JP6164547B2 - Power control method, base station, and system - Google Patents

Description

  The present invention relates to the field of communication technology, and in particular, to a power control method, a base station, and a system.

In order to improve packet service support capabilities of Wideband Code Division Multiple Access (WCDMA) systems, high speed downlink packet access (HSDPA) technology was introduced. Yes. All HSDPA users in the cell, in a time division and code division scheme, a plurality of high-speed shared control channel (high speed share d control channel, HS-SCCH) and a high speed physical downlink shared channel (High-Speed Physical Downlink Shared Channel , HS-PDSCH).

3rd Generation Partnership Project (3GPP) to improve functions such as signaling bearings, uplink and downlink and inner and outer loop power control, and downlink synchronization for each HSDPA user One associated dedicated physical channel (A-DPCH) needs to be configured as specified by the protocol.

The power control process of A-DPCH is that the base station controls the increase or decrease of the power of A-DPCH according to the inner loop power control ( IL PC) command word of the terminal. If the terminal considers the reception quality of the signaling radio bearer (Signaling radio bearer, SRB), this reserves a margin for the transmission power of the A-DPCH, which is the transmission power occupied by the A-DPCH in the actual network. This wastes resources.

  In order to solve the technical problem in the embodiment of the present invention, the embodiment of the present invention determines the transmission power range of the A-DPCH according to the CQI value reported by the terminal, and within the range, the A-DPCH By adjusting the transmission power range, a base station is provided that can prevent the associated dedicated physical channel A-DPCH from wasting transmission power resources. Embodiments of the present invention further provide corresponding methods and systems.

  According to a first aspect, an embodiment of the present invention relates to an acquisition unit configured to collect a channel quality indicator CQI value reported by a terminal according to the CQI value collected by the collection unit. A determination unit configured to determine a transmission power range corresponding to the CQI value of the dedicated physical channel A-DPCH, and within the transmission power range of the A-DPCH determined by the determination unit, A base station is provided that includes an adjustment unit configured to adjust the transmission power of the A-DPCH according to a request of the terminal for the transmission power of the A-DPCH.

  In a first possible realization technique of the first aspect, the decision unit in particular according to the CQI value and from a relationship table or simulation diagram of the transmission power of the A-DPCH corresponding to the CQI value versus the CQI value. The transmission power range corresponding to the CQI value of the A-DPCH is determined.

  With respect to the first possible implementation manner of the first aspect, in the second possible implementation manner, the decision unit is in accordance with the CQI value, particularly when control data is transmitted to the terminal over a signaling radio bearer SRB. And the transmission power range corresponding to the CQI value of the A-DPCH bearing the SRB from the relationship table or simulation diagram of the transmission power required by the A-DPCH and corresponding to the CQI value Configured to determine.

  With regard to any one of the first aspect or the first to second possible implementation techniques of the first aspect, in the third possible implementation technique, the collection unit is notably configured such that the terminal is not connected to a service providing link. Configured to collect the CQI value of the serviced link reported by the terminal when in a handover area to and from the serviced link, and the decision unit specifically includes the CQI value of the serviced link Accordingly, a transmission power range of the A-DPCH of the service providing link is determined, and the transmission power range of the A-DPCH of the service providing link is set as a transmission power range of the A-DPCH of the non-service providing link. Composed.

  With respect to any one of the first aspect or the first to second possible implementation techniques of the first aspect, in a fourth possible implementation technique, the base station further comprises an increment unit and a transmission unit The increasing unit, when the collecting unit learns that the terminal is in a hard handover area and that control data is transmitted to the terminal over a signaling radio bearer SRB, the said unit of the A-DPCH Configured to increase transmission power by a preset amount, wherein the transmission unit transmits the control data across the SRB by using the transmission power of the A-DPCH increased by the increase unit Configured to do.

  With respect to any one of the first aspect or the first to fourth possible realization techniques of the first aspect, in the fifth possible realization technique, the collection unit is in particular a non-fast downlink packet access HSDPA power And when the non-HSDPA power exceeds a preset threshold, the channel quality indicator CQI reported by the terminal is collected.

  According to a second aspect, an embodiment of the invention comprises the step of collecting by a base station channel quality indicator CQI values reported by a terminal, and according to said CQI values, the associated dedicated physical channel A-DPCH Determining a transmission power range corresponding to the CQI value by the base station, and, within the transmission power range of the A-DPCH, the transmission power of the A-DPCH, the transmission power of the A-DPCH Adjusting by the base station according to the request of the terminal.

