WO2018010589A1 - 上行传输功率控制的方法、装置、设备及存储媒介 - Google Patents
上行传输功率控制的方法、装置、设备及存储媒介 Download PDFInfo
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- WO2018010589A1 WO2018010589A1 PCT/CN2017/091936 CN2017091936W WO2018010589A1 WO 2018010589 A1 WO2018010589 A1 WO 2018010589A1 CN 2017091936 W CN2017091936 W CN 2017091936W WO 2018010589 A1 WO2018010589 A1 WO 2018010589A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/06—TPC algorithms
- H04W52/14—Separate analysis of uplink or downlink
- H04W52/146—Uplink power control
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L5/00—Arrangements affording multiple use of the transmission path
- H04L5/003—Arrangements for allocating sub-channels of the transmission path
- H04L5/0053—Allocation of signaling, i.e. of overhead other than pilot signals
- H04L5/0055—Physical resource allocation for ACK/NACK
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/18—TPC being performed according to specific parameters
- H04W52/24—TPC being performed according to specific parameters using SIR [Signal to Interference Ratio] or other wireless path parameters
- H04W52/242—TPC being performed according to specific parameters using SIR [Signal to Interference Ratio] or other wireless path parameters taking into account path loss
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/30—TPC using constraints in the total amount of available transmission power
- H04W52/34—TPC management, i.e. sharing limited amount of power among users or channels or data types, e.g. cell loading
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W52/00—Power management, e.g. TPC [Transmission Power Control], power saving or power classes
- H04W52/04—TPC
- H04W52/30—TPC using constraints in the total amount of available transmission power
- H04W52/36—TPC using constraints in the total amount of available transmission power with a discrete range or set of values, e.g. step size, ramping or offsets
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
- H04W72/044—Wireless resource allocation based on the type of the allocated resource
- H04W72/0446—Resources in time domain, e.g. slots or frames
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
Definitions
- the present disclosure relates to the field of communications technologies, and in particular, to a method, an apparatus, a device, and a storage medium for uplink transmission power control.
- Data and pilots (ie, reference symbols, or DMRS (Demodulation Reference Signal)) of a LTE (Long Term Evolution, Long Term Evolution) PUSCH (Physical Uplink Shared Control Channel) in one subframe.
- LTE Long Term Evolution, Long Term Evolution
- PUSCH Physical Uplink Shared Control Channel
- the structure used for data demodulation is shown in Figure 1. Under the conventional CP (Cyclic Prefix), the 4th symbol in each slot in each subframe is used to transmit pilots, and the remaining symbols are used to transmit data. Under the extended CP, in each subframe The third symbol in each slot is used to transmit pilots and the remaining symbols are used to transmit data.
- the uplink pilot is a terminal-specific pilot, which is generated according to the actual bandwidth size scheduled by the PUSCH.
- the transmit power of the DMRS is the same as the transmit power of the data.
- each column of pilots can achieve the same sharing of the same resources by cyclically shifting the same pilot base sequence.
- LTE uplink industrial control is mainly used to compensate channel path loss and shadow, and is used to suppress inter-cell interference.
- the transmit power of the UE can be calculated by the slow power control command sent by the eNodeB and the path loss value measured by the downlink RS (Reference Signal).
- the calculation formula of PUSCH power control is:
- P PUSCH (i) is the transmit power of the UE;
- P MAX is the maximum transmit power of the UE;
- M PUSCH (i) is the number of uplink RBs (resource blocks) allocated to the UE;
- P O_PUSCH (j) is exclusive to the cell a normalized portion P O_NOMINAL_PUSCH (j) and a sum of UE-specific portions P O_UE_PUSCH (j);
- ⁇ is a cell-specific path loss compensation coefficient;
- PL is an estimated downlink path loss of the UE layer;
- the K S is a cell-specific parameter configured by RRC (Radio Resource Control) and corresponds to the current transmission format.
- f(i) is the adjustment value of the current power control.
- f(i) f(i-1)+ ⁇ PUSCH (iK PUSCH )
- ⁇ PUSCH is a UE-specific correction value, also called TPC (Transmit Power Control).
- the power control calculation formula of the PUCCH (Physical Uplink Control Channel) is:
- P PUCCH (i) is the UE transmit power
- P MAX is the maximum transmit power of the UE
- PL is the downlink path loss estimated by the UE layer, and the indication in the downlink resource assignment information of the UE is measured
- h(n CQI , n HARQ , n SR ) is the CQI (Channel Quality Indicator) information bit number, the HARQ (Hybrid Automatic Repeat request) information bit number, and the SR (Scheduling Request) configuration in the transport frame format.
- CQI Channel Quality Indicator
- HARQ Hybrid Automatic Repeat request
- SR Service Request
- ⁇ TxD (F') is notified by the upper layer, and the UE-specific parameters are related to the number of transmission antennas.
- FDD Frequency Division Duplex
- g(i) g(i-1)+ ⁇ PUCCH (iK PUCCH )
- iK PUCCH for TDD (Time Division Duplex)
- g(i) is the current PUCCH power control modulation value
- ⁇ PUCCH is the UE-specific correction value
- M is the value corresponding to the TDD frame knot
- K PUCCH is the system predefined parameter corresponding to the TDD uplink and downlink configuration.
- the existing channel transmission is defined in units of subframes.
- TTI Transmission Time Interval
- sTTI short TTI, short TTI
- the DMRS overhead multiple sTTI transmissions in one slot (data transmissions shorter than 1 ms in the time domain) can share the same time domain location transmission DMRS. Therefore, the DMRS density of the sTTI is lower than the DMRS density in the normal TTI, resulting in a difference in channel estimation performance between the normal TTI and the sTTI, thereby affecting the transmission performance.
- Independent power control parameter configuration for different TTI lengths can reduce transmission performance differences. However, the method of configuring independent power control parameters is not clear.
- the embodiments of the present disclosure provide a method and an apparatus for uplink transmission power control, which solves the technical problem of lacking independent power control parameter configuration for different TTI lengths in the related art.
