-DPCCH to the base station, resulting in uplink transmission. The amount of data is large, which in turn leads to a large transmission power of uplink data.

Summary of the invention Embodiments of the present invention provide an uplink data transmission method, apparatus, and system, which can reduce the amount of data transmitted in the uplink, and further reduce the transmission power of the uplink data.

A first aspect of the embodiments of the present invention provides an uplink data transmission method, including: receiving, by a user equipment, an authorization control command from a base station, and determining a service authorization value according to the authorization control command;

Determining, by the user equipment, a size of the transport block according to the service authorization value;

And determining, by the user equipment, that the to-be-transmitted data is sent to the base station by using a preset control channel default policy according to the transport block size and the service authorization value.

With reference to the first aspect, in a possible implementation manner, the user equipment determines, according to the transport block size and the service authorization value, that a data to be transmitted is sent to the base station by using a preset control channel default policy. Includes:

If the difference between the size of the transport block and the size of the maximum transport block corresponding to the service grant value is within a predetermined range, the user equipment uses the preset control channel default policy to send the data to be transmitted. Sent to the base station; or

And if the size of the transport block minus the value of the sum of the size of the maximum transport block corresponding to the service grant value and the size of the transport block corresponding to the non-scheduled data amount is within the predetermined range, the user equipment adopts The preset control channel default policy sends the to-be-transmitted data to the base station.

With reference to the first aspect and the foregoing possible implementation manner, in another possible implementation manner, after the user equipment determines a size of the transport block according to the service authorization value, the method further includes:

The user equipment searches for an index corresponding to the transport block according to the size of the transport block; the user equipment determines, according to the transport block size and the service authorization value, that a default control channel default policy is to be transmitted. Data is sent to the base station, including:

If the difference between the index of the transport block and the index of the maximum transport block corresponding to the service grant value is within a predetermined range, the user equipment uses the preset control channel default policy to use the preset control channel default policy to transmit the data to be transmitted. Sent to the base station; or If the index of the transport block minus the value of the index of the sum of the maximum transport block corresponding to the service grant value and the transport block corresponding to the unscheduled data amount is within the predetermined range, the user equipment adopts the pre- The control channel default policy is configured to send the to-be-transmitted data to the base station.

With the first aspect and the foregoing possible implementation manners, in another possible implementation manner, the user equipment sends the data to be transmitted to the base station by using a preset control channel default policy, including:

The user equipment does not send the enhanced dedicated physical control channel E-DPCCH information corresponding to the data to be transmitted when the data to be transmitted is sent to the base station, where the E-DPCCH information includes: transmission of data to be transmitted Format information E-TFCI, retransmission sequence number RSN, and satisfaction bit HB; or,

When transmitting the data to be transmitted to the base station, the user equipment sends the RSN and the HB to the dedicated physical control channel DPCCH or the enhanced dedicated physical data channel E-DPDCH corresponding to the to-be-transmitted data to The base station.

With reference to the first aspect and the foregoing possible implementation manner, in another possible implementation manner, the user equipment determines, according to the transport block size and the service authorization value, that a preset control channel default policy is to be used. Before the transmission of the data to the base station, the method further includes: the user equipment receiving configuration signaling from the control node RNC, where the configuration signaling is used to allow the user equipment to adopt the preset control channel The provincial policy sends the data to be transmitted to the base station; or

The user equipment receives the first indication signaling from the base station, where the first indication signaling is used to allow the user equipment to send the to-be-transmitted data to the preset by using the preset control channel default policy. Said base station. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification.

With reference to the first aspect and the foregoing possible implementation manner, in another possible implementation manner, the user equipment sends the data to be transmitted to the base station by using a preset control channel default policy, and the method further includes:

If the user equipment receives a negative acknowledgement NACK from the base station, the user sets And transmitting, to the base station, the RSN and the HB are sent to the base station by using the E-DPCCH, and the E-TFCI is not sent to the base station.

With reference to the first aspect and the foregoing possible implementation manner, in another possible implementation manner, the user equipment determines, according to the transport block size and the service authorization value, that a preset control channel default policy is to be used. After the transmission of the data to the base station, the method further includes: after receiving the second indication signaling from the base station, the user equipment stops using the preset control channel default policy to send data to be transmitted. To the base station; or

After the user equipment sends a data completion message to the base station, the user stops sending the data to be transmitted to the base station by using the preset control channel default policy, where the data completion message is used to indicate that the base station stops. Demodulating the data to be transmitted from the E-DPDCH by using the preset control channel default policy; or

When performing the soft handover, the user equipment stops using the preset control channel default policy to send data to be transmitted to the base station.

The second aspect of the embodiments of the present invention further provides an uplink data transmission method, including: the base station sending an authorization control command to the user equipment, so that the user equipment determines the service authorization value according to the authorization control command;

The base station detects E-DPCCH information, where the E-DPCCH information includes: E-TFCI, RSN, and HB;

If the base station detects that the E-TFCI is not carried in the E-DPCCH, or the base station detects that the RSN and the HB are carried in the DPCCH or the E-DPDCH, the preset control channel is used. The provincial policy demodulates the data to be transmitted from the E-DPDCH.

With reference to the second aspect, in a possible implementation, after the base station sends an authorization control command to the user equipment, the method further includes:

The base station sends the first indication signaling to the user equipment, where the first indication signaling is used to allow the user equipment to send data to be transmitted to the base station by using the preset control channel default policy. The first indication signaling includes: an indication message sent by the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification. With reference to the second aspect and the foregoing possible implementation manner, in another possible implementation manner, after the base station demodulates the to-be-transmitted data from the E-DPDCH by using a preset control channel default policy, The method further includes:

If the demodulation fails, the base station sends a negative acknowledgement NACK to the user equipment, where the NACK is used to instruct the user equipment to resend the to-be-transmitted data to the base station.

With reference to the second aspect and the foregoing possible implementation manner, in another possible implementation manner, if the base station detects that the E-DPCCH information is not carried in the E-DPCCH, or the base station detects After the RSN and the HB are carried in the DPCCH or the E-DPDCH, after the data to be transmitted is demodulated from the E-DPDCH by using a preset control channel default policy, the method Also includes:

After the second base station sends the second indication signaling to the user equipment, the base station stops using the preset control channel default policy to demodulate the to-be-transmitted data from the E-DPDCH, where the second indication signaling is And the user equipment is instructed to stop using the preset control channel default policy to send the to-be-transmitted data to the base station; or

After receiving the data completion message from the user equipment, the base station stops using the preset control channel default policy to send data to be transmitted to the base station; or

After receiving the notification from the RNC of the user equipment for performing soft handover, the base station stops using the preset control channel default policy to demodulate the to-be-transmitted data from the E-DPDCH.

A third aspect of the embodiments of the present invention further provides a user equipment, including:

a first receiving unit, configured to receive an authorization control command from the base station, and determine a service authorization value according to the authorization control command;

a determining unit, configured to determine a size of the transport block according to the service authorization value;

And a sending unit, configured to determine, according to the transport block size and the service authorization value, that the to-be-transmitted data is sent to the base station by using a preset control channel default policy.

With reference to the third aspect, in a possible implementation, the sending unit is further configured to: if a difference between a size of the transport block and a size of a maximum transport block corresponding to the service grant value is Sending, to the base station, the to-be-transmitted data by using the preset control channel default policy; or

If the size of the transport block minus the value of the sum of the size of the maximum transport block corresponding to the service grant value and the size of the transport block corresponding to the non-scheduled data amount is within the predetermined range, the preset is adopted. The control channel default policy sends the to-be-transmitted data to the base station.

With reference to the third aspect and the foregoing possible implementation manner, in another possible implementation manner, the user equipment further includes:

a searching unit, configured to search for an index corresponding to the transport block according to a size of the transport block;

The sending unit is further configured to: if the difference between the index of the transport block and the index of the largest transport block corresponding to the service grant value is within a predetermined range, adopt the preset control channel default policy Transmitting the transmission data to the base station; or

If the index of the transport block minus the value of the index of the sum of the maximum transport block corresponding to the service grant value and the transport block corresponding to the unscheduled data amount is within the predetermined range, the preset control channel is adopted. The default policy sends the data to be transmitted to the base station.

With reference to the third aspect and the foregoing possible implementation manner, in another possible implementation manner, the sending unit is further configured to: when the data to be transmitted is sent to the base station, do not send the data to be transmitted Corresponding enhanced dedicated physical control channel E-DPCCH information, where the E-DPCCH information includes: transmission format information E-TFCI, retransmission sequence number RSN, and satisfaction bit HB of the data to be transmitted;

And transmitting, when the data to be transmitted is sent to the base station, the RSN and the HB to the base station by using a dedicated physical control channel DPCCH or an enhanced dedicated physical data channel E-DPDCH corresponding to the data to be transmitted.

a second receiving unit, configured to perform, according to the transmission block size and the service authorization value, determining, by using the preset control channel default policy, that the data to be transmitted is sent to the sending unit to the sending unit Before the base station, the configuration signaling is received from the control node RNC, where the configuration signaling is used to allow the user equipment to send the data to be transmitted to the base station by using the preset control channel default policy; or

Receiving first indication signaling from the base station, where the first indication signaling is used to allow the user equipment to send data to be transmitted to the base station by using the preset control channel default policy, where An indication signaling includes: an indication message sent over the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification.

With reference to the second aspect and the foregoing possible implementation manner, in another possible implementation manner, the sending unit is further configured to: if the user equipment receives a negative acknowledgement NACK from the base station, the user equipment is And transmitting the to-be-transmitted data to the base station, and sending the RSN and the HB to the base station by using the E-DPCCH, and not sending the E-TFCI to the base station.