  In the first possible implementation method of the second aspect, the step of determining, by the base station, a transmission power range corresponding to the CQI value of A-DPCH according to the CQI value, according to the CQI value, And the base station determines the transmission power range corresponding to the CQI value of the A-DPCH from a relationship table or a simulation diagram of the transmission power required by the A-DPCH and corresponding to the CQI value. Including the steps of:

  Regarding the first possible implementation manner of the second aspect, in the second possible implementation manner, when control data is transmitted over the signaling radio bearer SRB to the terminal, according to the CQI value and the CQI value vs. the A step of determining, by the base station, the transmission power range corresponding to the CQI value of the A-DPCH by the base station from a transmission power relationship table or a simulation diagram required by the A-DPCH and corresponding to the CQI value. The CQI value of the A-DPCH bearing the SRB from the relationship table or simulation diagram of the CQI value versus the transmission power required by the A-DPCH and corresponding to the CQI value according to the CQI value. The transmission power range corresponding to is determined by the base station.

  The second aspect or any one of the first to second possible implementation techniques of the second aspect, wherein in the third possible implementation technique, the terminal is between a service providing link and a non-service providing link. Collecting the channel quality indicator CQI value reported by the terminal by the base station when the mobile station is in the handover area includes collecting the CQI value of the serving link reported by the terminal by the base station. The base station determines a transmission power range corresponding to the CQI value of the associated dedicated physical channel A-DPCH according to the CQI value by the base station by the CQI value of the serving link. Determining a transmission power range of the A-DPCH of the service providing link according to And a step of setting a transmission power range as the transmit power range of the A-DPCH of the non-serving link.

  Regarding any one of the second aspect or the first to second possible implementation techniques of the second aspect, in a fourth possible implementation technique, the method further comprises: the terminal is in a hard handover area When the control data is transmitted to the terminal over the signaling radio bearer SRB, the base station increases the transmission power of the A-DPCH by a preset amount and the increase of the A-DPCH. Transmitting the control data over the SRB by using the determined transmission power.

  With respect to any one of the second aspect or the first to fourth possible realization techniques of the second aspect, in the fifth possible realization technique, the channel quality indicator CQI value reported by the terminal by the base station Collecting the non-high speed downlink packet access HSDPA power by the base station and, if the non-HSDPA power exceeds a preset threshold, a channel quality indicator CQI reported by the terminal. Collecting by the base station.

  According to a third aspect, an embodiment of the present invention provides a base station including at least one processor, memory, transceiver, communication interface, and bus system, wherein the processor, memory, and transceiver are the bus Communicating with each other via a system, the communication interface is used for communication between the base station and a base station controller, the transceiver is configured to communicate with a terminal, and the memory is associated Configured to store instructions for causing the processor to perform transmit power control on the dedicated physical channel A-DPCH, the processor collecting the channel quality indicator CQI values reported by the terminal: And the associated dedicated physical channel A-DPC according to the CQI value Determining a transmission power range corresponding to the CQI value of H, the transmission power of the A-DPCH within the transmission power range of the A-DPCH, and the transmission power of the A-DPCH And adjusting in accordance with the requirements of the terminal.

  In a first possible realization technique of the third aspect, the processor, in particular, according to the CQI value and from a relationship table or simulation diagram of the transmission power of the A-DPCH corresponding to the CQI value versus the CQI value, The A-DPCH is configured to determine the transmission power range corresponding to the CQI value.

  With respect to the first possible implementation manner of the third aspect, in the second possible implementation manner, the processor, in particular, when control data is transmitted over the signaling radio bearer SRB to the terminal, according to the CQI value, And the transmission power range corresponding to the CQI value of the A-DPCH bearing the SRB from a relationship table or simulation diagram of the transmission power required by the A-DPCH and corresponding to the CQI value. Configured to determine.

  With respect to any one of the third aspect or the first to second possible implementation techniques of the third aspect, in the third possible implementation technique, the processor, in particular, provides that the terminal provides a service providing link and a non-service When in a handover area with a serving link, the CQI value of the serving link reported by the terminal is collected, and the A-DPCH transmission of the serving link is transmitted according to the CQI value of the serving link A power range is determined, and the transmission power range of the A-DPCH of the service providing link is configured as a transmission power range of the A-DPCH of the non-service providing link.

  With respect to any one of the third aspect or the first to second possible realization techniques of the third aspect, in the fourth possible realization technique, the processor is in particular that the terminal is in a hard handover area Configured to increase the transmit power of the A-DPCH by a preset amount when control data is transmitted to the terminal over a signaling radio bearer SRB, the transceiver is configured to increase the increase of the A-DPCH. The control data is configured to be transmitted over the SRB by using the transmitted power.

  With respect to any one of the third aspect or any one of the first to fourth possible implementation techniques of the third aspect, in a fifth possible implementation technique, the processor specifically generates non-high speed downlink packet access HSDPA power. Collecting, and if the non-HSDPA power exceeds a preset threshold, the channel quality indicator CQI reported by the terminal is configured to be collected.