- a method for uplink transmission power control comprising:
- the terminal receives configuration information, and the terminal determines, according to the configuration information, a power control (PC) parameter corresponding to the first type of TTI length, and a PC parameter corresponding to the second type of TTI length;
- PC power control
- the first type of TTI is a TTI length of one subframe, and the second type of TTI is shorter than a TTI length of one subframe; or the first type of TTI is a short TTI length,
- the second type of TTI length is a normal TTI length, or the first type of TTI length is a first short TTI length, and the second type of TTI length is a second short TTI length.
- the terminal receives configuration information, and the terminal determines, according to the configuration information, a power control PC parameter corresponding to the first type of TTI length, and a PC parameter corresponding to the second type of TTI length, including:
- the terminal receives the configuration information, and the terminal determines, according to the configuration information, the power control PC parameter corresponding to the first type of TTI length, and the PC parameter corresponding to the second type of TTI length, including:
- the terminal receives a downlink control channel that uses the uplink DCI format to schedule the physical uplink shared channel (PUSCH), and when the TTI length of the PUSCH scheduled by the downlink control channel is the first type of TTI, the terminal performs the downlink. And a sum of the power adjustment value indicated by the TPC field in the control channel and the power adjustment value corresponding to the PUSCH transmitted by using the first type of TTI length as the power adjustment value of the PUSCH;
- PUSCH physical uplink shared channel
- the terminal uses the power adjustment value indicated by the TPC field in the downlink control channel with the previous one.
- the sum of the power adjustment values corresponding to the PUSCH of the TTI-like length transmission is used as the power adjustment value of the PUSCH.
- the terminal receives the configuration information, and the terminal determines, according to the configuration information, the power control PC parameter corresponding to the first type of TTI length, and the PC parameter corresponding to the second type of TTI length, including:
- the NACK feedback information is transmitted in the target PUCCH;
- the downlink control channel of the downlink DCI format of the PDSCH or the downlink SPS resource release is scheduled.
- the downlink control channel of the downlink DCI format or the indication of the downlink SPS resource release of the PDSCH is scheduled.
- the power adjustment value indicated by the TPC field in the downlink control channel corresponds to the PUCCH of the ACK or NACK feedback information of the downlink control channel of the downlink bearer transmitted by the PDSCH or the indicated downlink SPS resource transmitted by the previous type of TTI length.
- the sum of the power adjustment values is used as the power adjustment value of the PUSCH.
- the terminal receives the configuration information, and the terminal determines, according to the configuration information, the power control PC parameter corresponding to the first type of TTI length, and the PC parameter corresponding to the second type of TTI length, including:
- a downlink control channel in a downlink DCI format or a downlink control channel indicating downlink SPS resource release where the PDSCH or the downlink control channel indicating the release of the downlink SPS resource is ACK/in the target PUCCH. NACK feedback;
- the TTI length of the PUCCH is the TTI length of the second type
- the downlink control channel of the downlink DCI format of the PDSCH or the TPC domain in the downlink control channel that is used to release the downlink SPS resource is scheduled to be scheduled.
- the sum of the power adjustment value and the power adjustment value corresponding to the PUCCH transmitted using the second type of TTI length is used as the power adjustment value of the PUSCH.
- the TTI length of the PUCCH is notified in the downlink control channel, or configured to be signaled, or notified according to a pre-agreed rule.
- the TPC is used in the downlink control channel that uses the downlink DCI format or the downlink control channel that indicates the release of the downlink SPS resource to schedule the PDSCH, except that the TPC is reused to indicate ACK/NACK.
- the TPC in the downlink control channel outside the downlink control channel of the resource.
- an apparatus for uplink transmission power control comprising:
- a receiving module configured to receive configuration information, and determine, according to the configuration information, a power control PC parameter corresponding to the first type of TTI length, and a PC parameter corresponding to the second type of TTI length;
- control module configured to determine, according to the PC parameter corresponding to the first type of TTI length, a transmit power of a channel transmitted using a first type of TTI length, and determine, according to a PC parameter corresponding to the second type of TTI length, a second type of TTI The transmit power of the channel transmitted in length.
- the first type of TTI is a TTI length of one subframe, and the second type of TTI is shorter than a TTI length of one subframe; or the first type of TTI is a short TTI length,
- the second type of TTI length is a normal TTI length, or the first type of TTI length is a first short TTI length, and the second type of TTI length is a second short TTI length.
- the receiving module is further configured to: receive RRC or broadcast signaling, acquire at least one of a path loss compensation factor and a first power offset value parameter corresponding to the first type of TTI length, and obtain a second type of TTI length. At least one of a corresponding path loss compensation factor and a second power offset value parameter.
- the control module is further configured to: receive a downlink control channel that uses the uplink DCI format to schedule the physical uplink shared channel PUSCH, where the TTI length of the PUSCH scheduled by the downlink control channel is And the sum of the power adjustment value indicated by the TPC field in the downlink control channel and the power adjustment value corresponding to the PUSCH transmitted by using the first type of TTI length as the first type of TTI length Describe the power adjustment value of the PUSCH;
- the power adjustment value indicated by the TPC field in the downlink control channel is compared with the previous TTI length of the second type.
- the sum of the power adjustment values corresponding to the transmitted PUSCH is used as the power adjustment value of the PUSCH.
- control module is further configured to: receive a downlink control channel in a downlink DCI format, or a downlink control channel in which a downlink SPS resource is released, for scheduling a physical downlink shared channel (PDSCH), where the PDSCH or the indication downlink SPS
- PDSCH physical downlink shared channel
- the ACK/NACK feedback information of the downlink control channel released by the resource is transmitted in the target PUCCH;
- the downlink control channel of the downlink DCI format of the PDSCH or the downlink SPS resource release is scheduled.
- the downlink control channel of the downlink DCI format or the indication of the downlink SPS resource release of the PDSCH is scheduled.
- the sum of the adjustment values is used as the power adjustment value of the PUSCH.
- control module is further configured to: receive a downlink control channel that uses a downlink DCI format or a downlink control channel that is used to release a downlink SPS resource, where the PDSCH or the downlink that indicates downlink SPS resource release is received.
- the control channel performs ACK/NACK feedback in the target PUCCH;
- the TTI length of the PUCCH is the TTI length of the second type
- the downlink control channel of the downlink DCI format of the PDSCH or the TPC domain in the downlink control channel that is used to release the downlink SPS resource is scheduled to be scheduled.