With reference to the second aspect and the foregoing possible implementation manner, in another possible implementation manner, the user equipment further includes:

a stopping unit, configured to perform, after the sending unit performs, determining, according to the transport block size and the service authorization value, that a data to be transmitted is sent to the base station by using a preset control channel default policy, receiving a base station from the base station After the second indication signaling, the data to be transmitted is sent to the base station by using the preset control channel default policy; or

After the data completion message is sent to the base station, the data to be transmitted is sent to the base station by using the preset control channel default policy, where the data completion message is used to indicate that the base station stops using the preset The control channel default policy demodulates the data to be transmitted from the E-DPDCH; or

When the soft handover is performed, the preset control channel default policy is stopped to send the data to be transmitted to the base station.

A fourth aspect of the embodiments of the present invention provides a base station, including:

a first sending unit, configured to send an authorization control command to the user equipment, so that the user equipment determines a service authorization value according to the authorization control command; a detecting unit, configured to detect E-DPCCH information, where the E-DPCCH information includes: transmission format information E-TFCI, retransmission sequence number RSN, and satisfaction bit HB of the data to be transmitted;

a demodulation unit, configured to: if the detecting unit detects that the E-TFCI is not carried in the E-DPCCH, or the detecting unit detects that the DPCCH or the E-DPDCH carries the RSN and The HB demodulates the to-be-transmitted data from the E-DPDCH by using a preset control channel default policy.

With reference to the fourth aspect, in a possible implementation, the base station, further includes: a second sending unit, configured to send a first indication after the first sending unit sends an authorization control command to the user equipment Signaling to the user equipment, the first indication signaling is used to allow the user equipment to send data to be transmitted to the base station by using the preset control channel default policy. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification.

With reference to the fourth aspect and the foregoing possible implementation manner, in another possible implementation manner, the base station further includes:

a third sending unit, configured to perform, in the demodulating unit, if the detecting unit detects that the E-DPCCH information is not carried in the E-DPCCH, or the detecting unit detects the DPCCH or the After the RSN and the HB are carried in the E-DPDCH, after the data to be transmitted is demodulated from the E-DPDCH by using a preset control channel default policy, if the demodulation fails, a negative response is sent. NACK to the user equipment, the NACK is used to instruct the user equipment to resend the to-be-transmitted data to the base station.

a second detecting unit, configured to: if the demodulation fails in the third sending unit, send a negative acknowledgement NACK to the user equipment, and detect whether the RSN and the HB are carried in the E-DPCCH, if And carrying the RSN and the HB in the E-DPCCH, and demodulating the to-be-transmitted data from the E-DPDCH by using a preset control channel default policy. With reference to the fourth aspect and the foregoing possible implementation manner, in another possible implementation manner, the base station further includes:

a stopping unit, configured to perform, at the demodulation unit, if the base station detects the

The E-TFC is not carried in the E-DPCCH, or the base station detects that the RSN and the HB are carried in the DPCCH or the E-DPDCH, and adopts a preset control channel default policy. After demodulating the to-be-transmitted data in the E-DPDCH, after transmitting the second indication signaling to the user equipment, stopping using the preset control channel default policy to demodulate the E-DPDCH from the E-DPDCH Data to be transmitted, the second indication signaling is used to indicate that the user equipment stops using the preset control channel default policy to send data to be transmitted to the base station or

After receiving the data completion message from the user equipment, stop using the preset control channel default policy to send data to be transmitted to the base station; or

After receiving the notification from the RNC of the user equipment for performing soft handover, stopping the use of the preset control channel default policy to demodulate the to-be-transmitted data from the E-DPDCH.

A fifth aspect of the embodiments of the present invention further provides a user equipment, including:

a receiver, configured to receive an authorization control command from a base station;

a processor, configured to determine a service authorization value according to the authorization control command received by the receiver; determining a size of the transport block according to the service authorization value; determining, according to the size of the transport block and the service authorization value, The set control channel default policy sends the data to be transmitted to the base station.

With reference to the fifth aspect, in a possible implementation, the user equipment, further includes: a transmitter, configured to: if a size of the transport block is different from a size of a maximum transport block corresponding to the service grant value Sending, to the base station, the to-be-transmitted data by using the preset control channel default policy; or

If the size of the transport block minus the value of the sum of the size of the maximum transport block corresponding to the service grant value and the size of the transport block corresponding to the non-scheduled data amount is within the predetermined range, the preset is adopted. The control channel default policy sends the to-be-transmitted data to the base station. With reference to the fifth aspect and the foregoing possible implementation manner, in another possible implementation manner, the processor is further configured to: search an index corresponding to the transport block according to a size of the transport block;

The transmitter is further configured to adopt the preset control channel default policy if a difference between an index of the transport block and an index of a maximum transport block corresponding to the service grant value is within the predetermined range. Transmitting the data to be transmitted to the base station; or

If the index of the transport block minus the value of the index of the sum of the maximum transport block corresponding to the service grant value and the transport block corresponding to the non-scheduled data amount is within the predetermined range, the preset is adopted. The control channel default policy sends the to-be-transmitted data to the base station.

With reference to the fifth aspect and the foregoing possible implementation manner, in another possible implementation manner, the transmitter is further configured to: when the data to be transmitted is sent to the base station, do not send the data to be transmitted Corresponding enhanced dedicated physical control channel E-DPCCH information, where the E-DPCCH information includes: transmission format information E-TFCI, retransmission sequence number RSN, and satisfaction bit HB of the data to be transmitted;

And transmitting, when the data to be transmitted is sent to the base station, the RSN and the HB to the base station by using a dedicated physical control channel DPCCH or an enhanced dedicated physical data channel E-DPDCH corresponding to the to-be-transmitted data.

With reference to the fifth aspect and the foregoing possible implementation manner, in another possible implementation manner, the receiver is further configured to perform, at the processor, determining, according to the transport block size and the service authorization value, The control channel default policy is configured to receive configuration signaling from the control node RNC before the data to be transmitted is sent to the base station, where the configuration signaling is used to allow the user equipment to adopt the preset control channel default. The policy sends the data to be transmitted to the base station; or

Receiving first indication signaling from the base station, where the first indication signaling is used to allow the user equipment to send data to be transmitted to the base station by using the preset control channel default policy. The first indication signaling includes: an indication message sent by the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification. With reference to the fifth aspect and the foregoing possible implementation manner, in another possible implementation manner, the receiver is further configured to receive a negative acknowledgement NACK from the base station;

The transmitter is further configured to: if the receiver receives the NACK from the base station, send the to-be-transmitted data to the base station, and simultaneously use the E-DPCCH to send the RSN and the The HB is sent to the base station, and the E-TFCI is not sent to the base station.

With reference to the fifth aspect and the foregoing possible implementation manner, in another possible implementation manner, the receiver is further configured to receive second indication signaling from a base station;

The processor is further configured to: after the receiver receives the second indication signaling, stop using the preset control channel default policy to send data to be transmitted to the base station; or The transmitter is further configured to send a data completion message to the base station, where the data completion message is used to indicate that the base station stops using the preset control channel default policy to demodulate the to-be-transmitted data from the E-DPDCH. ;

The processor is further configured to: after the sender sends a data completion message to the base station, stop using the preset control channel default policy to send the to-be-transmitted data to the base station or

The processor is further configured to stop using the preset control channel default policy to send data to be sent to the base station when performing soft handover.

A sixth aspect of the embodiments of the present invention provides a base station, including:

a transmitter, configured to send an authorization control command to the user equipment, to enable the user equipment to determine a service authorization value according to the authorization control command;

The processor detects the E-DPCCH information, where the E-DPCCH information includes: E-TFCI, RSN, and HB; if the E-DPCCH is not carried in the E-DPCCH, or the DPCCH or E is detected And carrying the RSN and the HB in the DPDCH, and demodulating the to-be-transmitted data from the E-DPDCH by using a preset control channel default policy.

With reference to the sixth aspect, in a possible implementation, the transmitter is further configured to send the first indication signaling to the user equipment, where the first indication signaling is used to allow the user equipment to adopt The preset control channel default policy sends data to be transmitted to the base station, where An indication signaling includes: an indication message sent over the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification.

With the sixth aspect and the foregoing possible implementation manner, in another possible implementation manner, the transmitter is further configured to send a negative acknowledgement NACK to the user equipment if the processor fails to demodulate, The NACK is used to instruct the user equipment to resend the to-be-transmitted data to the base station.

With reference to the sixth aspect and the foregoing possible implementation manner, in another possible implementation, the transmitter is further configured to send the second indication signaling to the user equipment, where the second indication signaling is used. Instructing the user equipment to stop using the preset control channel default policy to send the to-be-transmitted data to the base station;

The processor is further configured to: after the sending, by the sender, the second indication signaling to the user equipment, stop using the preset control channel default policy to demodulate the to-be-set from the E-DPDCH Transmitting data; or,

The base station may further include:

a receiver, configured to receive a data completion message from the user equipment;

The processor is further configured to: after the receiver receives the data completion message from the user equipment, stop using the preset control channel default policy to send data to be transmitted to the base station; or

The receiver is further configured to receive a notification that the user equipment from the RNC performs soft handover;

The processor is further configured to stop using the preset control channel default policy from the E-DPDCH after the receiver 7 receives the notification that the user equipment from the RNC performs soft handover. Demodulating the data to be transmitted.

The seventh aspect of the present invention further provides an uplink data transmission system, including: the user equipment, configured to receive an authorization control command from a base station, and determine a service authorization value according to the authorization control command; The service authorization value determines a size of the transport block; determining, according to the transport block size and the service authorization value, that a default control channel default policy is adopted The data to be transmitted is transmitted to the base station.

The base station is configured to send an authorization control command to the user equipment, so that the user equipment determines a service authorization value according to the authorization control command, and detects E-DPCCH information, where the E-DPCCH information includes: Transmitting format information E-TFCI, retransmission sequence number RSN, and satisfactory bit HB of the transmission data; if the E-TFCI is not carried in the E-DPCCH, or the DPCCH or the E-DPDCH is detected Carrying the RSN and the HB, demodulating the to-be-transmitted data from the E-DPDCH by using a preset control channel default policy.

