CN109952780A - Method and apparatus for the radio resource measurement in wireless communication system - Google Patents

Method and apparatus for the radio resource measurement in wireless communication system Download PDF

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Publication number
CN109952780A
CN109952780A CN201880003408.0A CN201880003408A CN109952780A CN 109952780 A CN109952780 A CN 109952780A CN 201880003408 A CN201880003408 A CN 201880003408A CN 109952780 A CN109952780 A CN 109952780A
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CN
China
Prior art keywords
user equipment
rrm
state
configured
configuration
Prior art date
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CN201880003408.0A
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Chinese (zh)
Inventor
亚里·加可·伊索坎加斯
杨宁
Original Assignee
Oppo广东移动通信有限公司
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Publication date
Priority to US201762519311P priority Critical
Priority to US62/519,311 priority
Application filed by Oppo广东移动通信有限公司 filed Critical Oppo广东移动通信有限公司
Priority to PCT/CN2018/082764 priority patent/WO2018228038A1/en
Publication of CN109952780A publication Critical patent/CN109952780A/en

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W24/00Supervisory, monitoring or testing arrangements
    • H04W24/10Scheduling measurement reports ; Arrangements for measurement reports
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W76/00Connection management
    • H04W76/20Manipulation of established connections
    • H04W76/27Transitions between radio resource control [RRC] states

Abstract

For the method and apparatus of the radio resource measurement at the user equipment in wireless communication system, this method includes obtaining radio resource measurement (RRM) configuration, based on RRM configuration triggering measurement, and sends the measurements to base station (BS).User equipment and BS are configured as including operating together in one of state below: idle, inactive or suspended state, and connection or state of activation.RRM is configured to idle, inactive or suspended state.

Description

Method and apparatus for the radio resource measurement in wireless communication system

Cross reference to related applications

This application claims the U.S. Provisional Application No.62/519 submitted on June 14th, 2017,311 priority is complete Portion's content is incorporated by reference into the application.

Technical field

This application involves communication system, the method that the radio resource in wireless communication system measures is more particularly related to And device.

Background technique

In the mobile communication network, via between user equipment (UE, User Equipment) and mobile communications network Short grouping transmission session transmits data.Short grouping transmission session only includes the data of hundreds of kilobytes.Starting with UE's Before data transmission, network needs to configure radio resource for UE.In order to configure required radio resource and relevant bearer, network is needed Will certain measurement results from UE to determine the cell or evolution node B (eNB, evolved that will carry out data transmission for UE Node B)。

However, UE, which may not execute measurement or execute, is not suitable for network when the data that UE not sent or received To determine the measurement of serving cell or eNB.For example, in long term evolution (LTE, long-term evolution) wireless access In system, before UE needs to receive or send data, UE is in idle (IDLE) state.UE in IDLE state is executable For some measurements of IDLE state mobile management, such as the selection of the autonomous cell UE and gravity treatment.For IDLE state mobility The measurement result of management determine for data transmission serving cell or eNB when be to LTE wireless access system and its network Inaccurate and not applicable.

When the demand for occurring transmitting data, network needs to configure wireless heterogeneous networks (RRC, the radio with UE Resource control) connection, and UE is configured to execute accurately measurement by RRC connection.UE usually requires to measure its week The hundreds of milliseconds of the cell enclosed, and send the measurements to it and service eNB.Then, service eNB can accurately be surveyed according to these Measure the radio bearer configuration of result adjustment and optimization for the data transmission between UE and network.In other words, exist from needs Data are transferred to the time delay of the radio bearer configuration of configuration optimization.Such time delay leads to transmission delay or inefficient biography It is defeated.

Summary of the invention

Embodiments herein provides the improved method and dress for the radio resource measurement in wireless communication system It sets.

These embodiments include a kind of method that the user equipment in wireless communication system carries out radio resource measurement. This method includes obtaining radio resource measurement (RRM) configuration;Triggering measurement is configured based on RRM;And measurement result is sent to Base station (BS, base station).User equipment and BS are configured as including operating together in one of state of the following terms: Idle, inactive or suspended state, and connection or state of activation.The RRM is configured to idle, the inactive or hang-up State.

These embodiments further include a kind of base of the radio resource measurement at the user equipment in wireless communication system It stands the method for (BS).This method includes receiving to indicate from user equipment, wherein instruction instruction RRM configuration;And it is set from user It is standby to receive the result based on the RRM measurement configured.User equipment and BS are configured as including in one of state of the following terms It operates together: idle, inactive or suspended state, and connection or state of activation.The RRM is configured to described idle, non- Activation or suspended state.