  According to a fourth aspect, an embodiment of the present invention is a power control system including a terminal and a base station, wherein the base station is a base station according to any one of the above technical solutions. Provide a control system.

  According to the base station provided by the embodiment of the present invention, the collection unit collects the channel quality indicator CQI value reported by the terminal, and the determination unit associates according to the CQI value collected by the collection unit. Determining a transmission power range of the dedicated physical channel A-DPCH corresponding to the CQI value, and an adjustment unit within the transmission power range of the A-DPCH determined by the determination unit, the A-DPCH Is adjusted according to the terminal's request for the transmission power of the A-DPCH. Compared with the prior art, where there is a waste in transmission power resources occupied by A-DPCH, the base station provided by the embodiment of the present invention can Adjusting the transmission power of the A-DPCH may prevent the A-DPCH from wasting transmission power resources. Even if the amount required by the terminal exceeds the upper limit of the transmission power range of A-DPCH, the terminal will be in excess of A-DPCH by only adjusting the power of A-DPCH to the upper limit. A-DPCH is prevented from wasting transmission power resources when requesting power resources.

  In order to more clearly describe the technical solutions in the embodiments of the present invention, the following briefly introduces the accompanying drawings required for describing the embodiments. Apparently, the accompanying drawings in the following description merely show some embodiments of the present invention, and those skilled in the art can further derive other drawings from these accompanying drawings without creative efforts.

It is a mimetic diagram of an embodiment of a power control system concerning an embodiment of the present invention. It is a schematic diagram of the implementation form of the power control method according to an embodiment of the present invention. It is a schematic diagram of another embodiment of the electric power control method which concerns on embodiment of this invention. It is a schematic diagram of embodiment of the base station which concerns on embodiment of this invention. It is a schematic diagram of another embodiment of the base station which concerns on embodiment of this invention. It is a schematic diagram of another embodiment of the base station which concerns on embodiment of this invention.

  An embodiment of the present invention determines an A-DPCH transmission power range according to a CQI value reported by a terminal, and adjusts the A-DPCH transmission power range within the range to thereby associate an associated dedicated physical channel. A base station is provided that can prevent A-DPCH from wasting transmit power resources. Embodiments of the present invention further provide corresponding methods and systems. A detailed description is provided below.

  The following clearly and completely describes the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Apparently, the described embodiments are merely a part rather than all of the embodiments of the present invention. All other embodiments obtained by persons of ordinary skill in the art based on the embodiments of the present invention without creative efforts shall fall within the protection scope of the present invention.

  As shown in FIG. 1, an embodiment of the present invention provides a power control system, where the power control system includes a terminal and a base station, and the terminal and base station communicate with each other over an air interface. In the process of controlling the associated dedicated physical channel (A-DPCH, associated dedicated physical channel), the terminal reports the channel quality indicator (CQI, Channel Quality Indicator) value to the base station, and the base station sets the CQI value to Therefore, the transmission power range corresponding to the CQI value of the associated dedicated physical channel A-DPCH is determined, and within the A-DPCH transmission power range, the A-DPCH transmission power and the A-DPCH transmission power are determined. Adjust according to the requirements of the terminal.

  The specific process can be as follows.

  In this embodiment of the present invention, under the condition of different channel quality indicator (CQI, Channel Quality Indicator) values, R & D personnel receive information normally without the terminal being out of sync through numerous simulations and verification experiments. Find the minimum transmit power of the associated dedicated physical channel (A-DPCH, associated dedicated physical channel) that guarantees that it can. The CQI range reported by the terminal is 0-30. Therefore, each CQI value corresponds to one minimum transmission power of A-DPCH. In addition, considering the difference between power requirements in different channel environments, the transmission power of A-DPCH corresponds to each CQI value to ensure that reception can be performed normally by the terminal. In order to determine the maximum DPCH transmit power and finally form a correspondence table between the CQI values and the A-DPCH transmit power corresponding to the CQI values as shown in Table 1. Need to be increased based on.

As shown in Table 1, when CQI value is 3, corresponding to CQI = 3, and when there is no signaling radio bearer (SRB), the minimum transmission power of A-DPCH _Can be determined from the table that P _minnoSRB (3) and the maximum transmit power of the A-DPCH is P _maxnoSRB (3). Therefore, when there is no SRB, the transmission power range corresponding to CQI = 3 in A-DPCH is P _minnoSRB (3) to P _maxnoSRB (3).

Furthermore, in this embodiment of the present invention, a case is considered in which control data is transmitted to the terminal over the SRB by A-DPCH. Therefore, if SRB on A-DPCH is present, corresponding to CQI = 3, and if SRB is present, the minimum transmit power of A-DPCH is P _minwithSRB (3) and the maximum of A-DPCH The transmission power is P _maxwithSRB (3). Therefore, when SRB exists, the transmission power range corresponding to CQI = 3 of A-DPCH is P _minwithSRB (3) to P _maxwithSRB (3).