The RNC is configured to send the configuration signaling to the user equipment, where the indication signaling is used to allow the user equipment to send data to be transmitted to the base station by using the preset control channel default policy. Sending, by the user equipment, a soft handover notification to the base station, so that the base station stops using the preset control channel default policy to demodulate the to-be-transmitted data from the E-DPDCH.

The uplink data transmission method, the user equipment, and the system provided by the embodiment of the present invention, the user equipment receives the authorization control command from the base station, and determines the service authorization value according to the authorization control command, and then according to the service authorization value, its own remaining power, and the data to be transmitted. The quantity is determined by the size of the transport block, and then the data to be transmitted is sent to the base station by using a preset control channel default policy according to the transport block size and the service grant value. In the prior art, the user equipment must send the E-DPDCH and the E-DPCCH to the base station at the same time, and the user equipment can use the preset control channel default policy to transmit the data when the size of the transport block meets the preset condition. Sending to the base station can reduce the amount of data transmitted in the uplink, thereby reducing the transmission power of the uplink data.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are to be regarded as Other drawings may also be obtained from these drawings without the inventive labor. 1 is a flowchart of an uplink data transmission method according to Embodiment 1 of the present invention; FIG. 2 is a flowchart of an uplink data transmission method according to Embodiment 2 of the present invention;

3 is a flowchart of an uplink data transmission method in Embodiment 3 of the present invention;

4 is a schematic structural diagram of a user equipment according to Embodiment 4 of the present invention;

FIG. 5 is a schematic structural diagram of another user equipment according to Embodiment 4 of the present invention; FIG.

6 is a schematic structural diagram of a base station according to Embodiment 5 of the present invention;

7 is a schematic structural diagram of another base station according to Embodiment 5 of the present invention;

8 is a schematic structural diagram of a user equipment according to Embodiment 6 of the present invention;

9 is a schematic structural diagram of a base station according to Embodiment 7 of the present invention;

Figure 10 is a schematic diagram showing the composition of an uplink data transmission system in Embodiment 8 of the present invention. detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in conjunction with the drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

The various techniques described herein can be used in a variety of wireless communication systems, such as current 2G, 3G communication systems and next generation communication systems, such as Global System for Mobile Communications (GSM), Code Division Multiple Access (CDMA), Code Division Multiple Access system, Time Division Multiple Access (TDMA) system, Wideband Code Division Multiple Access (WCDMA), Frequency Division Multiple Access (FDMA), Frequency Division Multiple Addressing (FDMA) system, Orthogonal Frequency-Division Multiple Access (OFDMA) system, single carrier FDMA (SC-FDMA) system, General Packet Radio Service (GPRS) system, Long Term Evolution (LTE, Long Term Evolution) ) systems, and other such communication systems.

Various aspects are described herein in connection with a terminal and/or base station and/or base station controller. The user equipment, which may be a wireless terminal or a wired terminal, may be a device that provides voice and/or data connectivity to the user, a handheld device with wireless connectivity, or other processing device connected to the wireless modem. Wireless terminal can access the wireless access network

(eg, RAN, Radio Access Network) communicating with one or more core networks, which may be mobile terminals, such as mobile phones (or "cellular" phones) and computers with mobile terminals, for example, may be portable , pocket, handheld, computer built-in or in-vehicle mobile devices that exchange language and/or data with the wireless access network. For example, Personal Communication Service (PCS), Cordless Phone, Session Initiation Protocol (SIP) phone, Wireless Local Loop (WLL) station, Personal Digital Assistant (PDA), etc. . A wireless terminal may also be called a system, a Subscriber Unit, a Subscriber Station, a Mobile Station, a Mobile, a Remote Station, an Access Point, Remote Terminal, Access Terminal, User Terminal, User Agent, User Device, or User Equipment.

A base station (e.g., an access point) can be a device in the access network that communicates over the air interface with the wireless terminal over one or more sectors. The base station can be used to convert the received air frame to the IP packet as a router between the wireless terminal and the rest of the access network, wherein the remainder of the access network can include an Internet Protocol (IP) network. The base station can also coordinate attribute management of the air interface. For example, the base station may be a base station (BTS, Base Transceiver Station) in GSM or CDMA, or may be a base station (NodeB) in WCDMA, or may be an evolved base station in LTE (NodeB or eNB or e-NodeB, evolutional Node B), the invention is not limited.

The base station controller may be a base station controller (BSC) in GSM or CDMA, or a radio network controller (RNC) in WCDMA, which is not limited in the present invention.

In addition, the terms "system" and "network" are often used interchangeably herein. Ben The term "and/or" in the text is merely an association describing the associated object, indicating that there can be three relationships, for example, A and / or B, which can mean: A exists separately, A and B exist simultaneously, and B exists separately. These three situations. In addition, the character "/" in this article generally indicates that the contextual object is an "or" relationship.

Example 1

An embodiment of the present invention provides an uplink data transmission method, as shown in FIG. 1 , including:

101. The user equipment receives an authorization control command from the base station, and determines a service authorization value according to the authorization control command.

The authorization control commands may include: Absolute Grant (AG) and Relative Grant (RG). The user equipment can determine its Service Grant (SG) value based on the AG and RG.

102. The user equipment determines a size of the transport block according to the service authorization value.

The user equipment may determine, according to the SG value, a maximum allowed transmission power that allows the user equipment to perform data transmission, and then determine a size of the transmission block according to the maximum allowed transmission power of the user equipment, the remaining power of the user, and the amount of data to be transmitted.

It should be noted that the remaining power of the user equipment may be the maximum allowed transmission power of the user equipment minus the transmission power remaining of the Dedicated Physical Control Channel (DPCCH) information used by the user equipment for transmitting control information. The transmission power of the control information corresponding to the data to be transmitted and the data to be transmitted. For example, if the maximum allowed transmit power of the user equipment is a, and the transmit power of the user equipment for transmitting DPCCH information is b, the remaining power of the user equipment is “-b. The amount of data to be transmitted is the amount of uplink data that the user equipment will send to the base station.

The specific implementation method for determining the size of the transport block according to the service grant value, the remaining power of the service, and the amount of data to be transmitted may include: determining, according to the service grant value, a maximum allowed transmit power that allows the user equipment to perform data transmission; according to the maximum allowed transmit power, itself. The remaining power and the amount of data to be transmitted determine the size of the transport block.

103. The user equipment determines, according to the transport block size and the service authorization value, that the preset control signal is used. The channel default policy sends the data to be transmitted to the base station.

The determining, by the user equipment, the data to be transmitted to the base station by using the preset control channel default policy according to the transport block size and the service authorization value may include: if the size of the transport block is different from the size of the maximum transport block corresponding to the service grant value. If the value is within the predetermined range, the user equipment sends the data to be transmitted to the base station by using a preset control channel default policy; or, if the size of the transport block is smaller than the size of the maximum transport block corresponding to the service grant value and the amount of non-scheduled data. The value of the sum of the sizes of the corresponding transport blocks is within a predetermined range, and the user equipment sends the data to be transmitted to the base station by using a preset control channel default policy.

In the uplink data transmission method provided by the embodiment of the present invention, the user equipment receives an authorization control command from the base station, determines a service authorization value according to the authorization control command, and then determines a transport block according to the service authorization value, its own remaining power, and the amount of data to be transmitted. The size, according to the transport block size and the service grant value, determines that the data to be transmitted is sent to the base station by using a preset control channel default policy. In the prior art, the user equipment must send the E-DPDCH and the E-DPCCH to the base station at the same time, and the user equipment can use the preset control channel default policy to transmit the data when the size of the transport block meets the preset condition. Sending to the base station can reduce the amount of data transmitted in the uplink, thereby reducing the transmission power of the uplink data.

Example 2

An embodiment of the present invention provides an uplink data transmission method, as shown in FIG. 2, including:

201. The base station sends an authorization control command to the user equipment, so that the user equipment determines the service authorization value according to the authorization control command.

The base station may send the authorization control command to the user equipment, and may determine the service authorization value of the user equipment and the transport block size corresponding to the service authorization value according to the authorization control command.

202. The base station detects the E-DPCCH information.

The E-DPCCH information includes: E-TFCI, RSN, and HB.

203. If the base station detects that the E-TFCH is not carried in the E-DPCCH, or the base station detects that the DPCCH or the E-DPDCH carries the RSN and the HB, the default control channel default is adopted. The policy demodulates the data to be transmitted from the E-DPDCH.

The specific method for the base station to use the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH may be: the base station uses the base station to determine the E-TFCI corresponding to the service authorization value of the user equipment from the E- according to the authorization control command. The data to be transmitted is demodulated in the DPDCH.

The E-TFCI is used to notify the base station of the transmission format of the data to be transmitted (ie, the E-TFCI is used to indicate the transport block size of the data transmitted in the E-DPDCH), indicating the E-DPDCH transport block size, so that the base station can select the corresponding The transport block size demodulates the data to be transmitted from the E-DPDCH; the RSN is used to notify the base station of the Hybrid Automatic Repeat Request (HARQ) of the transport block transmitted on the current E-DPDCH, for example, when transmitting for the first time. RSN=0, the first retransmission RSN=1, the second retransmission RSN=2; HB is used to indicate whether the user equipment is satisfied with the current resource configuration. When the user equipment is satisfied with the current resource configuration, HB is Happy, when the user equipment is not satisfied with the current resource configuration, HB is Unhappy.

After the base station demodulates the data to be transmitted from the E-DPDCH by using a default control channel default policy, the method in this embodiment may further include: if the demodulation fails, the base station sends a negative acknowledgement NACK to The user equipment, the NACK is used to instruct the user equipment to resend the data to be transmitted to the base station.