These embodiments further include a kind of base of the radio resource measurement at the user equipment in wireless communication system It stands the method for (BS).This method includes that RRM configuration is sent to user equipment;And configured from user equipment reception based on RRM The result of measurement.User equipment and BS are configured as including operating together in one of state of the following terms: idle, inactive Or suspended state, and connection or state of activation.The RRM is configured to idle, the inactive or suspended state.

These embodiments further include a kind of user equipment for the radio resource measurement in wireless communication system.The user Equipment includes memory and processor for storing instruction, the processor is configured to executing instruction so that the user sets It is standby: to obtain RRM configuration;Triggering measurement is configured based on RRM;And the result of measurement is sent to base station (BS).User equipment and BS is configured as operating together in one of the state for including the following terms: idle, inactive or suspended state, and connection or State of activation.The RRM is configured to idle, the inactive or suspended state.

These embodiments further include a kind of network of wireless resource management for the user equipment in wireless communication system Device.The network equipment includes memory and processor for storing instruction, the processor is configured to execute instruction with Make network equipment: receiving and indicate from user equipment, wherein instruction instruction RRM configuration;And it is received from user equipment and is based on RRM The result of the measurement of configuration.User equipment and network equipment are configured as including grasping together in one of state of the following terms Make: idle, inactive or suspended state, and connection or state of activation.The RRM be configured to it is described it is idle, it is inactive or Suspended state.

These embodiments further include a kind of network of wireless resource management for the user equipment in wireless communication system Device.The network equipment includes memory and processor for storing instruction, the processor is configured to execute instruction with Make network equipment: sending RRM configuration to user equipment;And the result based on the RRM measurement configured is received from user equipment.With Family equipment and network equipment are configured as including operating together in one of state of the following terms: idle, inactive or hang-up State, and connection or state of activation.The RRM is configured to idle, the inactive or suspended state.

These embodiments further include a kind of non-transitory computer-readable medium, which deposits Instruction is contained, described instruction can be executed by the one or more processors of device to execute the radio resource in wireless communication system The method of management.This method includes obtaining RRM configuration;Triggering measurement is configured based on RRM;And measurement result is sent to base station (BS).The device and BS are configured as including operating together in one of state of the following terms: idle, inactive or hang-up shape State, and connection or state of activation.The RRM is configured to idle, the inactive or suspended state.

These embodiments further include a kind of non-transitory computer-readable medium, which deposits Instruction is contained, described instruction can be executed by the one or more processors of device to execute the radio resource in wireless communication system The method of management.This method includes receiving to indicate from user equipment, wherein instruction instruction RRM configuration;And from user equipment Receive the result based on the RRM measurement configured.User equipment and device are configured as including in one of state of the following terms Operation: idle, inactive or suspended state, and connection or state of activation.The RRM is configured to described idle, inactive Or suspended state.

These embodiments further include a kind of non-transitory computer-readable medium, which deposits Instruction is contained, described instruction can be executed by the one or more processors of device to execute the radio resource in wireless communication system The method of management.This method includes that radio resource measurement (RRM) configuration is sent to user equipment;And base is received from user equipment In the result of the measurement of RRM configuration.User equipment and device are configured as including grasping together in one of state of the following terms Make: idle, inactive or suspended state, and connection or state of activation.The RRM be configured to it is described it is idle, it is inactive or Suspended state.

It should be appreciated that above general description and the following detailed description be only it is exemplary and illustrative, be not Limitation to the claimed invention.

Detailed description of the invention

Fig. 1 shows the exemplary scene of the wireless communication system according to some embodiments of the present application.

Fig. 2 shows the exemplary scenes according to two wireless communication systems of some embodiments of the present application.

Fig. 3 A is the example state diagram of the user equipment in the wireless communication system according to some embodiments of the present application.

Fig. 3 B is the exemplary of the user equipment between two wireless communication systems according to some embodiments of the present application State diagram.

Fig. 4 A is the example state diagram of the base station in the wireless communication system according to some embodiments of the present application.

Fig. 4 B is the example state diagram of the base station in two wireless communication systems according to some embodiments of the present application.

Fig. 5 be in the wireless communication system according to some embodiments of the present application in connection or state of activation it is exemplary The schematic diagram of radio resource measurement method.