  The maximum transmission power and the minimum transmission power of A-DPCH in the presence of SRB are larger than the maximum transmission power and the minimum transmission power of A-DPCH in the absence of SRB, respectively.

  Regardless of whether SRB is present or SRB is present, the minimum transmit power of A-DPCH corresponding to CQI can be based on the lower limit of the transmit power range of A-DPCH, and the maximum of A-DPCH corresponding to CQI The transmission power may be based on the upper limit of the transmission power range of A-DPCH.

  Furthermore, when determining the transmission power range of A-DPCH, the transmission power range of A-DPCH is not always determined as shown in Table 1, and the transmission power range of A-DPCH It can also be determined and obtained by the simulation diagram shown in FIG.

The relationship table shown in Table 1 and the simulation diagram shown in FIG. 2 can both be preset in the memory of the base station, or not stored in the base station, but stored in the base station controller, for example. In other words, if the base station needs a relationship table and a simulation diagram, the base station collects the relationship table or simulation diagram by using the interface between the base station and the base station controller. Therefore, after collecting the CQI values reported by the terminal, the base station may determine the transmission power range of the A-DPCH corresponding to the CQI values according to the relationship table or the simulation diagram, and thus the A-DPCH Between the upper and lower limits of the transmission power, the transmission power of the A-DPCH may be adjusted according to the terminal's request for the transmission power of the A-DPCH. The adjustment process may be that the terminal sends a command word to the base station, which carries an increase or decrease command, eg, a 1 dB increase. However, since the power adjustment in this embodiment of the present invention can be performed only within the transmission power range corresponding to CQI, even if the amount required by the terminal exceeds the upper limit of the transmission power range of A-DPCH. Even if the A-DPCH transmission power is only adjusted to the upper limit, it prevents the A-DPCH from wasting the transmission power resource when the terminal requests excessive A-DPCH transmission power resources. To do.

  For an understanding of the correspondence between the CQI value and the upper and lower limits of A-DPCH transmit power, reference may also be made to FIG.

The simulation diagram shown in FIG. 2 shows the upper and lower limits of A-DPCH transmission power corresponding to each CQI value.

  In addition, this embodiment of the present application further provides that the terminal is in a handover area between a service providing link and a non-service providing link, and both the service providing link and the non-service providing link are between the terminal and the base station. If present, consider that since only the serving link has CQI, the A-DPCH transmission power range of the serving link can be determined according to the CQI value of the serving link reported by the terminal. Since the channel quality of the non-service providing link is similar to the channel quality of the service providing link, the transmission power range of the A-DPCH of the service providing link may be set as the transmission power range of the A-DPCH of the non-service providing link. .

  For A-DPCH in the hard handover state, if there is control data that needs to be transmitted across the SRB, the hard handover requires a handover to another base station or cell with a different frequency, so In order to allow the base station to transmit control data over the SRB by using a large transmit power and to ensure that the reception can be done normally by the terminal, the value of the maximum transmit power is the CQI value. Based on the correspondence with the transmission power of the A-DPCH corresponding to the CQI value, it is necessary to increase it by a preset amount. In this embodiment of the invention, the preset amount may be a preset preset value, for example 2 dB.

  The control data in this embodiment of the present invention may be message data related to establishment and re-establishment of a radio resource control (RRC) connection.

  In addition, in a real network, if the cell's downlink air interface load is relatively heavy, the downlink air interface load becomes a bottleneck affecting network performance, in which case the solution improves overall network performance. However, if the cell's downlink air interface load is relatively light, the downlink air interface load is not a bottleneck affecting network performance and will not affect the network performance without using a solution. Can be reduced. Thus, by determining the non-high speed downlink packet access HSDPA power, it can be determined whether to use the solution provided by the present application, in particular, determining the non-high speed downlink packet access HSDPA power, and non- Collecting the channel quality indicator CQI reported by the terminal when the HSDPA power exceeds a preset threshold.

In this embodiment of the invention, the preset threshold value may be 100 dB. Certainly, the preset threshold in this embodiment of the present invention is only an illustrative example, and a specific value can be obtained by testing depending on the situation of the air interface load. For example, if the load supported by the air interface exceeds 80% of the total supported capacity of the air interface or exceeds another value, the non- HSDPA power obtained from the test is set as a preset threshold. The

  Compared with the prior art where there is a waste in transmission power resources occupied by A-DPCH, according to the power control method provided by this embodiment of the present invention, the base station Adjusting the transmission power of the base station A-DPCH according to the request may prevent the A-DPCH from wasting transmission power resources.