In the uplink data transmission method provided by the embodiment of the present invention, the base station may send an authorization control command to the user equipment, and then detect the E-DPCCH information. If the base station detects that the E-DPCCH does not carry the E-TFCI, or the base station detects the DPCCH or the E- The RPD carries the RSN and the HB, and the preset control channel default policy is used to demodulate the data to be transmitted from the E-DPDCH. Compared with the prior art, the base station must simultaneously receive the E-DPDCH and the E-DPCCH sent by the user equipment, and the base station can demodulate the data to be transmitted from the E-DPDCH by using a preset control channel default policy, which can reduce the uplink transmission. The amount of data, which in turn reduces the transmission power of the uplink data.

Example 3

An embodiment of the present invention provides an uplink data transmission method. As shown in FIG. 3, the method includes: 301. A user equipment receives an authorization control command from a base station, and determines a service authorization value according to the authorization control command. The authorization control command may include: an AG and an RG. The AG may specify an absolute value of the maximum available resources of the user equipment, for example, a maximum allowed transmission power offset that allows the user equipment to perform data transmission, and the like. RG is the offset (fine adjustment) with respect to AG. It can be three values of "UP", "HOLD" and "DOWN". UP is the upper adjustment, DOWN is the lower adjustment, and HOLD is unchanged. The user equipment stores an SG table. As shown in Table 1, the SG table may include index indexes of multiple SG values and power ratios of data channels to pilot channels corresponding to each SG value (T/P). After the user equipment receives the authorization control command, the SG value corresponding to the AG may be selected in the SG table according to the AG, and the SG value is fine-tuned according to the RG to determine the final SG value.

Table 1

302. The user equipment determines a size of the transport block according to the service authorization value.

The SG value corresponds to one T/P ratio, and the transmit power of the pilot channel is controlled by the base station. For example, the user equipment can increase or decrease the transmit power of the pilot channel according to the command of the base station. Therefore, after determining the transmit power of the pilot channel, the user equipment can calculate the maximum allowed transmit power of the user equipment according to the transmit power and the T/P ratio of the pilot channel, and then compare the transmit power allowed by the user equipment with the remaining power of the user equipment. And selecting the available transmit power as the user equipment with a small power value, and determining the size of the transport block by using the available transmit power and the amount of data to be transmitted. The user equipment may internally store a transport block table, where the user equipment is established according to the reference value of the data volume size received in advance from the base station and the available transmit power correspondence relationship. 303. The user equipment receives the first indication signaling from the base station, or the user equipment receives the configuration signaling from the control node RNC.

The first indication signaling is used to allow the user equipment to send the data to be transmitted to the base station by using a preset control channel default policy. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification. The user equipment may enable the function of transmitting the data to be transmitted to the base station by using a preset control channel default policy according to the first indication signaling. After the user equipment is enabled, the user equipment can determine whether to use the preset control channel default policy to send data to be transmitted to the base station according to whether the transport block size satisfies the preset condition.

It should be noted that the first indication signaling includes, but is not limited to, an indication message sent through the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification, and the other is used to allow the user equipment to adopt the preset. The control channel default policy is to send control data to be transmitted to the base station. This embodiment is not described here.

The configuration signaling is used to allow the user equipment to send the data to be transmitted to the base station by using a preset control channel default policy. Similarly, the user equipment can also enable the function of transmitting the data to be transmitted to the base station by using a preset control channel default policy according to the configuration signaling of the receiving sub-RNC. After the user equipment is enabled, the device can determine whether to use the preset control channel default policy to send data to be transmitted to the base station according to whether the transport block size meets the preset condition.

It should be noted that the step 303 is optional, and the step 303 may not be performed. The user equipment may default to the default control channel. The default data transmission policy to be transmitted is available to the user equipment.

304. The user equipment determines, according to the transport block size and the service authorization value, that the data to be transmitted is sent to the base station by using a preset control channel default policy.

The determining, by the user equipment, the data to be transmitted to the base station by using the preset control channel default policy according to the transport block size and the service authorization value may include: if the size of the transport block is different from the size of the maximum transport block corresponding to the service grant value. The value is within the predetermined range, and the user equipment sends the data to be transmitted to the base station by using a preset control channel default policy. The predetermined range may be preset, for example, the difference between the size of the transport block and the size of the largest transport block corresponding to the service grant value. Can be set within 3 bytes. If the size of the transport block is a, and the size of the largest transport block corresponding to the service grant value is b, the difference between the size of the transport block and the size of the largest transport block corresponding to the service grant value should satisfy the formula 0 ≤ (. -6) ≤3. The difference between the size of the transport block and the size of the maximum transport block corresponding to the service grant value may include: the size of the transport block is equal to the size of the largest transport block corresponding to the service grant value, and the difference is zero.

Further, since there is not only scheduled transmission of data in High-Speed Uplink Packet Access (HSUPA), but also non-scheduled transmission of data. Among them, the non-scheduled transmission of data mainly solves the problem of high-speed data transmission, such as: Signal Radio Bear (SRB) and Traffic Radio Bear (GBR) data. Therefore, determining, by the user equipment, that the data to be transmitted is sent to the base station by using a preset control channel default policy according to the transport block size and the service authorization value may include: if the size of the transport block is smaller than the size of the maximum transport block corresponding to the service grant value, The value of the sum of the sizes of the transport blocks corresponding to the unscheduled data volume is within a predetermined range, and the user equipment sends the data to be transmitted to the base station by using a preset control channel default policy. The predetermined range may be set in advance, and the specific setting method is similar to the setting method of the predetermined range, and details are not described herein again.

It can be understood that, if the size of the transport block is A, the size of the largest transport block corresponding to the service grant value is B, and the size of the transport block corresponding to the non-scheduled data volume is C, the size of the transport block is subtracted from the service grant value. The value of the sum of the size of the largest transport block and the size of the transport block corresponding to the amount of non-scheduled data is B + 0.

Further, in an application scenario of the embodiment, after the user equipment determines the size of the transport block according to the service authorization value, the method in this embodiment may further include: the user equipment searches and transports the block according to the size of the transport block. Corresponding index. The user equipment determines, according to the transport block size and the service authorization value, that the data to be transmitted is sent to the base station by using a preset control channel default policy, and may include: if the index of the transport block is subtracted from the maximum transport block and the non-scheduled data corresponding to the service grant value. The value of the index of the sum of the transport blocks corresponding to the quantity is within a predetermined range, and the user equipment sends the data to be transmitted to the base station by using a preset control channel default policy.

The user equipment can store an E-TFCI table, as shown in Table 2, the E-TFCI The table may contain multiple transport block lengths (ie, E-TFCI) and an index of each E-TFCI.

Table 2

Specifically, the user equipment may query, in Table 2, an index corresponding to the determined transport block size (block length), and an index corresponding to the size (block length) of the maximum transport block corresponding to the service grant value, and calculate two indexes. The difference, when the difference between the two indexes is within a predetermined range, the user equipment may send the data to be transmitted to the base station by using a preset control channel default policy. The preset range of the difference value of the index can also be set in advance. For example, the preset range T of the difference of the index can be set in advance to be 3, that is, 0 ≤ Γ ≤ 3. If the determined index of the transport block 为 is 4, and the index of the maximum transport block B corresponding to the service grant value is 6, and the difference between the two is 2, the user equipment may use the default control channel default policy to transmit the data to be transmitted. Send to the base station.

It should be noted that, in this application scenario, the predetermined range is a predetermined range of the index difference, and the predetermined range of the index difference reflects when the base station attempts to demodulate the data to be transmitted by using the preset control channel default policy. The number of transport blocks that can be used. Specifically, the difference between the index of the transport block and the index of the maximum transport block corresponding to the service grant value may include: the difference between the index of the transport block and the index of the largest transport block corresponding to the service grant value is zero, that is, The index of the transport block is equal to the index of the largest transport block corresponding to the service grant value.

Further, when there is a non-scheduled transmission of data in the HSUPA, the user equipment determines, according to the transport block size and the service authorization value, that the data to be transmitted is sent to the base station by using a preset control channel default policy, which may include: Subtracting the value of the index of the sum of the maximum transport block corresponding to the service grant value and the transport block corresponding to the non-scheduled data amount is within a predetermined range, the user equipment The data to be transmitted is sent to the base station by using a preset control channel default policy.

The user equipment sends the data to be transmitted to the base station by using a default control channel default policy, which may include: when the data to be transmitted is sent to the base station, the data corresponding to the data to be transmitted is not sent.

E-DPCCH information, the E-DPCCH information includes: E-TFCI, RSN, and HB; or, when transmitting data to be transmitted to the base station, the RSN and the HB are transmitted to the base station through the DPCCH or E-DPDCH corresponding to the data to be transmitted.

Further, when the base station cannot correctly receive and demodulate the uplink data from the user equipment from the E-DPDCH, a Negative Acknowledgment (NACK) may be sent to the user equipment, where the NACK is used to indicate that the data to be transmitted is retransmitted. To the base station. After receiving the NACK from the base station, the user equipment may resend the data to be transmitted to the base station according to the indication of the NACK.

It should be noted that, the manner in which the user equipment retransmits the data to be transmitted to the base station is different from the manner in which the user equipment sends the data to be transmitted to the base station for the first time, and the user equipment can retransmit the data to be transmitted to the base station, and can pass the E-DPCCH. Sending the RSN and the HB to the base station, but not transmitting the E-TFCL instead of transmitting the E-DPCCH information corresponding to the data to be transmitted, or the DPCCH or E- corresponding to the data to be transmitted, when transmitting the data to be transmitted to the base station The DPDCH transmits the RSN and HB to the base station.

Optionally, if the user equipment is connected to multiple cells at the same time, before the data to be transmitted is sent to the base station by using the preset control channel default policy, the user equipment may send the control information carrying the HB to Happy to the base station, so that multiple cells are used. The base station can authorize the value according to the HB synchronization service.