- the sum of the power adjustment value and the power adjustment value corresponding to the PUCCH transmitted using the second type of TTI length is used as the power adjustment value of the PUSCH.
- the TTI length of the PUCCH is notified in the downlink control channel, or configured to be signaled, or notified according to a pre-agreed rule.
- the TPC is used in the downlink control channel that uses the downlink DCI format or the downlink control channel that indicates the release of the downlink SPS resource to schedule the PDSCH, except that the TPC is reused to indicate ACK/NACK.
- the TPC in the downlink control channel outside the downlink control channel of the resource.
- an apparatus for uplink transmission power control comprising:
- transceiver coupled to the processor and configured to receive and transmit data under control of the processor
- the processor is configured to perform the following operations:
- a non-volatile computer storage medium storing computer readable instructions executable by a processor, the processing being performed when the computer readable instructions are executed by a processor
- the terminal may determine, according to the PC parameter corresponding to the TTI length of the first type, the transmit power of the channel transmitted using the first type of TTI length, and the corresponding length according to the second type of TTI length.
- the PC parameter determines the transmit power of the channel transmitted using the second type of TTI length, thereby implementing a scheme for configuring independent PC parameters for the first type of TTI length and the second type of TTI length, improving channel estimation accuracy, and ensuring reliable data transmission.
- 1 is a schematic diagram of a conventional PUSCH pilot structure
- FIG. 2 is a flow chart of a method of uplink transmission power control in some embodiments of the present disclosure
- FIG. 3 is a block diagram of an apparatus for uplink transmission power control in some embodiments of the present disclosure
- FIG. 4 is a block diagram of an apparatus for uplink transmission power control in some embodiments of the present disclosure.
- embodiments of the present disclosure may be implemented as a system, apparatus, device, method, or computer program product.
- embodiments of the present disclosure may be embodied in the form of full hardware, complete software (including firmware, resident software, microcode, etc.), or a combination of hardware and software.
- Step 201 the terminal receives the configuration information, the terminal determines the PC (power control) parameter corresponding to the first type of TTI length, and the PC parameter corresponding to the second type of TTI length according to the configuration information, and then proceeds to step 202;
- PC power control
- the length of the first type of TTI is the length of the TTI of one subframe, for example, the length of the first type of TTI is 1 ms (millisecond), and the length of the second type of TTI is shorter than the length of the TTI of one subframe, for example, the second type of TTI.
- the length of the first type of TTI is a short TTI length, for example, the first type of TTI length is 0.5 ms
- the second type of TTI length is a normal TTI length, for example, the second type of TTI is 1 ms (millisecond), or
- the first type of TTI length is the first short TTI length
- the second type of TTI length is the second short TTI length.
- Step 202 The terminal determines, according to the PC parameter corresponding to the TTI length of the first type, the transmit power of the channel transmitted by using the first type of TTI length, and determines, according to the PC parameter corresponding to the second type of TTI length, the channel that is transmitted by using the second type of TTI length. Transmit power.
- the terminal receives RRC (Radio Resource Control) or broadcast signaling, and acquires at least one of a path loss compensation factor and a first power offset value parameter corresponding to the first type of TTI length. And acquiring at least one of a path loss compensation factor and a second power offset value parameter corresponding to the second type of TTI length.
- RRC Radio Resource Control
- the terminal receives the downlink control channel of the uplink DCI (Downlink Control Information) format for scheduling the PUSCH, And a sum of the power adjustment value indicated by the TPC field in the downlink control channel and the power adjustment value corresponding to the PUSCH transmitted by using the same TTI length of the PUSCH as the power adjustment value of the PUSCH.
- the downlink control channel of the uplink DCI Downlink Control Information
- the power adjustment value indicated by the TPC field in the downlink control channel is used with the previous one.
- the sum of power adjustment values corresponding to the PUSCH transmitted by the TTI length is used as the power adjustment value of the PUSCH;
- the TTI length of the PUSCH scheduled by the downlink control channel is the TTI length of the second type, the downlink is The sum of the power adjustment value indicated by the TPC field in the control channel and the power adjustment value corresponding to the PUSCH transmitted by the previous TTI length of the second type is used as the power adjustment value of the PUSCH.
- PUCCH Physical Uplink Control Channel
- Method 1 Differentiate the TTI length of the downlink data:
- a downlink control channel in a downlink DCI format or a downlink control channel indicating a downlink SPS (Semi-Persistent Scheduling) resource release wherein the PDSCH or the downlink control indicating downlink SPS resource release
- the ACK/NACK feedback information of the channel is transmitted in the target PUCCH; the power adjustment value indicated by the TPC field in the downlink control channel and the downlink control of the previous bearer usage and the PDSCH or the indicated downlink SPS resource release.
- the downlink control channel of the downlink DCI format of the PDSCH or the indication downlink is scheduled.
- the power adjustment value indicated by the TPC field in the downlink control channel released by the SPS resource corresponds to the PUCCH of the ACK or NACK feedback information of the downlink control channel of the downlink control channel released by the previous bearer using the first type of TTI length transmission.
- the downlink control channel of the downlink DCI format or the indication of the downlink SPS resource release of the PDSCH is scheduled. Indicated by the TPC field in the downlink control channel The sum of the power adjustment value and the power adjustment value corresponding to the PUCCH corresponding to the ACK or NACK feedback information of the downlink control channel of the PDSCH or the indicated downlink SPS resource transmitted by the previous type of TTI length, as the power of the PUSCH Adjust the value.
- a downlink control channel in a downlink DCI format or a downlink control channel indicating downlink SPS resource release where the PDSCH or the downlink control channel indicating the release of the downlink SPS resource performs ACK/NACK feedback in the target PUCCH.
- the power adjustment value indicated by the TPC field in the downlink control channel is corresponding to the PUCCH previously transmitted using the first type TTI length. a sum of power adjustment values as a power adjustment value of the PUCCH;
- the TTI length of the PUCCH is the TTI length of the second type
- the downlink control channel using the downlink DCI format of the PDSCH or the TPC domain indicating the downlink SPS resource release d downlink control channel is to be scheduled.
- the sum of the power adjustment value and the power adjustment value corresponding to the PUCCH transmitted using the second type of TTI length is used as the power adjustment value of the PUSCH.