  Furthermore, the solution provided by this embodiment of the present invention provides upper and lower limits for transmit power, considers various channel transmit power situations, and can therefore dynamically adapt to changing channel conditions. , Thereby gaining power gain while reducing the probability of dropped calls.

  The process of controlling the transmission power of A-DPCH between the terminal and the base station by using CQI is described in detail above. Referring to FIG. 3, the embodiment of the present invention further provides an embodiment of a power control method including the following.

  201: The base station collects channel quality indicator CQI values reported by the terminal.

  202: The base station determines a transmission power range corresponding to the CQI value of the associated dedicated physical channel A-DPCH according to the CQI value.

  203: The base station adjusts the transmission power of A-DPCH in accordance with the terminal's request for the transmission power of A-DPCH within the transmission power range of A-DPCH.

According to this embodiment of the present invention, the base station collects the channel quality indicator CQI value reported by the terminal, and the base station determines the CQI value of the associated dedicated physical channel A-DPCH according to the CQI value. The corresponding transmission power range is determined, and the base station adjusts the A-DPCH transmission power according to the terminal's request for the A-DPCH transmission power within the A-DPCH transmission power range. Compared with the prior art where there is a waste in transmission power resources occupied by A-DPCH, the base station provided by this embodiment of the present invention is a base station according to the terminal's request for transmission power of A-DPCH. By adjusting the transmission power of the A-DPCH, it is possible to prevent the A-DPCH from wasting transmission power resources. Even if the amount required by the terminal exceeds the upper limit of the transmission power range of A-DPCH, the terminal can only overload A-DPCH by adjusting the transmission power of A-DPCH to the upper limit. This prevents the A-DPCH from wasting the transmission power resource when requesting a new power resource.

  Optionally, based on any embodiment corresponding to FIG. 3, in another embodiment of the power control method provided by the embodiment of the present invention, the base station performs the CQI of A-DPCH according to the CQI value. The step of determining the transmission power range corresponding to the value is determined according to the CQI value and from the relationship table or simulation diagram of the transmission power required by the CQI value versus the A-DPCH and corresponding to the CQI value. Determining by the base station a transmit power range corresponding to the value may be included.

Optionally, based on any embodiment corresponding to FIG. 3, in another embodiment of the power control method provided by the embodiment of the present invention, when control data is transmitted over the signaling radio bearer SRB to the terminal, base station, according to the CQI value, and from the relationship tables or simulation diagram of a transmission power corresponding to the requested and CQI value by the CQI value pairs a-DPCH, the a-DPCH, the transmission power digraphs corresponding to the CQI value The determining step corresponds to the CQI value of the A-DPCH bearing the SRB according to the CQI value and from the relationship table or simulation diagram of the CQI value versus the transmission power required by the A-DPCH and corresponding to the CQI value. The step of determining a transmission power range by the base station may be included.

  Optionally, based on the embodiment corresponding to FIG. 3 or any embodiment, in another embodiment of the power control method provided by the embodiment of the present invention, the terminal may The base station may collect the channel quality indicator CQI value reported by the terminal if it is in the handover area between, may include collecting the CQI value of the serving link reported by the terminal by the base station; The step of the base station determining the transmission power range corresponding to the CQI value of the associated dedicated physical channel A-DPCH according to the CQI value is determined by the base station according to the CQI value of the serving link. Determining the A-DPCH transmit power range and non-serving the A-DPCH transmit power range of the serviced link Setting as a transmission power range of the A-DPCH of the link.

  Optionally, based on the embodiment corresponding to FIG. 3 or any embodiment, in another embodiment of the power control method provided by the embodiment of the present invention, the method further comprises: the terminal is in a hard handover area When the control data is transmitted to the terminal over the signaling radio bearer SRB, the base station uses the step of increasing the transmission power of A-DPCH by a preset amount and the increased transmission power of A-DPCH And transmitting control data over the SRB.

  Optionally, based on the embodiment corresponding to FIG. 3 or any embodiment, in another embodiment of the power control method provided by the embodiment of the present invention, the channel quality indicator CQI reported by the base station by the base station Collecting values include collecting non-high speed downlink packet access HSDPA power by the base station and, if the non-HSDPA power exceeds a preset threshold, base the channel quality indicator CQI reported by the terminal Collecting by the station.

  For an understanding of the power control method described in the embodiments of FIG. 3 in the present invention, reference may be made to the description of FIGS. 1 and 2, and details are not described herein again.

  Referring to FIG. 4, an embodiment of a base station provided by an embodiment of the present invention includes a collection unit 301 configured to collect channel quality indicator CQI values reported by a terminal, and a collection unit 301 A determination unit 302 configured to determine a transmission power range corresponding to the CQI value of the associated dedicated physical channel A-DPCH according to the determined CQI value, and of the A-DPCH determined by the determination unit 302 An adjustment unit 303 configured to adjust the transmission power of the A-DPCH within the transmission power range according to the terminal's request for the transmission power of the A-DPCH.