305. The base station detects the E-DPCCH information.

The user equipment sends the data to be transmitted to the base station by using the preset control channel default policy. The user equipment does not use the default control channel default policy to send the data to be transmitted. To the base station. In step 304, the user equipment sends the data to be transmitted to the base station by using a preset control channel default policy, and may include three different sending methods. That is, when the user equipment sends the data to be transmitted to the base station, it does not send and wait. Transmitting the E-DPCCH information corresponding to the data; when transmitting the data to be transmitted to the base station, the user equipment sends the RSN and the HB to the base station by using the DPCCH or the E-DPDCH corresponding to the data to be transmitted; if the user equipment receives the negative response from the base station NACK, the user equipment sends the data to be transmitted to the base station, and simultaneously transmits the RSN and the HB to the base station through the E-DPCCH, and does not send the E-TFCI to the base station. The base station cannot determine which one of the sending methods is used by the user equipment to send the data to be transmitted. Therefore, the detecting the E-DPCCH information by the base station may include: detecting whether the E-TFCI carries the E-TFCI, and detecting whether the DPCCH or the E-DPDCH is carried. RSN and HB. If it is detected that the E-DPCCH does not carry the RSN and the HB, and does not carry the E-TFCI, or detects that the DPCCH or the E-DPDCH carries the RSN and the HB, the base station may determine that the data to be transmitted is preset for the user equipment. The data transmitted by the control channel default policy for the first time; if the E-DPCCH is detected to carry the RSN and the HB, but the E-TFCI is not carried, the base station can determine that the data to be transmitted is the default control channel for the user equipment. The data that the provincial policy resends.

306. If the base station detects that the E-TFCH does not carry the E-TFCI, or detects that the DPCCH or the E-DPDCH carries the RSN and the HB, the preset control channel default policy is used to demodulate the to-be-transmitted from the E-DPDCH. data.

The user equipment uses a preset control channel default policy to send the data to be transmitted to the base station, and the base station uses the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH, which may include: The base station determines, according to the authorization control command, that the E-TFCI corresponding to the service authorization value of the user equipment demodulates the data to be transmitted from the E-DPDCH. The E-TFCI is a transmission format of the data to be transmitted, and is used to indicate the transport block size corresponding to the data transmitted in the E-DPDCH. The specific demodulation method may include: demodulating the to-be-transmitted data from the E-DPDCH by using a difference in the size of the maximum transport block corresponding to the service grant value within a predetermined range; or, using a subtraction service grant value corresponding to The size of the maximum transport block and the size of the transport block corresponding to the non-scheduled data amount are the values of the transport block within a predetermined range, and the data to be transmitted is demodulated from the E-DPDCH.

It should be noted that the base station may calculate the service authorization value of the user equipment according to the AG and RG values corresponding to the user equipment. The method and user for calculating the service authorization value of the user equipment by the base station The method for calculating the service authorization value of the device is similar, and is not described in this embodiment. The base station detects that the E-TFCI is not carried in the E-DPCCH, and the base station detects that the E-DPCCH does not carry the RSN and the HB, and does not carry the E-TFCI, and the base station detects that the E-DPCCH carries the RSN and the HB, but E-TFCI is not carried. When the base station detects that the E-DPCCH carries the RSN and the HB but does not carry the E-TFCI, the base station may determine that the data to be transmitted is data that is retransmitted by the user equipment.

Further, after the base station demodulates the data to be transmitted from the E-DPDCH by using a preset control channel default policy, the base station may send the second indication signaling to the user equipment, and stop using the preset control channel default policy. The data to be transmitted is demodulated from the E-DPDCH. The second indication signaling is used to indicate that the user equipment stops using the preset control channel default policy to send the data to be transmitted to the base station. In an application scenario of this embodiment, the second indication signaling may be a message that the base station fails to demodulate the data to be transmitted from the E-DPDCH at least once (ie, NACK). In this scenario, if the user equipment receives the second indication signaling, the data to be transmitted may be retransmitted to the base station by using the preset default control channel default policy.

Alternatively, after the user equipment sends all the data to be transmitted to the base station, the user equipment may send a data completion message to the base station, stop using the preset control channel default policy, and send the data to be transmitted to the base station, and the data completion message is used to indicate The base station is stopped from demodulating the data to be transmitted from the E-DPDCH by using a preset control channel default policy. The user equipment may include the message that the data is sent in the scheduling information, and send the message to the base station.

It should be noted that, in another application scenario of the embodiment, after the user equipment sends all the data to be transmitted and sends the data to the base station, the user equipment may stop using the preset control channel default policy to send the data to be transmitted to the base station. , does not send a data completion message to the base station. The base station can detect the E-DPCCH information. If the user equipment detects that the E-DPCCH carries the E-TFCI, the RSN, and the HB, the user equipment stops using the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH.

Or, when the user equipment performs the soft handover, the user equipment stops using the preset control channel default policy to send the data to be transmitted to the base station. At the same time, when the user equipment performs soft handover, the base The station may receive a notification that the user equipment from the RNC performs soft handover, and according to the soft handover notification, stops using the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH. Specifically, when the user equipment performs soft handover, the user equipment performs an update of the activation set. After updating the active set, the user equipment sends an activation set update complete message to the RNC, so that the RNC sends the user equipment to perform soft handover notification to the base station, so that the base station stops using the preset control channel default policy to solve the problem from the E-DPDCH. Transfer data.

Example 4

An embodiment of the present invention provides a user equipment, as shown in FIG. 4, including: a first receiving unit 41, a determining unit 42, and a sending unit 43.

The first receiving unit 41 is configured to receive an authorization control command from the base station, and determine a service authorization value according to the authorization control command.

The determining unit 42 is configured to determine a size of the transport block according to the service authorization value determined by the first receiving unit 31.

The sending unit 43 is configured to determine, according to the transport block size and the service authorization value, that the to-be-transmitted data is sent to the base station by using a preset control channel default policy.

Further, in an application scenario of the embodiment, the sending unit 43 is further configured to: if a difference between a size of the transport block and a size of a maximum transport block corresponding to the service grant value is at a predetermined time In the range, the preset control channel default policy is used to send the to-be-transmitted data to the base station; or If the size of the transport block minus the value of the sum of the size of the maximum transport block corresponding to the service grant value and the size of the transport block corresponding to the non-scheduled data amount is within the predetermined range, the preset is adopted. The control channel default policy sends the to-be-transmitted data to the base station.

Further, in an application scenario of the embodiment, the user equipment may further include: a searching unit 46.

The searching unit 46 is configured to perform, after the transmitting unit 43 performs, determining, according to the transport block size and the service authorization value, that the data to be transmitted is sent to the base station by using a preset control channel default policy, The size of the transport block looks up an index corresponding to the transport block.

In the application scenario, the sending unit 43 is further configured to: if the difference between the index of the transport block and the index of the maximum transport block corresponding to the service grant value is within the predetermined range, Presetting a control channel default policy to send the to-be-transmitted data to the base station; or

Further, the sending unit 43 is further configured to: when transmitting the to-be-transmitted data to the base station, not sending an enhanced dedicated physical control channel E-DPCCH information corresponding to the to-be-transmitted data, the E-DPCCH The information includes: transmission format information of the data to be transmitted TF-TFCL·retransmission sequence number RSN and satisfaction bit HB; or

Further, as shown in FIG. 5, the user equipment may further include: a second receiving unit

44.

a second receiving unit 44, configured to: before the sending unit 43 performs determining, according to the transport block size and the service authorization value, that a data to be transmitted is sent to the base station by using a preset control channel default policy, receiving Control signaling of the control node RNC, the configuration signaling The user equipment is allowed to use the preset control channel default policy to send data to be transmitted to the base station; or

Receiving first indication signaling from the base station, where the first indication signaling is used to allow the user equipment to send data to be transmitted to the base station by using the preset control channel default policy. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification.

Further, the sending unit 43 is further configured to: if the user equipment receives a negative acknowledgement NACK from the base station, the user equipment sends the to-be-transmitted data to the base station, and simultaneously passes the E The DPCCH transmits the RSN and the HB to the base station, and does not transmit the E-TFCI to the base station.

Further, the user equipment may further include: a stopping unit 45.

The stopping unit 45 is configured to: after the sending unit 43 performs the determining, according to the transport block size and the service authorization value, that the data to be transmitted is sent to the base station by using a preset control channel default policy, After the second indication signaling from the base station, stop using the preset control channel default policy to send data to be transmitted to the base station; or

It should be noted that the specific description of some of the functional modules in the user equipment provided by the embodiment of the present invention may be referred to the corresponding content in the other embodiments.

The user equipment provided by the embodiment of the present invention may receive an authorization control command from the base station, determine a service authorization value according to the authorization control command, and then determine a size of the transmission block according to the service authorization value, its own remaining power, and the amount of data to be transmitted. The data to be transmitted is transmitted to the base station by using a preset control channel default policy according to the transport block size and the service grant value. With existing In the technology, the user equipment must simultaneously send the E-DPDCH and the E-DPCCH to the base station. When the size of the transport block meets the preset condition, the user equipment may send the data to be transmitted to the base station by using a preset control channel default policy. , can reduce the amount of data transmitted in the uplink, thereby reducing the transmission power of the uplink data.

Example 5

The embodiment of the present invention provides a base station, as shown in FIG. 6, including: a first sending unit 51, a first detecting unit 52, and a demodulating unit 53.

The first sending unit 51 is configured to send an authorization control command to the user equipment, so that the user equipment determines a service authorization value according to the authorization control command.

The detecting unit 52 is configured to detect E-DPCCH information, where the E-DPCCH information includes: transmission format information of the to-be-transmitted data, E-TFCI, retransmission sequence number, RSN, and satisfaction bit.