- the TTI length of the PUCCH is notified in the downlink control channel, or configured to be signaled, or notified according to a pre-agreed rule.
- the downlink control channel may be a channel that uses a length of 1 ms, or a channel that uses a length shorter than 1 ms.
- the PUCCH is sPUCCH
- the PUSCH is sPUSCH.
- the above PDSCH is sPDSCH.
- the TPC is used in the downlink control channel of the downlink DCI format or the downlink control channel indicating the release of the downlink SPS resource for scheduling the PDSCH, except that the TPC is reused for indicating ACK/ TPC in the downlink control channel outside the downlink control channel of the NACK resource.
- the power adjustment value corresponding to the TPC command corresponding to different TTI lengths may be reused in the definition in LTE Rel-8/9/10, or, for the short TTI, a new TPC command and power adjustment value may be defined. Correspondence.
- the terminal may determine, according to the PC parameter corresponding to the TTI length of the first type, the transmit power of the channel transmitted by using the first type of TTI length, and determine the use of the second type of TTI according to the PC parameter corresponding to the second type of TTI length.
- the transmission power of the transmitted channel thereby implementing a scheme for configuring independent PC parameters for the first type of TTI length and the second type of TTI length, improving the accuracy of channel estimation and ensuring reliable transmission of data.
- the PC parameter independent configuration scheme introduced in this embodiment includes: independently configuring cell-specific parameters in the open-loop parameters, independently configuring user-specific parameters in the open-loop parameters, and independently configuring the closed-loop correction coefficients, as follows:
- the channel is a PUSCH
- the TTI length in the system is distinguished, and is divided into 1 ms and 0.5 ms, that is, normal TTI and slot-based sTTI.
- At least one of P O_NOMINAL_PUSCH (j) and path loss compensation factors ⁇ (j) and K S in the cell-specific parameter is distinguished, wherein Ks is a cell-specific parameter configured by RRC, corresponding to the current transmission format.
- P O_NOMINAL_PUSCH (j) as an example
- P O_normalTTI_NOMINAL_PUSCH (j) and P O_sTTI_NOMINAL_PUSCH (j) are broadcasted to all terminals of the cell through SIB (System Information Block) information.
- SIB System Information Block
- the channel is a PUCCH
- the TTI length in the system is distinguished, and is divided into 1 ms and 0.5 ms, that is, normal TTI and slot-based sTTI.
- At least one of P O_NOMINAL_PUCCH (j) and ⁇ F_PUCCH (F) in the cell-specific parameter is distinguished.
- P O_NOMINAL_PUCCH (j) as an example, P O_normalTTI_NOMINAL_PUCCH (j) and P O_sTTI_NOMINAL_PUCCH (j) are broadcasted to all terminals of the cell through SIB information.
- the terminal receives the broadcast signaling and obtains the normal TTI and slot-based sTTI power control parameters, and the transmit power is:
- the channel is a PUSCH
- the TTI length in the system is distinguished, and is divided into 1 ms and 0.5 ms, that is, normal TTI and slot-based sTTI.
- the user-specific parameter P O_PUSCH (j) is configured.
- the UE-specific parameter P O_UE_PUSCH (j) is distinguished, and is divided into P O_normalTTI_UE_PUSCH (j) and P O_sTTI_UE_PUSCH (j), and is indicated to the terminal by RRC signaling.
- the terminal obtains normal TTI and slot-based sTTI power control parameters through RRC signaling.
- the transmit power is calculated as:
- the channel is a PUCCH
- the TTI length in the system is differentiated, and is divided into 1 ms and 0.5 ms, that is, a normal TTI and a slot-based sTTI, and a user-specific parameter P O_PUSCH (j) is configured.
- the at least one of the UE-specific parameters P O_UE_PUCCH (j) and ⁇ TxD (F′) is distinguished, and P O_UE_PUCCH (j) is taken as an example, and is divided into P O_normalTTI_UE_PUCCH (j) and P O_sTTI_UE_PUCCH (j), through RRC signaling.
- the terminal obtains normal TTI and slot-based sTTI power control parameters through RRC signaling.
- the transmit power is calculated as:
- the channel is a PUSCH
- the TTI length in the system is distinguished, and is divided into 1 ms and 0.5 ms, that is, normal TTI and slot-based sTTI.
- the closed-loop correction parameters for different TTI lengths are divided into ⁇ normalTTI_PUSCH and ⁇ sTTI_PUSCH .
- the base station sends the downlink control channel 1 for scheduling the PUSCH1 of the normal TTI transmission in the subframe i, wherein the TPC field indicates ⁇ normalTTI_PUSCH , and the base station sends the downlink control channel 2 for scheduling the PUSCH2 of the slot-based sTTI transmission in the subframe j,
- the TPC field therein indicates ⁇ sTTI_PUSCH .
- the terminal side receives the downlink control channel 1, determines that the TTI length of the PUSCH1 scheduled by the downlink control channel 1 is the normal TTI length, and obtains the ⁇ normalTTI_PUSCH value according to the TPC domain of the downlink control channel 1, and accumulates the value to the previous normal.
- f normalTTI (i) f normalTTI (i-1)+ ⁇ normalTTI_PUSCH (iK PUSCH ), and then determining the transmit power of PUSCH1 according to the following formula;
- the downlink control channel 2 determines that the TTI length of the PUSCH2 scheduled by the downlink control channel 2 is a slot-based sTTI length, and obtains a ⁇ sTTI_PUSCH value according to the TPC domain of the downlink control channel 2, and accumulates the value to the previous slot-based
- the value of f(i-1) when PUSCH1 and PUSCH2 calculates the transmit power of the PUSCH 1 and PUSCH2 .
- the channel is a PUCCH
- the TTI length in the system is distinguished, and is divided into 1 ms and 0.5 ms, that is, normal TTI and slot-based sTTI.
- the closed-loop correction parameters for different TTI lengths are divided into ⁇ normalTTI_PUCCH and ⁇ sTTI_PUCCH .
- the base station sends the downlink control channel 1 for scheduling the PDSCH1 of the normal TTI transmission in the subframe i or indicating the downlink SPS resource release, wherein the TPC domain indicates ⁇ normalTTI_PUCCH , and the base station sends the downlink control channel 2 for scheduling the slot in the subframe j.