  In this embodiment of the invention, the collection unit 301 collects channel quality indicator CQI values reported by the terminal, and the determination unit 302 determines the associated dedicated physical channel according to the CQI values collected by the collection unit 301. The transmission power range corresponding to the CQI value of the A-DPCH is determined, and the adjustment unit 303 converts the transmission power of the A-DPCH to the A-DPCH within the transmission power range of the A-DPCH determined by the determination unit 302. It adjusts according to the request | requirement of the terminal about transmission power of. Compared with the prior art in which there is a waste in transmission power resources occupied by A-DPCH, the base station provided by this embodiment of the present invention is A- according to the terminal's request for transmission power of A-DPCH. By adjusting the transmission power of the DPCH, it is possible to prevent the A-DPCH from wasting transmission power resources.

  Optionally, based on the embodiment corresponding to FIG. 4, in another embodiment of the base station provided by the embodiment of the present invention, the decision unit 302 specifically depends on the CQI value and on the CQI value versus the CQI value. A transmission power range corresponding to the CQI value of A-DPCH is determined from the transmission power relationship table or simulation diagram of the corresponding A-DPCH.

  In some cases, based on any embodiment corresponding to FIG. 4, in another embodiment of the base station provided by an embodiment of the present invention, the decision unit 302 may in particular send control data to the terminal over the signaling radio bearer SRB. Corresponding to the CQI value of the A-DPCH bearing the SRB according to the CQI value and from the transmission power relationship table or simulation diagram corresponding to the CQI value as required by the CQI value and according to the CQI value if transmitted It is configured to determine a transmission power range.

  In some cases, based on the embodiment corresponding to FIG. 4 or any embodiment, in another embodiment of the base station provided by the embodiment of the present invention, the collection unit 301 may in particular have a terminal that is not connected to the serving link. Configured to collect the CQI value of the serviced link reported by the terminal when in a handover area with the serviced link, and the determination unit 302 specifically includes the serviced link according to the CQI value of the serviced link A-DPCH transmission power range is determined, and the A-DPCH transmission power range of the service providing link is set as the A-DPCH transmission power range of the non-service providing link.

  Optionally, referring to FIG. 5, based on the embodiment corresponding to FIG. 4 or any embodiment, in another embodiment of the base station provided by the embodiment of the present invention, the base station further comprises an increment unit. 304 and a transmission unit 305, the increase unit 304, when the collection unit 301 learns that the terminal is in a hard handover area and that control data is transmitted to the terminal over the signaling radio bearer SRB, Configured to increase the A-DPCH transmission power by a preset amount, and the transmission unit 305 transmits control data over the SRB by using the A-DPCH transmission power increased by the increase unit 304 Configured to do.

  In some cases, based on the embodiment corresponding to FIG. 4 or any embodiment, in another embodiment of a base station provided by an embodiment of the present invention, the collection unit 301 may specifically include non-high speed downlink packet access HSDPA. Configured to collect power and configured to collect a channel quality indicator CQI reported by the terminal if the non-HSDPA power exceeds a preset threshold.

FIG. 6 is a schematic structural diagram of the base station 20 according to the embodiment of the present invention. Base station 20 includes transceiver 210, at least one processor 230 (only one is shown in FIG. 6, but there may actually be multiple processors), memory 240, bus system 250, and base station controller. include a communication interface 220 for communication with, the transceiver 210 is configured to communicate with the terminal, the processor 230, memory 240, and transceivers 210 communicate with each other via a bus system 250.

  The processor 230 and the memory 240 can be physically separated or integrated together. There may be one processor 230, or multiple processors 230 may be integrated together or separated. Multiple memories 240 may also exist.

  Memory 240 may include read only memory and random access memory and may provide instructions and data to processor 230. A portion of the memory 240 may further include non-volatile random access memory (NVRAM).

  The memory 240 includes the following elements, executable modules, or data structures, i.e., various operating instructions, operating instructions used to implement various operations, and various system programs, and various Store the operating system, or a subset thereof, or an extended set thereof, used to implement basic services and handle hardware-based tasks.

  In this embodiment of the invention, the processor 230 invokes the operation instructions stored by the memory 240 (the operation instructions can also be stored in the operating system) to perform the following operations, channel quality reported by the terminal: Collecting an indicator CQI value, determining a transmission power range corresponding to the CQI value of the associated dedicated physical channel A-DPCH according to the CQI value, and within the transmission power range of A-DPCH, A Adjusting the transmission power of the DPCH according to the request of the terminal for the transmission power of the A-DPCH.