The demodulation unit 53 is configured to: if the first detecting unit 52 detects that the E-TFCI is not carried in the E-DPCCH, or the detecting unit detects that the DPCCH or the E-DPDCH is carried And the RSN and the HB, the preset control channel default policy is used to demodulate the to-be-transmitted data from the E-DPDCH.

Further, as shown in FIG. 7, the base station may further include: a second sending unit 54. a second sending unit 54 , configured to send first indication signaling to the user equipment after the first sending unit 51 sends an authorization control command to the user equipment, where the first indication signaling is used to allow The user equipment sends the data to be transmitted to the base station by using the preset control channel default policy, where the first indication signaling includes: an indication message sent by using an HS-SCCH channel, and/or an uplink data acknowledgement message. , and/or process activation notifications.

Further, the base station may further include: a third sending unit 55.

a third sending unit 55, configured to perform, in the demodulating unit 53, if the detecting unit detects that the E-DPCCH information is not carried in the E-DPCCH, or the detecting unit detects the DPCCH Or the E-DPDCH carries the RSN and the HB, and the preset control channel default policy is used to demodulate the to-be-transmitted data from the E-DPDCH. Then, if the demodulation fails, a negative acknowledgement NACK is sent to the user equipment, and the NACK is used to instruct the user equipment to resend the to-be-transmitted data to the base station.

Further, the base station may further include: a stopping unit 56.

The stopping unit 56 is configured to perform, at the demodulation unit 53, if the base station detects that the E-DPCCH information is not carried in the E-DPCCH, or the base station detects the DPCCH or the E-DPDCH And carrying the RSN and the HB, after demodulating the data to be transmitted from the E-DPDCH by using a preset control channel default policy, after sending the second indication signaling to the user equipment, Stopping, by using the preset control channel default policy, the data to be transmitted is demodulated from the E-DPDCH, where the second indication signaling is used to indicate that the user equipment stops using the preset control channel. The default policy sends the data to be transmitted to the base station; or

It should be noted that the specific description of some of the functional modules in the base station provided by the embodiment of the present invention may be referred to the corresponding content in other embodiments, and details are not described in detail in this embodiment.

In the base station provided by the embodiment of the present invention, the base station may send an authorization control command to the user equipment, and then detect the E-DPCCH information, if the base station detects that the E-DPCCH does not carry the E-TFCI, or the base station detects that the DPCCH or the E-DPDCH is carried. With RSN and HB, the preset control channel default policy is used to demodulate the data to be transmitted from the E-DPDCH. Compared with the prior art, the base station must receive the E-DPDCH and the E-DPCCH sent by the user equipment at the same time, and the base station can use the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH, which can reduce the uplink transmission. The amount of data, which in turn reduces the transmission power of the uplink data.

Example 6

The embodiment of the present invention provides a user equipment, as shown in FIG. 8, including: a receiver 61, a processor 62, and a transmitter 63. The receiver 61 is configured to receive an authorization control command from the base station.

The processor 62 is configured to determine, according to the authorization control command received by the receiver 61, a service authorization value, determine a size of the transport block according to the service authorization value, and determine, according to the size of the transport block and the service authorization value. The data to be transmitted is transmitted to the base station by using a preset control channel default policy.

Further, in an application scenario of the embodiment, the user equipment may further include: a sender 63.

The transmitter 63 is configured to: if the difference between the size of the transport block and the size of the maximum transport block corresponding to the service grant value is within a predetermined range, use the preset control channel default policy to Transmitting data to the base station; or

Further, in another application scenario of the embodiment, the processor 62 is further configured to search for an index corresponding to the transport block according to the size of the transport block.

In the application scenario, the transmitter 63 is further configured to: if the difference between the index of the transport block and the index of the maximum transport block corresponding to the service grant value is within the predetermined range, Presetting a control channel default policy to send the to-be-transmitted data to the base station; or

Further, the transmitter 63 is further configured to: when transmitting the to-be-transmitted data to the base station, not sending an enhanced dedicated physical control channel E-DPCCH information corresponding to the to-be-transmitted data, the E-DPCCH The information includes: a transport format information E-TFCI, a retransmission sequence number RSN, and a satisfaction bit HB of the data to be transmitted; or, when transmitting the to-be-transmitted data to the base station, by using a dedicated physics corresponding to the to-be-transmitted data Control channel DPCCH or enhanced dedicated A physical data channel E-DPDCH transmits the RSN and the HB to the base station.

Further, the receiver 61 is further configured to: at the processor 62, perform, according to the transport block size and the service authorization value, determine, by using a preset control channel default policy, to send data to be transmitted to the base station. The configuration signaling is received from the control node RNC, and the configuration signaling is used to allow the user equipment to send data to be transmitted to the base station by using the preset control channel default policy; or

Further, the receiver 61 is further configured to receive a negative acknowledgement NACK from the base station.

The transmitter 63 is further configured to: if the receiver 61 receives the NACK from the base station, the user equipment sends the to-be-transmitted data to the base station, and simultaneously passes the E-DPCCH Sending the RSN and the HB to the base station, and not transmitting the E-TFCI to the base station.

Further, the receiver 61 is further configured to receive second indication signaling from the base station. The processor 62 is further configured to: after the receiver 61 receives the second indication signaling, stop using the preset control channel default policy to send data to be transmitted to the base station.

The transmitter 63 is further configured to send a data completion message to the base station, where the data completion message is used to instruct the base station to stop demodulating the E-DPDCH from the E-DPDCH by using the preset control channel default policy. Data to be transmitted.

The processor 62 is further configured to stop sending, by using the preset control channel default policy, the to-be-transmitted data to the base station after the transmitter 63 sends a data completion message to the base station.

The processor 62 is further configured to stop using the preset control channel default policy to send data to be transmitted to the base station when performing soft handover. It should be noted that the specific description of some of the functional modules in the user equipment provided by the embodiment of the present invention may be referred to the corresponding content in other embodiments, and details are not described herein again in this embodiment.

The user equipment provided by the embodiment of the present invention receives an authorization control command from a base station, determines a service authorization value according to the authorization control command, and then determines a size of the transmission block according to the service authorization value, its own remaining power, and the amount of data to be transmitted, and then according to the The transport block size and the service grant value determine that the data to be transmitted is transmitted to the base station using a preset control channel default policy. In the prior art, the user equipment must simultaneously transmit the E-DPDCH and the E-DPCCH to the base station, and the user equipment can use the preset control channel default policy to transmit the data when the size of the transport block meets the preset condition. Sending to the base station can reduce the amount of data transmitted in the uplink, thereby reducing the transmission power of the uplink data.

Example 7

A base station is provided in the city, as shown in FIG. 9, and includes: a transmitter 71 and a processor 72. The transmitter 71 is configured to send an authorization control command to the user equipment, so that the user equipment determines the service authorization value according to the authorization control command.

The processor 72 is configured to detect the E-DPCCH information, where the E-DPCCH information includes: E-TFCI, RSN, and HB; if the E-DPCCH is not carried in the E-DPCCH, or the DPCCH is detected or And carrying the RSN and the HB in the E-DPDCH, and demodulating the to-be-transmitted data from the E-DPDCH by using a preset control channel default policy.

Further, the transmitter 71 is further configured to send the first indication signaling to the user equipment, where the first indication signaling is used to allow the user equipment to adopt the preset control channel default policy. The data to be transmitted is transmitted to the base station. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data acknowledgement message, and/or a process activation notification.

Further, the transmitter 71 is further configured to: if the processor 72 fails to demodulate, send a negative acknowledgement NACK to the user equipment, where the NACK is used to instruct the user equipment to resend the to-be-transmitted data. To the base station.

Further, the transmitter 71 is further configured to send the second indication signaling to the user setting The second indication signaling is used to indicate that the user equipment stops using the preset control channel default policy to send the to-be-transmitted data to the base station.

The processor 72 is further configured to: after the transmitter 71 sends the second indication signaling to the user equipment, stop using the preset control channel default policy to demodulate from the E-DPDCH. The data to be transmitted is mentioned.

The base station may further include: a receiver 73.

The receiver 73 is configured to receive a data completion message from the user equipment.

The processor 72 is further configured to stop sending the data to be transmitted to the base station by using the preset control channel default policy after the receiver 73 receives the data completion message from the user equipment.

The receiver 71 is further configured to receive a notification that the user equipment from the RNC performs soft handover.

The processor 72 is further configured to stop using the preset control channel default policy from the E- after the receiver 71 receives the notification that the user equipment from the RNC performs soft handover. The data to be transmitted is demodulated in the DPDCH.

Example 8

An embodiment of the present invention provides an uplink data transmission system, as shown in FIG. 10, including: a user equipment 81, a base station 82, and an RNC 83. The user equipment 81 is configured to receive an authorization control command from the base station 82, and determine a service authorization value according to the authorization control command; determine a size of the transport block according to the service authorization value; according to the transport block size and the The service grant value determines that the data to be transmitted is transmitted to the base station 82 using a preset control channel default policy.

The base station 82 is configured to send an authorization control command to the user equipment 81, so that the user equipment 81 determines a service authorization value according to the authorization control command; and detects E-DPCCH information, where the E-DPCCH information The method includes: a transport format information E-TFCI, a retransmission sequence number RSN, and a satisfaction bit HB of the data to be transmitted; if the E-TFCI is not carried in the E-DPCCH, or the DPCCH or the E is detected And carrying the RSN and the HB in the DPDCH, and demodulating the to-be-transmitted data from the E-DPDCH by using a preset control channel default policy.

The RNC 83 is configured to send the configuration signaling to the user equipment 81, where the indication signaling is used to allow the user equipment 81 to send data to be transmitted to the host by using the preset control channel default policy. Transmitting the base station 82; transmitting the notification that the user equipment 81 performs soft handover to the base station 82, so that the base station 82 stops using the preset control channel default policy to demodulate the E-DPDCH from the Data to be transmitted.