- the PDSCH2 transmitted according to the sTTI indicates the release of the downlink SPS resource, where the TPC field indicates ⁇ sTTI_PUCCH .
- the terminal side receiving the downlink control channel 1, determining whether the PDSCH1 scheduled by the downlink control channel 1 or the downlink control channel indicating the downlink SPS resource release is the normal TTI length, and determining the PDSCH1 or the downlink control channel indicating the release of the downlink SPS resource.
- the ACK/NACK feedback information is transmitted in the PUCCH1, and the ⁇ normalTTI_PUCCH value is obtained according to the TPC domain of the downlink control channel 1, and the value is integrated into the TPC-derived power adjustment value corresponding to the previous PUCCH, and the previous PUCCH
- the terminal side receiving the downlink control channel 1, determining the length of the TTI of the PUCCH1 of the PDSCH1 scheduled by the downlink control channel 1 or the ACK/NACK feedback information indicating the downlink control channel released by the downlink SPS resource is a normal TTI length, according to the downlink control channel
- the TTI length is a slot-based TTI length, and
- f sTTI (i) f sTTI (i-1)+ ⁇ sTTI_PUCCH (iK PUCCH ), and then the transmission power of PUCCH2 is determined according to the following formula; that is, the above PUCCH1 and PUCC
- the value of f(i-1) when H2 calculates f(i) is different, and is a value obtained by integrating the different TTI lengths in the aforementioned transmission.
- an apparatus for uplink transmission power control is shown, and the apparatus 300 includes include:
- the receiving module 301 is configured to receive configuration information, where the terminal determines, according to the configuration information, a power control PC parameter corresponding to the first type of TTI length, and a PC parameter corresponding to the second type of TTI length;
- the control module 302 is configured to determine, according to the PC parameter corresponding to the first type of TTI length, a transmit power of a channel transmitted using a first type of TTI length, and determine a second type according to a PC parameter corresponding to the second type of TTI length. The transmit power of the channel transmitted by the TTI length.
- the first type of TTI is a normal TTI length of one subframe, and the second type of TTI is shorter than a TTI length of one subframe; or, the first type The TTI length is a short TTI length, the second type TTI length is a normal TTI length, or the first type TTI length is a first short TTI length, and the second type TTI length is a second short TTI length. That is, only normal and sTTI can be distinguished, and sTTI is not further length-divided; further, the sTTI length can be further distinguished, for example, one sTTI length and another sTTI length are independently configured.
- the receiving module is further configured to: receive RRC or broadcast signaling, and acquire at least one of a path loss compensation factor and a first power offset value parameter corresponding to the first type of TTI length, where Obtaining at least one of a path loss compensation factor and a second power offset value parameter corresponding to the second type of TTI length, where the first power offset value parameter and the second power offset value parameter may include a UE-specific part and/or a cell -specific part.
- the control module is further configured to: receive a downlink control channel that uses the uplink DCI format to schedule the physical uplink shared channel PUSCH, where the downlink control channel is scheduled.
- the terminal corresponds the power adjustment value indicated by the TPC field in the downlink control channel to the PUSCH transmitted by using the first type of TTI length. The sum of the power adjustment values as the power adjustment value of the PUSCH;
- the terminal uses the power adjustment value indicated by the TPC field in the downlink control channel with the previous one.
- the sum of the power adjustment values corresponding to the PUSCH of the TTI-like length transmission is used as the power adjustment value of the PUSCH.
- control module is further configured to: receive a downlink control channel in a downlink DCI format or indicate a downlink SPS resource, where the physical downlink shared channel PDSCH is scheduled. a downlink control channel, where the PDSCH or the ACK/NACK feedback information indicating the downlink control channel released by the downlink SPS resource is transmitted in the target PUCCH;
- the downlink control channel of the downlink DCI format of the PDSCH or the downlink SPS resource release is scheduled.
- the downlink control channel of the downlink DCI format or the indication of the downlink SPS resource release of the PDSCH is scheduled.
- the sum of the adjustment values is used as the power adjustment value of the PUSCH.
- control module is further configured to: receive a downlink control channel in a downlink DCI format or a downlink control channel in which a downlink SPS resource is released, where the PDSCH or the indication is received.
- the downlink control channel released by the downlink SPS resource performs ACK/NACK feedback in the target PUCCH; the target PUCCH is that the PDSCH indicating the reception or the PDCCH indicating the release of the SPS resource are all corresponding to the ACK/ in the same PUCCH that needs to determine the power. NACK feedback.
- the TTI length of the PUCCH is the TTI length of the second type
- the downlink control channel of the downlink DCI format of the PDSCH or the TPC domain in the downlink control channel that is used to release the downlink SPS resource is scheduled to be scheduled.
- the sum of the power adjustment value and the power adjustment value corresponding to the PUCCH transmitted using the second type of TTI length is used as the power adjustment value of the PUSCH.
- the TTI length of the PUCCH is notified in the downlink control channel, or is configured to be notified by signaling, or is notified according to a pre-agreed rule.
- the TPC is used in the downlink control channel that uses the downlink DCI format or the downlink control channel that is used to release the downlink SPS resource to schedule the PDSCH, except that the TPC is reused to indicate ACK/ TPC in the downlink control channel outside the downlink control channel of the NACK resource.
- the terminal may determine, according to the PC parameter corresponding to the TTI length of the first type, the transmit power of the channel transmitted by using the first type of TTI length, and determine the use of the second type of TTI according to the PC parameter corresponding to the second type of TTI length.
- the transmission power of the transmitted channel thereby implementing a scheme for configuring independent PC parameters for the first type of TTI length and the second type of TTI length, improving the accuracy of channel estimation and ensuring reliable transmission of data.
- an apparatus for uplink transmission power control including:
- the processor 404 is configured to read the program in the memory 405 and perform the following process:
- the transceiver 401 is configured to receive and transmit data under the control of the processor 404.
- bus 400 may include any number of interconnected buses and bridges, and bus 400 will include one or more processors represented by processor 404 and memory represented by memory 405.
- the various circuits are linked together.