Fig. 6 is in the wireless communication system according to some embodiments of the present application in idle, inactive or suspended state Example wireless resource measurement method schematic diagram.

Fig. 7 is in the wireless communication system according to some embodiments of the present application in idle, inactive or suspended state Example wireless resource measurement method schematic diagram.

Fig. 8 is in the wireless communication system according to some embodiments of the present application in idle, inactive or suspended state Example wireless resource measurement method schematic diagram.

Fig. 9 is in the wireless communication system according to some embodiments of the present application in idle, inactive or suspended state Example wireless resource measurement method schematic diagram.

Figure 10 is idle, inactive in user equipment in the wireless communication system according to some embodiments of the present application Or the schematic diagram of the example wireless resource measurement method of suspended state.

Figure 11 is idle, the inactive or extension in the wireless communication system according to some embodiments of the present application in base station The schematic diagram of the example wireless resource measurement method for the state of rising.

Figure 12 is according to some embodiments of the present application for idle, the inactive or hang-up shape in wireless communication system The schematic diagram of the illustrative user device of radio resource measurement under state.

Figure 13 is according to some embodiments of the present application for idle, the inactive or hang-up shape in wireless communication system The schematic diagram of the exemplary network device of radio resource measurement under state.

Specific embodiment

With detailed reference to exemplary embodiment, the example is shown in the accompanying drawings.It is described below with reference to attached drawing, wherein unless It is otherwise noted, otherwise the same numbers in different attached drawings indicate the same or similar element.Following in exemplary embodiment is retouched Implementation described in stating does not represent all implementations consistent with the present invention.On the contrary, they are only and appended power The example of the consistent device and method of aspect related to the present invention described in benefit requirement.

Fig. 1 shows the exemplary scene of the wireless communication system according to some embodiments of the present application.Wireless communication system System includes base station 120, user equipment 140 and user equipment 160.Base station 120 is the end node of cordless communication network.For example, base It stands and 120 can be evolution node B (eNB) in LTE wireless access system or the section of the 5th generation (5G) in 5G wireless access system Point B (gNB).Base station 120 sends the radio signal of the system information of carrying wireless communication system.It is in around base station 120 User equipment in new wireless (NR) coverage area 180 receives the system information.For example, the user in NR coverage area 180 sets Standby 140 receive the system information, and can access network service by base station 120.

Each of user equipment 140 and 160 is the mobile terminal in cordless communication network.For example, user equipment 140 Or 160 can be smart phone, network interface card or machine type terminal.As another example, user equipment 140 or 160 can To be the user equipment in LTE wireless access system or 5G wireless access system.In user equipment 140 and 160 and base station 120 Each include that can send and receive communication unit of radio signal.It is described below and discusses in a wireless communication system Operate the aspect of user equipment 140, it should be appreciated that this description is also applied for user equipment 160.

When user equipment 140 is intended to access network service by base station 120, the needs of user equipment 140 connect from base station 120 Control signal is received to collect the system information in NR coverage area 180, such as synchronous and radio resource allocation and scheduling.For example, User equipment 140 in 5G wireless access system needs to receive PDCCH whether to understand the data in Physical Downlink Shared Channel It is sent to user equipment 140.Therefore, user equipment 140 needs to detect the PDCCH in the signal sent by base station 120.

For example, 5G wireless access system is carried out wireless communication using OFDM waveform.Such as in existing LTE wireless access system Like that, communication is measured in time frame, each frame is divided into time slot, and each time slot includes multiple OFDM symbols, each OFDM Symbol crosses over multiple frequency sub-carriers.Resource temporally (OFDM symbol) and frequency (subcarrier) definition.

Fig. 2 shows the exemplary scenes according to two wireless communication systems of some embodiments of the present application.Such as Fig. 2 institute Show, user equipment 140 can be in the coverage area of two wireless communication systems.For example, base station 120 is 5G wireless access system GNB, and the NR covering 180 of base station 120 is the range of 5G wireless access system.On the other hand, base station 122 is LTE wireless The eNB of access system, and the evolved universal terrestrial of base station 122 is wirelessly electrically accessed (E-UTRA, Evolved Universal Terrestrial Radio Access) coverage area 185 be LTE wireless access system range.User equipment 140 is in can Access the position of both 5G wireless access system and LTE wireless access system.