It should be noted that, in the uplink data transmission system provided by the embodiment of the present invention, the specific description of the user equipment 81, the base station 82, and the RNC 83 may refer to the corresponding content in other embodiments, and details are not described herein again in this embodiment.

In the uplink data transmission system provided by the embodiment of the present invention, the user equipment receives the authorization control command from the base station, determines the service authorization value according to the authorization control command, and then determines the transmission block according to the service authorization value, its own remaining power, and the amount of data to be transmitted. The size, according to the transport block size and the service grant value, determines that the data to be transmitted is sent to the base station by using a preset control channel default policy. In the prior art, the user equipment must send the E-DPDCH and the E-DPCCH to the base station at the same time, and the user equipment can use the preset control channel default policy to transmit the data when the size of the transport block meets the preset condition. Sending to the base station can reduce the amount of data transmitted in the uplink, thereby reducing the transmission power of the uplink data. It will be clearly understood by those skilled in the art that for the convenience and brevity of the description, only the division of each functional module described above is exemplified. In practical applications, the above function assignment can be completed by different functional modules as needed. The internal structure of the device is divided into different functional modules to perform all or part of the functions described above. For the specific working process of the system, the device and the unit described above, refer to the corresponding process in the foregoing method embodiment, and details are not described herein again.

In the several embodiments provided herein, it should be understood that the disclosed systems, devices, and methods may be implemented in other ways. For example, the device embodiments described above are merely illustrative. For example, the division of the modules or units is only a logical function division. In actual implementation, there may be another division manner, for example, multiple units or components may be used. Combined or can be integrated into another system, or some features can be ignored, or not executed. In addition, the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be electrical, mechanical or otherwise.

The units described as separate components may or may not be physically separated, and the components displayed as the units may or may not be physical units, that is, may be located at one place, or may be distributed to a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit. The above integrated unit can be implemented in the form of hardware or in the form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a standalone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention, which is essential or contributes to the prior art, or all or part of the technical solution, may be embodied in the form of a software product stored in a storage medium. , including instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) or a processor to execute the present invention All or part of the steps of the methods described in the various examples. The foregoing storage medium includes: a U disk, a removable hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk or an optical disk, and the like, which can store program codes. .

The above is only the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of changes or substitutions within the technical scope of the present invention. It should be covered by the scope of the present invention. Therefore, the scope of the invention should be determined by the scope of the appended claims.

Claims

claims

1. An uplink data transmission method, characterized by including:

The user equipment receives the authorization control command from the base station and determines the service authorization value according to the authorization control command;

The user equipment determines the size of the transmission block according to the service authorization value;

The user equipment determines to use a preset control channel default policy to send the data to be transmitted to the base station according to the transport block size and the service authorization value.

2. The uplink data transmission method according to claim 1, characterized in that, the user equipment determines to use a preset control channel default policy according to the transmission block size and the service authorization value to send the data to be transmitted to The base station includes:

If the difference between the size of the transport block and the size of the largest transport block corresponding to the service authorization value is within a predetermined range, the user equipment uses the preset control channel default policy to transmit the data to be transmitted. Sent to the base station; or,

If the value of the size of the transport block minus the sum of the size of the maximum transport block corresponding to the service authorization value and the size of the transport block corresponding to the non-scheduled data amount is within the predetermined range, the user equipment uses the The preset control channel default policy sends the data to be transmitted to the base station.

3. The uplink data transmission method according to claim 1, characterized in that, after the user equipment determines the size of the transmission block according to the service authorization value, the method further includes: the user equipment determines the size of the transmission block according to the transmission The block size searches for the index corresponding to the transport block; the user equipment determines to use the preset control channel default policy to send the data to be transmitted to the base station according to the transport block size and the service authorization value, including :

If the difference between the index of the transport block and the index of the largest transport block corresponding to the service authorization value is within a predetermined range, the user equipment uses the preset control channel default policy to transmit the data to be transmitted. Sent to the base station; or,

If the value of the index of the transport block minus the index of the sum of the maximum transport block corresponding to the service authorization value and the transport block corresponding to the non-scheduled data amount is within the predetermined range, the user equipment then The data to be transmitted is sent to the base station using the preset control channel default policy.

4. The uplink data transmission method according to claims 1-3, characterized in that the user equipment uses a preset control channel default policy to send the data to be transmitted to the base station, including: the user equipment in When sending the data to be transmitted to the base station, the enhanced dedicated physical control channel E-DPCCH information corresponding to the data to be transmitted is not sent. The E-DPCCH information includes: transmission format information E-TFCI of the data to be transmitted. , retransmit the sequence number RSN and the satisfaction bit HB; or,

When the user equipment sends the data to be transmitted to the base station, the user equipment sends the RSN and the HB to the base station through the dedicated physical control channel DPCCH or the enhanced dedicated physical data channel E-DPDCH corresponding to the data to be transmitted. the base station.

5. The uplink data transmission method according to any one of claims 1 to 4, characterized in that, when the user equipment determines to use a preset control channel default based on the transport block size and the service authorization value. Before the policy sends the data to be transmitted to the base station, the method further includes: the user equipment receives configuration signaling from the control node RNC, the configuration signaling is used to allow the user equipment to adopt the preset The control channel default policy sends the data to be transmitted to the base station; or,

The user equipment receives the first instruction signaling from the base station, and the first instruction signaling is used to allow the user equipment to use the preset control channel default policy to send the data to be transmitted to the Describe the base station. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data confirmation message, and/or a process activation notification.

6. The uplink data transmission method according to any one of claims 1 to 5, characterized in that the user equipment uses a preset control channel default policy to send the data to be transmitted to the base station, and further includes:

If the user equipment receives a negative response NACK from the base station, the user equipment sends the data to be transmitted to the base station, and at the same time sends the RSN and HB to the base station through the E-DPCCH. The base station does not send the E-TFCI to the base station.

7. The uplink data transmission method according to any one of claims 1-6, characterized in that, After the user equipment determines to use the preset control channel default policy to send the data to be transmitted to the base station according to the transport block size and the service authorization value, the method further includes: the user equipment receives After the second instruction signaling from the base station, stop using the preset control channel default policy to send data to be transmitted to the base station; or

After the user equipment sends a data completion message to the base station, it stops sending the data to be transmitted to the base station using the preset control channel default policy. The data completion message is used to instruct the base station to stop. Use the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH; or,

When performing soft handover, the user equipment stops using the preset control channel default policy to send data to be transmitted to the base station.

8. An uplink data transmission method, characterized by including:

The base station sends an authorization control command to the user equipment, so that the user equipment determines the service authorization value according to the authorization control command;

The base station detects E-DPCCH information, where the E-DPCCH information includes: E-TFCI, RSN and HB;

If the base station detects that the E-DPCCH does not carry the E-TFCI, or the base station detects that the DPCCH or E-DPDCH carries the RSN and the HB, the preset control channel gap is used. The provincial strategy demodulates the data to be transmitted from the E-DPDCH.

9. The uplink data transmission method according to claim 8, characterized in that, after the base station sends an authorization control command to the user equipment, the method further includes:

The base station sends first instruction signaling to the user equipment, and the first instruction signaling is used to allow the user equipment to use the preset control channel default policy to send data to be transmitted to the base station, The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data confirmation message, and/or a process activation notification.

10. The uplink data transmission method according to any one of claims 8 or 9, characterized in that, at the base station, a preset control channel default policy is used to demodulate the to-be-transmitted signal from the E-DPDCH. After the data, the method also includes: If the demodulation fails, the base station sends a negative response NACK to the user equipment, and the NACK is used to instruct the user equipment to resend the data to be transmitted to the base station.

11. The uplink data transmission method according to any one of claims 8-10, characterized in that if the base station detects that the E-DPCCH does not carry the E-DPCCH information, or the The base station detects that the DPCCH or the E-DPDCH carries the RSN and the HB, and then uses the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH, The method also includes:

After the base station sends the second indication signaling to the user equipment, it stops using the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH, and the second indication signaling For instructing the user equipment to stop sending the data to be transmitted to the base station using the preset control channel default policy; or,

After receiving the data completion message from the user equipment, the base station stops sending data to be transmitted to the base station using the preset control channel default policy; or,

After receiving the notification from the RNC that the user equipment performs soft handover, the base station stops using the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH.

12. A user equipment, characterized by: including:

The first receiving unit is used to receive the authorization control command from the base station and determine the service authorization value according to the authorization control command;

Determining unit, configured to determine the size of the transport block according to the service authorization value;

A sending unit, configured to determine, based on the transport block size and the service authorization value, to use a preset control channel default policy to send the data to be transmitted to the base station.

13. The user equipment according to claim 12, wherein the sending unit is further configured to: if the difference between the size of the transport block and the size of the largest transport block corresponding to the service authorization value is within a predetermined range within, then use the preset control channel default policy to send the data to be transmitted to the base station; or,

If the size of the transport block minus the size of the largest transport block corresponding to the service authorization value If the sum of the sizes of the transport blocks corresponding to the non-scheduled data amount is within the predetermined range, the data to be transmitted is sent to the base station using the preset control channel default policy.

14. The user equipment according to claim 12 or 13, further comprising: a search unit, configured to perform, in the sending unit, determining the use of a preset according to the transport block size and the service authorization value. After the control channel default policy sends the data to be transmitted to the base station, search for the index corresponding to the transport block according to the size of the transport block;

The sending unit is also configured to use the preset control channel default policy to send all transmission blocks if the difference between the index of the transport block and the index of the largest transport block corresponding to the service authorization value is within a predetermined range. The data to be transmitted is sent to the base station; or,

If the index of the transport block minus the index of the sum of the maximum transport block corresponding to the service authorization value and the transport block corresponding to the non-scheduled data amount is within the predetermined range, then the preset control channel is used The default policy sends the data to be transmitted to the base station.