- the bus 400 can also link various other circuits, such as peripherals, voltage regulators, and power management circuits, as is known in the art and, therefore, will not be further described herein.
- Bus interface 403 provides an interface between bus 400 and transceiver 401.
- Transceiver 401 can be an element or a plurality of elements, such as multiple receivers and transmitters, providing means for communicating with various other devices on a transmission medium.
- Data processed by processor 404 is transmitted over wireless medium via antenna 402. Further, antenna 402 also receives the data and transmits the data to processor 404.
- the processor 404 is responsible for managing the bus 400 and the usual processing, and can also provide various functions including timing, peripheral interfaces, voltage regulation, power management, and other control functions.
- the memory 405 can be used to store data used by the processor 404 when performing operations.
- the processor 404 can be a CPU, an ASIC, an FPGA, or a CPLD.
- the first type of TTI is a length of one subframe, and the second type of TTI is shorter than one subframe; or the first type of TTI is a short TTI length,
- the second type of TTI length is a normal TTI length, or the first type of TTI length is a first short TTI length, and the second type of TTI length is a second short TTI length.
- the processor 404 is further configured to: receive RRC or broadcast signaling, acquire at least one of a path loss compensation factor and a first power offset value parameter corresponding to the TTI length of the first type, and obtain a TTI length corresponding to the second type. At least one of a path loss compensation factor and a second power offset value parameter.
- the processor 404 receives a downlink control channel that uses the uplink DCI format to schedule the physical uplink shared channel PUSCH, where the TTI length of the PUSCH scheduled by the downlink control channel is the first As the TTI-like length, the terminal compares the power adjustment value indicated by the TPC field in the downlink control channel with the power adjustment value corresponding to the PUSCH transmitted by using the first type of TTI length as the PUSCH power adjustment value;
- the terminal uses the power adjustment value indicated by the TPC field in the downlink control channel with the previous one.
- the sum of the power adjustment values corresponding to the PUSCH of the TTI-like length transmission is used as the power adjustment value of the PUSCH.
- the processor 404 is configured to: receive a downlink control channel in a downlink DCI format or a downlink control channel that is used to release a downlink SPS resource, where the PDSCH or the downlink that indicates downlink SPS resource release is received.
- the ACK/NACK feedback information of the control channel is transmitted in the target PUCCH;
- the downlink control channel of the downlink DCI format of the PDSCH or the downlink SPS resource release is scheduled.
- the TTI length of the downlink control channel released by the PDSCH or the indicated downlink SPS resource When the second type of TTI is the length, the power adjustment value indicated by the downlink control channel in the downlink DCI format or the TPC field in the downlink control channel in which the downlink SPS resource is released is scheduled to be the same as the previous bearer.
- the sum of the power adjustment values corresponding to the PUCCH of the ACK or the NACK feedback information of the downlink control channel of the PDSCH or the indicated downlink SPS resource transmitted using the second type of TTI length is used as the power adjustment value of the PUSCH.
- the processor 404 is configured to: receive a downlink control channel in a downlink DCI format or a downlink control channel in which the downlink SPS resource is released, where the PDSCH or the downlink control channel indicating the release of the downlink SPS resource is in the target. Perform ACK/NACK feedback in the PUCCH;
- the TTI length of the PUCCH is the TTI length of the second type
- the downlink control channel of the downlink DCI format of the PDSCH or the TPC domain in the downlink control channel that is used to release the downlink SPS resource is scheduled to be scheduled.
- the sum of the power adjustment value and the power adjustment value corresponding to the PUCCH transmitted using the second type of TTI length is used as the power adjustment value of the PUSCH.
- the TTI length of the PUCCH is notified in the downlink control channel, or configured to be signaled, or notified according to a pre-agreed rule.
- the TPC is used in the downlink control channel that uses the downlink DCI format or the downlink control channel that indicates the release of the downlink SPS resource to schedule the PDSCH, except that the TPC is reused to indicate ACK/NACK.
- the TPC in the downlink control channel outside the downlink control channel of the resource.
- the terminal may determine, according to the PC parameter corresponding to the TTI length of the first type, the transmit power of the channel transmitted by using the first type of TTI length, and determine the use of the second type of TTI according to the PC parameter corresponding to the second type of TTI length.
- the transmission power of the transmitted channel thereby implementing a scheme for configuring independent PC parameters for the first type of TTI length and the second type of TTI length, improving the accuracy of channel estimation and ensuring reliable transmission of data.
- system and “network” are used interchangeably herein.
- B corresponding to A means that B is associated with A, and B can be determined from A.
- determining B from A does not mean that B is only determined based on A, and that B can also be determined based on A and/or other information.
- the disclosed method and apparatus may be implemented in other manners.
- the device embodiments described above are merely illustrative.
- the division of the unit is only a logical function division.
- there may be another division manner for example, multiple units or components may be combined or Can be integrated into another system, or some features can be ignored or not executed.
- 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 in an electrical, mechanical or other form.
- each functional unit in various embodiments of the present disclosure may be integrated into one processing unit, or each unit may be physically included 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 hardware plus software functional units.
- the above-described integrated unit implemented in the form of a software functional unit can be stored in a computer readable storage medium.
- the above software functional unit is stored in a storage medium and includes a plurality of instructions for causing a computer device (which may be a personal computer, a server, or a network side device, etc.) to perform part of the steps of the transceiving method of the various embodiments of the present disclosure.
- the aforementioned storage medium package Including: U disk, mobile hard disk, read-only memory (ROM), random access memory (Random Access Memory, RAM), disk or optical disk, and other media that can store program code.