Fig. 3 A is the example state diagram of the user equipment in the wireless communication system according to some embodiments of the present application. When user equipment in a wireless communication system when, RRC state may include idle state, unactivated state and connection status.

For example, as shown in Figure 3A, the user equipment 140 in 5G system can be at (the NR RRC IDLE of NR RRC free time 320 320) 360 (NR RRC of state, (the NR RRC INACTIVE 340) state of NR RRC inactive 340 or NR RRC connection CONNECTED 360) state.User equipment 140 initially operates under 320 state of NR RRC IDLE.When user equipment 140 needs When sending or receiving data by 5G wireless access system, RRC is established between user equipment 140 and base station 120 in base station 120 Connection.User equipment 140 enters 360 state of NR RRC CONNECTED after establishing rrc connection.It is sent out in user equipment 140 After sending or receiving data, user equipment 140 discharges RRC and connects and return to 320 state of NR RRC IDLE.

In some embodiments, user equipment 140 can be such that RRC connection inactivates and enter 340 shape of NR RRC INACTIVE State.When user equipment 140 needs to send or receive data again, user equipment 140 can reenter NR RRC 360 state of CONNECTED simultaneously sends or receives data by base station 120.When user equipment 140 is in NR RRC INACTIVE 340 states and when not needing to restore unactivated RRC connection, user equipment 140 alternatively returns to NR RRC IDLE 320 State.User equipment 140 its back to can not store after 320 state of NR RRC IDLE connect with previous RRC it is related Information.

Fig. 3 B is the exemplary of the user equipment between two wireless communication systems according to some embodiments of the present application State diagram.When user equipment is in the position that it may have access to two wireless communication systems, user equipment is in the first wireless communication RRC state in system may include idle state, unactivated state and connection status, and the user equipment is in the second channel radio RRC state in letter may include idle state and connection status.

For example, as shown in Figure 3B, the user equipment 140 in 5G system can be at 320 state of NR RRC IDLE, NR RRC 360 state of 340 state of INACTIVE or NR RRC CONNECTED.User equipment 140 operates between these states, such as with On with reference to Fig. 3 A description.On the other hand, the user equipment 140 in E-UTRA system can be at the E-UTRA RRC free time 310 (E-UTRA RRC IDLE 310) state or E-UTRA RRC connection 350 (E-UTRA RRC CONNECTED 350) state.E- User equipment 140 in UTRA coverage area initially operates under 310 state of E-UTRA RRC IDLE.When user equipment 140 When needing to send or receive data by LTE wireless access system, base station 122 is established between user equipment 140 and LTE base station RRC connection.After establishing rrc connection, user equipment 140 enters 350 state of E-UTRA RRC CONNECTED.In user After equipment 140 sends or receives data, user equipment 140 discharges RRC and is connected and return to 310 shape of E-UTRA RRC IDLE State.

In some embodiments, its connection between two wireless communication systems can be changed in user equipment 140, that is, switches Process.For example, as shown in Figure 3B, when user equipment 140 is in 360 state of NR RRC CONNECTED and meets a standard When, user equipment 140, which can connect, to be changed into from 5G radio access system to LTE radio access system.User equipment 140 leave 360 state of NR RRC CONNECTED and enter 350 state of E-UTRA RRC CONNECTED.The standard includes, For example, the radio signal of the LTE wireless access system received is better than the aerogram of the 5G wireless access system received Number.Alternatively, user equipment 140 can be connected to change into and be changed into from LTE wireless access system to 5G wireless access system System.Therefore, user equipment 140 leaves 350 state of E-UTRA RRC CONNECTED and enters NR RRC CONNECTED 360 State.

In some embodiments, when user equipment do not have RRC connection when, user equipment two wireless communication systems it Between change, that is, reuse adoption process.For example, as shown in Figure 3B, when user equipment 140 is in 320 state of NR RRC IDLE and expires When one standard of foot, user equipment 140 can change from 5G wireless access system to LTE wireless access system.User equipment 140 leaves 320 state of NR RRC IDLE simultaneously enters 310 state of E-UTRA RRC IDLE.The standard includes, for example, user equipment 140 It is lower than the signal of threshold value from 5G wireless access system received signal strength, and high from LTE wireless access system received signal strength In another signal of the signal received from 5G wireless access system.