15. The user equipment according to claims 12-14, characterized in that the sending unit is further configured to not send the enhancement corresponding to the data to be transmitted when sending the data to be transmitted to the base station. Dedicated physical control channel E-DPCCH information, the E-DPCCH information includes: transmission format information E-TFCI of the data to be transmitted, retransmission sequence number RSN and satisfaction bit HB; or,

When sending the data to be transmitted to the base station, the RSN and the HB are sent to the base station through the dedicated physical control channel DPCCH or the enhanced dedicated physical data channel E-DPDCH corresponding to the data to be transmitted.

16. The user equipment according to any one of claims 12-15, further comprising:

The second receiving unit is configured to receive the data from Configuration signaling of the control node RNC, the configuration signaling is used to allow the user equipment to use the preset control channel default policy to send data to be transmitted to the base station; or,

Receive a first indication signaling from the base station, the first indication signaling is used to allow the The user equipment uses the preset control channel default policy to send the data to be transmitted to the base station. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data confirmation message, and/or a process activation notification.

17. The user equipment according to any one of claims 12 to 16, characterized in that, the sending unit is also configured to: if the user equipment receives a negative response NACK from the base station, the user equipment Then the data to be transmitted is sent to the base station, and the RSN and the HB are sent to the base station through the E-DPCCH, and the E-TFCI is not sent to the base station.

18. The user equipment according to any one of claims 12-17, further comprising:

A stopping unit, configured to receive a message from the base station after the sending unit determines according to the transport block size and the service authorization value to use a preset control channel default policy to send the data to be transmitted to the base station. After the second instruction signaling, stop using the preset control channel default policy to send the data to be transmitted to the base station; or,

After sending the data completion message to the base station, stop using the preset control channel default policy to send data to be transmitted to the base station. The data completion message is used to instruct the base station to stop using the preset control channel default policy. The control channel default policy demodulates the data to be transmitted from the E-DPDCH; or,

When performing soft handover, stop using the preset control channel default policy to send data to be transmitted to the base station.

19. A base station, characterized by including:

A first sending unit, configured to send an authorization control command to the user equipment, so that the user equipment determines the service authorization value according to the authorization control command;

A detection unit, used to detect E-DPCCH information, wherein the E-DPCCH information includes: the transmission format information E-TFCI of the data to be transmitted, the retransmission sequence number RSN and the satisfactory bit HB; a demodulation unit, used if If the detection unit detects that the E-DPCCH does not carry the E-TFCI, or the detection unit detects that the DPCCH or the E-DPDCH carries the RSN and the HB, the preset The control channel default policy is from the E-DPDCH Demodulate the data to be transmitted.

20. The base station according to claim 19, further comprising:

The second sending unit is configured to send a first instruction signaling to the user equipment after the first sending unit sends an authorization control command to the user equipment. The first instruction signaling is used to allow the user to The device uses the preset control channel default policy to send the data to be transmitted to the base station. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data confirmation message, and /or process activation notification.

21. The base station according to claim 19 or 20, further comprising: a third sending unit, configured to use a preset control channel default strategy in the demodulation unit to decode the E-DPDCH from the E-DPDCH. After modulating the data to be transmitted, if the demodulation fails, a negative response NACK is sent to the user equipment. The NACK is used to instruct the user equipment to resend the data to be transmitted to the base station.

22. The base station according to claims 19-21, further comprising: a stopping unit, configured to execute in the demodulation unit if the base station detects that the E-DPCCH does not carry the E-DPCCH. TFCI, or the base station detects that the DPCCH or the E-DPDCH carries the RSN and the HB, then the preset control channel default strategy is used to demodulate the to-be-received signal from the E-DPDCH. After transmitting the data, after sending the second indication signaling to the user equipment, stopping using the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH, the second indication signaling The order is used to instruct the user equipment to stop sending data to be transmitted to the base station using the preset control channel default policy; or,

After receiving the data completion message from the user equipment, stop using the preset control channel default policy to send data to be transmitted to the base station; or,

After receiving the notification from the RNC that the user equipment performs soft handover, stop using the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH.

23. A user equipment, characterized by: including:

Receiver, used to receive authorization control commands from the base station;

A processor, configured to determine a service authorization value according to the authorization control command received by the receiver; determine a size of a transmission block according to the service authorization value; determine a predetermined value according to the size of the transmission block and the service authorization value. The default policy of the control channel is set to send the data to be transmitted to the base station.

24. The user equipment according to claim 23, further comprising: a transmitter, configured to: if the difference between the size of the transport block and the size of the largest transport block corresponding to the service authorization value is within a predetermined range within, then use the preset control channel default policy to send the data to be transmitted to the base station; or,

If the value of the size of the transport block minus the sum of the size of the maximum transport block corresponding to the service authorization value and the size of the transport block corresponding to the non-scheduled data amount is within the predetermined range, then the preset value is used. The control channel default policy sends the data to be transmitted to the base station.

25. The user equipment according to claim 23, wherein the processor is further configured to search for an index corresponding to the transport block according to the size of the transport block;

The transmitter is further configured to adopt the preset control channel default policy if the difference between the index of the transport block and the index of the largest transport block corresponding to the service authorization value is within the predetermined range. Send the data to be transmitted to the base station; or,

If the value of the index of the transport block minus the index of the sum of the maximum transport block corresponding to the service authorization value and the transport block corresponding to the non-scheduled data amount is within the predetermined range, then the preset value is used. The control channel default policy sends the data to be transmitted to the base station.

26. The user equipment according to claims 23-25, characterized in that the transmitter is further configured to not send the enhancement corresponding to the data to be transmitted when sending the data to be transmitted to the base station. Dedicated physical control channel E-DPCCH information, the E-DPCCH information includes: the transmission format information E-TFCI of the data to be transmitted, the retransmission sequence number RSN and the satisfaction bit HB; or, after sending the data to be transmitted to the When the base station is connected to the base station, the RSN and the HB are sent to the base station through the dedicated physical control channel DPCCH or the enhanced dedicated physical data channel E-DPDCH corresponding to the data to be transmitted.

27. The user equipment according to claims 23-26, characterized in that, the receiver is further configured to determine, when the processor executes, the preset control based on the transport block size and the service authorization value. Before the channel default policy sends the data to be transmitted to the base station, it receives configuration signaling from the control node RNC, and the configuration signaling is used to allow the user equipment to adopt the preset Send the data to be transmitted to the base station according to the set control channel default policy; or,

Receive first indication signaling from the base station, where the first indication signaling is used to allow the user equipment to use the preset control channel default policy to send data to be transmitted to the base station. The first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data confirmation message, and/or a process activation notification.

28. The user equipment according to claims 23-27, characterized in that the receiver is further configured to receive a negative response NACK from the base station;

The transmitter is also configured to send the data to be transmitted to the base station if the receiver receives the NACK from the base station, and at the same time transmit the RSN and the data to the base station through the E-DPCCH. The HB is sent to the base station, and the E-TFCI is not sent to the base station.

29. The user equipment according to claims 23-28, characterized in that the receiver is also used to receive the second instruction signaling from the base station;

The processor is further configured to stop using the preset control channel default policy to send data to be transmitted to the base station after the receiver receives the second indication signaling; or, The transmitter is also configured to send a data completion message to the base station. The data completion message is used to instruct the base station to stop using the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH. ;

The processor is further configured to stop using the preset control channel default policy to send the data to be transmitted to the base station after the transmitter sends a data completion message to the base station, or,

The processor is also configured to stop using the preset control channel default policy to send data to be transmitted to the base station when soft handover is performed.

30. A base station, characterized by including:

A transmitter, configured to send an authorization control command to the user equipment, so that the user equipment determines the service authorization value according to the authorization control command;

The processor detects E-DPCCH information, where the E-DPCCH information includes: E-TFCI, RSN and HB; If it is detected that the E-DPCCH does not carry the E-TFCI, or it is detected that If the RSN and the HB are carried in the DPCCH or E-DPDCH, the preset control channel default policy is used to demodulate the data to be transmitted from the E-DPDCH.

31. The base station according to claim 30, characterized in that the transmitter is further configured to send first indication signaling to the user equipment, and the first indication signaling is used to allow the user equipment to adopt The preset control channel default policy sends the data to be transmitted to the base station, and the first indication signaling includes: an indication message sent through the HS-SCCH channel, and/or an uplink data confirmation message, and/or Process activation notification.

32. The base station according to claim 30 or 31, wherein the transmitter is further configured to send a negative response NACK to the user equipment if the processor fails to demodulate, and the NACK is used to Instruct the user equipment to resend the data to be transmitted to the base station.

33. The base station according to claims 30-32, characterized in that the transmitter is also used to send second indication signaling to the user equipment, and the second indication signaling is used to instruct the user The device stops sending the data to be transmitted to the base station using the preset control channel default policy;

The processor is further configured to stop using the preset control channel default policy to demodulate the to-be-used E-DPDCH from the E-DPDCH after the transmitter sends the second indication signaling to the user equipment. transmit data; or,

The base station may also include:

The processor is further configured to stop sending data to be transmitted to the base station using the preset control channel default policy after the receiver receives the data completion message from the user equipment; or

The receiver is also configured to receive a notification from the RNC that the user equipment performs soft handover;

The processor is also configured to stop using the preset control channel default policy to switch from the E-DPDCH to the E-DPDCH after the receiver 7 receives a notification from the RNC that the user equipment performs soft handover. Demodulate the data to be transmitted.

34. An uplink data transmission system, characterized by including:

User equipment as described in any one of claims 12-18 and/or 23-29;

The base station as described in any one of claims 19-22 and/or 30-33;

The RNC is used to send the configuration signaling to the user equipment, and the indication signaling is used to allow the user equipment to use the preset control channel default policy to send data to be transmitted to the base station. ; Send a notification that the user equipment performs soft handover to the base station, so that the base station stops using the preset control channel default policy to demodulate the data to be transmitted from the E-DPDCH.