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Abstract
Description
Claims (18)
- 一种上行传输功率控制的方法,包括:终端接收配置信息,所述终端根据配置信息确定第一类TTI(Transmission Time Interval)长度对应的PC(Power Control)参数,以及第二类TTI长度对应的PC参数;所述终端根据所述第一类TTI长度对应的PC参数确定使用第一类TTI长度传输的信道的发射功率,以及根据所述第二类TTI长度对应的PC参数确定使用第二类TTI长度传输的信道的发射功率。
- 根据权利要求1所述的方法,其中,所述第一类TTI长度为一个子帧的TTI长度,所述第二类TTI长度为短于一个子帧的TTI长度;或者,所述第一类TTI长度为短TTI长度,所述第二类TTI长度为正常TTI长度,或者第一类TTI长度为第一种短TTI长度,第二类TTI长度为第二种短TTI长度。
- 根据权利要求1所述的方法,其中,所述终端接收配置信息,所述终端根据配置信息确定第一类TTI长度对应的功率控制PC参数,以及第二类TTI长度对应的PC参数,包括:所述终端接收RRC(Radio Resource Control)或广播信令,获取第一类TTI长度对应的路损补偿因子和第一功率偏移值参数中的至少一个,获取第二类TTI长度对应的路损补偿因子和第二功率偏移值参数中的至少一个。
- 根据权利要求1所述的方法,其中,对于PUSCH(Physical Uplink Shared Control Channel)开启TPC(Transmit Power Control)累计方式,终端接收配置信息,所述终端根据配置信息确定第一类TTI长度对应的功率控制PC参数,以及第二类TTI长度对应的PC参数,包括:所述终端接收调度PUSCH的使用上行DCI(Downlink Control Information)格式的下行控制信道,当所述下行控制信道所调度的PUSCH的TTI长度为所述第一类TTI长度时,所述终端将所述下行控制信道中的TPC域所指示的功率调整值与前一个使用所述第一类TTI长度传输的PUSCH所对应的功率调整值之和,作为所述PUSCH的功率调整值;当所述下行控制信道所调度的PUSCH的TTI长度为所述第二类TTI长 度时,所述终端将所述下行控制信道中的TPC域所指示的功率调整值与前一个使用所述第二类TTI长度传输的PUSCH所对应的功率调整值之和,作为所述PUSCH的功率调整值。
- 根据权利要求1所述的方法,其中,终端接收配置信息,所述终端根据配置信息确定第一类TTI长度对应的功率控制PC参数,以及第二类TTI长度对应的PC参数,包括:所述终端接收调度PDSCH(Physical downlink Shared Control Channel)的使用下行DCI格式的下行控制信道或指示下行SPS(Semi-Persistent Scheduling)资源释放的下行控制信道,其中,所述PDSCH或所述指示下行SPS资源释放的下行控制信道的ACK/NACK反馈信息在目标PUCCH(Physical Uplink Control Channel)中进行传输;当所述PDSCH或所述指示下行SPS资源释放的下行控制信道的TTI长度为所述第一类TTI长度时,将调度所述PDSCH的使用下行DCI格式的下行控制信道或指示下行SPS资源释放的下行控制信道中的TPC域所指示的功率调整值与前一个承载使用第一类TTI长度传输的PDSCH或指示下行SPS资源释放的下行控制信道的ACK或NACK反馈信息的PUCCH所对应的功率调整值之和,作为所述PUCCH的功率调整值;当所述PDSCH或所指示下行SPS资源释放的下行控制信道的TTI长度为所述第二类TTI长度时,将调度所述PDSCH的使用下行DCI格式的下行控制信道或所述指示下行SPS资源释放的下行控制信道中的TPC域所指示的功率调整值与前一个承载使用第二类TTI长度传输的PDSCH或指示的下行SPS资源是否的下行控制信道的ACK或NACK反馈信息的PUCCH所对应的功率调整值之和,作为所述PUSCH的功率调整值。
- 根据权利要求1所述的方法,其中,终端接收配置信息,所述终端根据配置信息确定第一类TTI长度对应的功率控制PC参数,以及第二类TTI长度对应的PC参数,包括:所述终端接收调度PDSCH的使用下行DCI格式的下行控制信道或指示下行SPS资源释放的下行控制信道,其中,所述PDSCH或所述指示下行SPS资源释放的下行控制信道在目标PUCCH中进行ACK/NACK反馈;当所述PUCCH的TTI长度为所述第一类TTI长度时,将所述下行控制信道中的TPC域所指示的功率调整值与前一个使用第一类TTI长度传输的PUCCH所对应的功率调整值之和,作为所述PUCCH的功率调整值;当所述PUCCH的TTI长度为所述第二类TTI长度时,将调度所述PDSCH的使用下行DCI格式的下行控制信道或所述指示下行SPS资源释放的下行控制信道中的TPC域所指示的功率调整值与前一个使用第二类TTI长度传输的PUCCH所对应的功率调整值之和,作为所述PUSCH的功率调整值。
- 根据权利要求6所述的方法,其中,所述PUCCH的TTI长度是所述下行控制信道中通知的,或者配置信令通知的,或者根据预先约定的规则通知的。
- 根据权利要求5或6所述的方法,其中,对于所述PUCCH,所述TPC为所述调度所述PDSCH的使用下行DCI格式的下行控制信道或所述指示下行SPS资源释放的下行控制信道中除了将TPC重用于指示ACK/NACK资源的下行控制信道之外的下行控制信道中的TPC。
- 一种上行传输功率控制的装置,包括:接收模块,用于接收配置信息,根据配置信息确定第一类TTI(Transmission Time Interval)长度对应的PC(Power Control)参数,以及第二类TTI长度对应的PC参数;控制模块,用于根据所述第一类TTI长度对应的PC参数确定使用第一类TTI长度传输的信道的发射功率,以及根据所述第二类TTI长度对应的PC参数确定使用第二类TTI长度传输的信道的发射功率。
- 根据权利要求9所述的装置,其中,所述第一类TTI长度为一个子帧的TTI长度,所述第二类TTI长度为短于一个子帧的TTI长度;或者,所述第一类TTI长度为短TTI长度,所述第二类TTI长度为正常TTI长度,或者第一类TTI长度为第一种短TTI长度,第二类TTI长度为第二种短TTI长度。
- 根据权利要求9所述的装置,其中,所述接收模块进一步用于:接收RRC(Radio Resource Control)或广播信令,获取第一类TTI长度对应的路损补偿因子和第一功率偏移值参数中的至少一个,获取第二类TTI长度对 应的路损补偿因子和第二功率偏移值参数中的至少一个。
- 根据权利要求9所述的装置,其中,对于PUSCH开启TPC(Transmit Power Control)累计方式,所述控制模块进一步用于:接收调度PUSCH(Physical Uplink Shared Control Channel)的使用上行DCI(Downlink Control Information)格式的下行控制信道,当所述下行控制信道所调度的PUSCH的TTI长度为所述第一类TTI长度时,将所述下行控制信道中的TPC域所指示的功率调整值与前一个使用所述第一类TTI长度传输的PUSCH所对应的功率调整值之和,作为所述PUSCH的功率调整值;当所述下行控制信道所调度的PUSCH的TTI长度为所述第二类TTI长度时,将所述下行控制信道中的TPC域所指示的功率调整值与前一个使用所述第二类TTI长度传输的PUSCH所对应的功率调整值之和,作为所述PUSCH的功率调整值。