  In this embodiment of the present invention, the base station 20 adjusts the transmission power of the A-DPCH according to the terminal request for the transmission power of the A-DPCH, so that the A-DPCH channel wastes transmission power resources. Can prevent. Even if the amount required by the terminal exceeds the upper limit of A-DPCH transmission power, the terminal will only have excessive power on A-DPCH by adjusting the A-DPCH power to the upper limit. A-DPCH is prevented from wasting transmission power resources when requesting resources.

  The processor 230 controls the operation of the base station 20, and the processor 230 may also be referred to as a CPU (central processing unit). Memory 240 may include read only memory and random access memory and may provide instructions and data to processor 230. A portion of the memory 240 may further include non-volatile random access memory (NVRAM). In a specific application, all components of the base station 20 are coupled together by a bus system 250, which includes a power supply bus, a control bus, a status signal bus, etc. in addition to a data bus. obtain. However, for clarity of explanation, the various buses are shown as bus system 250 in the figure.

  The methods disclosed in the above embodiments of the present invention can be applied to or implemented by the processor 230. The processor 230 may be an integrated circuit chip with signal processing capabilities. In the implementation process, method steps may be implemented by using hardware integrated logic in processor 230 or by using instructions in the form of software. The processor 230 may be a general purpose processor, a digital signal processor (DSP), an application specific integrated circuit (ASIC), a field programmable gate array (FPGA) or another programmable logic device, a discrete gate or transistor logic device, or a discrete hardware component They can implement or execute the methods, steps, or logic block diagrams disclosed in the embodiments of the present invention. A general purpose processor may be a microprocessor, or the processor may be any conventional processor. The method steps disclosed in the embodiments of the present invention may be directly embodied as being performed by a hardware decoding processor or by a combination of hardware and software modules in the decoding processor. A software module may reside in random access memory, flash memory, read only memory, programmable read only memory, electrically erasable programmable memory, registers, or any other storage medium matured in the art. A storage medium may reside in memory 240, and processor 230 reads the information in memory 240 and uses the hardware to implement the method steps.

  In some cases, processor 230 specifically transmits A-DPCH, corresponding to the CQI value, from the relationship table or simulation diagram of the CQI value versus the transmission power required by A-DPCH and corresponding to the CQI value, according to the CQI value. It may be configured to determine a power range.

  In some cases, processor 230 may include a relationship table of transmission powers according to CQI values and according to CQI values vs. A-DPCH and corresponding to CQI values, particularly when control data is transmitted to the terminal over signaling radio bearer SRB or From the simulation diagram, the transmission power range corresponding to the CQI value of the A-DPCH bearing the SRB may be determined.

  In some cases, processor 230 collects the CQI value of the serving link reported by the terminal, particularly if the terminal is in a handover area between the serving link and the non-serving link, and the CQI value of the serving link To determine the A-DPCH transmission power range of the service providing link and to set the A-DPCH transmission power range of the service providing link as the A-DPCH transmission power range of the non-service providing link.

  In some cases, the processor 230 further further increases the A-DPCH transmission power by a preset amount, particularly when the terminal is in a hard handover area and control data is transmitted to the terminal over the signaling radio bearer SRB. The transceiver 210 may be configured to transmit control data over the SRB by using the increased transmit power of the A-DPCH.

  In some cases, processor 230 is specifically configured to collect non-fast downlink packet access HSDPA power and collect channel quality indicator CQI reported by the terminal if non-HSDPA power exceeds a preset threshold. Can be done.

  A person skilled in the art can understand that all or part of the method steps in the embodiments can be realized by a program instructing related hardware. The program may be stored on a computer readable storage medium. The storage medium may include a ROM, RAM, magnetic disk, or optical disk.

  The above describes in detail the power control method, base station, and system provided by the embodiments of the present invention. In the present specification, specific examples are used to explain the principles and implementations of the present invention, and the description of the embodiments is intended to help understand the method and core ideas of the present invention. I'm just there. On the other hand, those skilled in the art can make corrections and modifications with respect to specific implementation methods and application ranges based on the idea of the present invention. Accordingly, the contents of this specification should not be construed as a limitation of the present invention.