- 根据权利要求9所述的装置,其中,所述控制模块进一步用于:接收调度PDSCH(Physical downlink Shared Control Channel)的使用下行DCI格式的下行控制信道或指示下行SPS(Semi-Persistent Scheduling)资源释放的下行控制信道,其中,所述PDSCH或所述指示下行SPS资源释放的下行控制信道的ACK/NACK反馈信息在目标PUCCH(Physical Uplink Control Channel)中进行传输;当所述PDSCH或所述指示下行SPS资源释放的下行控制信道的TTI长度为所述第一类TTI长度时,将调度所述PDSCH的使用下行DCI格式的下行控制信道或指示下行SPS资源释放的下行控制信道中的TPC域所指示的功率调整值与前一个承载使用第一类TTI长度传输的PDSCH或指示下行SPS资源释放的下行控制信道的ACK或NACK反馈信息的PUCCH所对应的功率调整值之和,作为所述PUCCH的功率调整值;当所述PDSCH或所指示下行SPS资源释放的下行控制信道的TTI长度为所述第二类TTI长度时,将调度所述PDSCH的使用下行DCI格式的下行控制信道或所述指示下行SPS资源释放的下行控制信道中的TPC域所指示的功率调整值与前一个承载使用第二类TTI长度传输的PDSCH或指示的下行SPS资源是否的下行控制信道的ACK或NACK反馈信息的PUCCH所对应的 功率调整值之和,作为所述PUSCH的功率调整值。
- 根据权利要求9所述的装置,其中,所述控制模块进一步用于:接收调度PDSCH的使用下行DCI格式的下行控制信道或指示下行SPS资源释放的下行控制信道,其中,所述PDSCH或所述指示下行SPS资源释放的下行控制信道在目标PUCCH中进行ACK/NACK反馈;当所述PUCCH的TTI长度为所述第一类TTI长度时,将所述下行控制信道中的TPC域所指示的功率调整值与前一个使用第一类TTI长度传输的PUCCH所对应的功率调整值之和,作为所述PUCCH的功率调整值;当所述PUCCH的TTI长度为所述第二类TTI长度时,将调度所述PDSCH的使用下行DCI格式的下行控制信道或所述指示下行SPS资源释放的下行控制信道中的TPC域所指示的功率调整值与前一个使用第二类TTI长度传输的PUCCH所对应的功率调整值之和,作为所述PUSCH的功率调整值。
- 根据权利要求14所述的装置,其中,所述PUCCH的TTI长度是所述下行控制信道中通知的,或者配置信令通知的,或者根据预先约定的规则通知的。
- 根据权利要求13或14所述的装置,其中,对于所述PUCCH,所述TPC为所述调度所述PDSCH的使用下行DCI格式的下行控制信道或所述指示下行SPS资源释放的下行控制信道中除了将TPC重用于指示ACK/NACK资源的下行控制信道之外的下行控制信道中的TPC。
- 一种上行传输功率控制的设备,包括:处理器;以及收发机,与所述处理器相连接,并用于在所述处理器的控制下接收和发送数据,其中所述处理器用于执行以下操作:接收配置信息,根据配置信息确定第一类TTI(Transmission Time Interval)长度对应的PC(Power Control)参数,以及第二类TTI长度对应的PC参数;根据所述第一类TTI长度对应的PC参数确定使用第一类TTI长度传输的信道的发射功率,以及根据所述第二类TTI长度对应的PC参数确定使用第二类TTI长度传输的信道的发射功率。
- 一种非易失性计算机存储媒介,存储有能够被处理器执行的计算机可读指令,当所述计算机可读指令被处理器执行时,所述处理器执行以下操作:接收配置信息,根据配置信息确定第一类TTI(Transmission Time Interval)长度对应的PC(Power Control)参数,以及第二类TTI长度对应的PC参数;根据所述第一类TTI长度对应的PC参数确定使用第一类TTI长度传输的信道的发射功率,以及根据所述第二类TTI长度对应的PC参数确定使用第二类TTI长度传输的信道的发射功率。
Priority Applications (5)
Application Number | Priority Date | Filing Date | Title |
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KR1020197003225A KR102143848B1 (ko) | 2016-07-11 | 2017-07-06 | 업링크 전송 파워 제어의 방법, 장치, 기기 및 저장 매체 |
ES17826926T ES2829572T3 (es) | 2016-07-11 | 2017-07-06 | Procedimiento, aparato y equipo para controlar la potencia de transmisión de enlace ascendente y el medio de almacenamiento |
US16/316,882 US10560902B2 (en) | 2016-07-11 | 2017-07-06 | Method, device and apparatus for controlling uplink transmission power, and storage medium |
EP17826926.2A EP3484214B1 (en) | 2016-07-11 | 2017-07-06 | Method, apparatus and equipment for controlling uplink transmission power and storage medium |
JP2019500880A JP6992043B2 (ja) | 2016-07-11 | 2017-07-06 | アップリンク伝送電力制御方法、装置、機器及び記憶媒体 |
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CN107613553B (zh) | 2019-11-22 |
US20190230600A1 (en) | 2019-07-25 |
EP3484214B1 (en) | 2020-09-09 |
KR102143848B1 (ko) | 2020-08-28 |
JP2019520776A (ja) | 2019-07-18 |
CN107613553A (zh) | 2018-01-19 |
EP3484214A1 (en) | 2019-05-15 |
ES2829572T3 (es) | 2021-06-01 |
EP3484214A4 (en) | 2019-08-07 |
JP6992043B2 (ja) | 2022-01-13 |
KR20190025972A (ko) | 2019-03-12 |
US10560902B2 (en) | 2020-02-11 |
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