20 base station
201 steps
202 steps
203 steps
210 transceiver
220 Communication port
230 processor
240 memory
250 bus system
301 collection unit
302 decision unit
303 adjustment unit
304 increase units
305 Transmitter unit

Claims (14)

A receiving unit configured to receive a channel quality indicator (CQI) value from the terminal;
A determining unit configured to determine a transmission power range corresponding to the CQI value of an associated dedicated physical channel (A-DPCH) according to the CQI value received by the receiving unit;
Within the transmission power range of the A-DPCH determined by the determination unit, configured to adjust the transmission power of the A-DPCH according to a request of the terminal for the transmission power of the A-DPCH. for example Bei and regulation units,
The receiving unit receives non-high speed downlink packet access (HSDPA) power and receives a channel quality indicator (CQI) reported by the terminal when the non-HSDPA power exceeds a preset threshold Configured as a base station. The determination unit is configured to determine the transmission power range of the A-DPCH corresponding to the CQI value according to the CQI value, and CQI value versus transmission power for the transmission power of the A-DPCH corresponding to the CQI value. Configured to determine from a relationship table or simulation diagram of
The base station according to claim 1. When the control data is transmitted to the terminal over a signaling radio bearer (SRB), the determination unit sets the transmission power range corresponding to the CQI value of the A-DPCH bearing the SRB to the CQI value. Thus, and configured from a CQI value versus transmission power relationship table or simulation diagram for transmission power required by the A-DPCH and corresponding to the CQI value,
The base station according to claim 2. The receiving unit is configured to receive a CQI value of the serving link reported by the terminal when the terminal is in a handover area between a serving link and a non-serving link;
The determination unit determines a transmission power range of the A-DPCH of the service providing link according to the CQI value of the service providing link, and provides the transmission power range of the A-DPCH of the service providing link to the non-service provision Configured to set as the transmit power range of the A-DPCH of the link,
The base station according to any one of claims 1 to 3. The base station further comprises an increase unit and a transmission unit,
The increment unit is configured such that when the receiving unit is informed that the terminal is in a hard handover area and that control data is transmitted to the terminal over a signaling radio bearer (SRB), the A-DPCH Configured to increase the transmit power of a predetermined amount,
The transmitting unit is configured to transmit the control data across the SRB by using the transmission power of the A-DPCH increased by the increasing unit;
The base station according to any one of claims 1 to 3. Receiving a channel quality indicator (CQI) value from a terminal by a base station;
Determining, by the base station, a transmission power range corresponding to the CQI value of an associated dedicated physical channel (A-DPCH) according to the CQI value;
In the transmission power range in the A-DPCH, the transmission power of the A-DPCH, according to the request of the terminal for the transmission power of the A-DPCH, e Bei and adjusting by the base station,
The step of receiving a channel quality indicator (CQI) value reported by the terminal by the base station is a step of receiving non-high speed downlink packet access (HSDPA) power by the base station, and the non-HSDPA power is preset. Receiving a channel quality indicator CQI reported by the terminal by the base station if a threshold is exceeded . According to the CQI value, the step of determining, by the base station, a transmission power range corresponding to the CQI value of A-DPCH is determined by using the CQI of the transmission power range corresponding to the CQI value of the A-DPCH. Determining by the base station according to a value and from a CQI value to transmission power relationship table or simulation diagram for transmission power required by the A-DPCH and corresponding to the CQI value,
The method of claim 6 . When control data is transmitted to the terminal over a signaling radio bearer (SRB), the transmission power range corresponding to the CQI value of the A-DPCH is requested according to the CQI value and by the A-DPCH. In addition, the step of determining by the base station from a CQI value-to-transmission power relationship table or a simulation diagram for transmission power corresponding to the CQI value corresponds to the CQI value of the A-DPCH bearing the SRB. Determining a transmission power range according to the CQI value and from the CQI value versus transmission power relationship table or simulation diagram for the transmission power required by the A-DPCH and corresponding to the CQI value, by the base station Comprising
The method according to claim 7 . If the terminal is in a handover area between a serviced link and a non-serviced link, receiving a channel quality indicator (CQI) value reported by the terminal by a base station includes the step reported by the terminal. Receiving a CQI value of a serving link by the base station;
The step of determining, by the base station, the transmission power range corresponding to the CQI value of the associated dedicated physical channel A-DPCH according to the CQI value is set to the CQI value of the serving link by the base station. Therefore, determining the A-DPCH transmission power range of the service providing link; and setting the A-DPCH transmission power range of the service providing link as the A-DPCH transmission power range of the non-service providing link Comprising steps,
9. A method according to any one of claims 6 to 8 . The method further includes pre-setting the transmit power of the A-DPCH by the base station when the terminal is in a hard handover area and control data is transmitted to the terminal over a signaling radio bearer (SRB). And transmitting the control data over the SRB by using the increased transmission power of the A-DPCH.
9. A method according to any one of claims 6 to 8 . 6. A wireless communication system comprising a terminal and a base station, wherein the base station is the base station according to any one of claims 1 to 5 . A wireless communication system comprising a base station controller that communicates with a base station, wherein the base station is the base station according to any one of claims 1 to 5 . It is a program, Comprising: The program in which the processor in a base station performs the step as described in any one of Claims 6-10 by the said program. A computer-readable storage medium having a program recorded by the program, the computer executes the method according to any one of claims 6-10, a computer readable storage medium.