As another example, as shown in Figure 3B, when user equipment 140 be in 340 state of NR RRC INACTIVE and When meeting a standard, user equipment 140 can change from 5G wireless access system to LTE wireless access system.User equipment 140 from It opens 340 state of NR RRC INACTIVE and enters 310 state of E-UTRA RRC IDLE.The standard includes, for example, user sets Standby 140 are lower than the signal of threshold value from 5G wireless access system received signal strength, and strong from LTE wireless access system reception signal Degree is higher than another signal of the signal received from 5G wireless access system.

Fig. 4 A is the example state diagram of the base station in the wireless communication system according to some embodiments of the present application.When with Family equipment in a wireless communication system when, the RRC state of base station may include idle state, unactivated state and connection status.

For example, as shown in Figure 4 A, the base station 120 in 5G system can be at NR RRC free time 420 (NR RRC IDLE 420) 460 (NR RRC CONNECTED of state, (the NR RRC INACTIVE 440) state of NR RRC inactive 440 or NR RRC connection 460) state.Before user equipment 140 needs RRC connection, base station 120 can not have NR corresponding with user equipment 140 RRC state.After user equipment 140 needs RRC connection, base station 120 enters NR RRC IDLE state and begins setting up user RRC connection between equipment 140 and base station 120.Base station 120 enters NR RRC CONNECTED after establishing rrc connection 460 states.After user equipment 140 sends or receives data, base station 120 discharges RRC and is connected and return to NR RRC IDLE 420 states.

In some embodiments, base station 120 can be such that RRC connection inactivates and enter 440 state of NR RRC INACTIVE.When When user equipment 140 needs to send or receive data again, base station 120 can reenter 460 state of NR RRC CONNECTED And data are received from user equipment 140 or send data to user equipment 140.When base station 120 is in NR RRC INACTIVE 440 states and when not needing to restore unactivated RRC connection, base station 120 alternatively returns to 420 shape of NR RRC IDLE State.After base station 120 returns to 420 state of NR RRC IDLE, base station 120 can not store the information about previous RRC connection.

Fig. 4 B is the example state diagram of the base station in two wireless communication systems according to some embodiments of the present application. When user equipment is in the position that it may have access to two wireless communication systems, the RRC of the base station in the first wireless communication system State may include idle state, unactivated state and connection status, and the RRC of another base station in the second wireless communication system State may include idle state and connection status.

For example, as shown in Figure 4 B, the base station 120 in 5G system can be at 420 state of NR RRC IDLE, NR RRC 460 state of 440 state of INACTIVE or NR RRC CONNECTED.Base station 120 operates between these states, such as above ginseng Examine the description of Fig. 4 A.On the other hand, the base station 122 in E-UTRA system can be at 410 (E-UTRA of E-UTRA RRC free time RRC IDLE 410) state or E-UTRA RRC connection 450 (E-UTRA RRC CONNECTED 450) state.In user equipment Before 140 need RRC connection in E-UTRA system, base station 122 can not have any E- corresponding with user equipment 140 UTRA RRC state.After user equipment 140 needs RRC connection, base station enters 410 state of E-UTRA RRC IDLE and opens The RRC connection established between vertical user equipment 140 and base station.After establishing rrc connection, base station enters E-UTRARRC 450 state of CONNECTED.After user equipment 140 sends or receives data, base station release RRC is connected and return to E- 410 state of UTRA RRC IDLE.

In some embodiments, when user equipment has RRC connection, user equipment can be changed it and wirelessly communicate at two Connection between system, i.e. handoff procedure.For example, as shown in Figure 4 B, when base station 120 is in 460 shape of NR RRC CONNECTED When state and one standard of satisfaction, user equipment 140, which connects, to be changed into from 5G wireless access system to LTE wireless access system System.It leaves 460 state of NR RRC CONNECTED and enters 420 state of NR RRC IDLE in base station 120.On the other hand, when The change of user equipment 140 connects when changing into E-UTRA network, and base station 122 starts handoff procedure and simultaneously enters E-UTRA RRC 450 state of CONNECTED.The standard includes, for example, the signal of the radio signal received from LTE wireless access system is strong Degree is higher than the signal strength of the signal received from 5G wireless access system.

Alternatively, user equipment 140, which can connect, changes into from LTE wireless access system to 5G wireless access system System.Therefore, base station 122 leaves 450 state of E-UTRA RRC CONNECTED and enters 410 state of E-UTRA RRC IDLE. On the other hand, when its RRC connection is changed into 5G wireless network by user equipment 140, base station 120 starts handoff procedure and goes forward side by side Enter 460 state of NR RRC CONNECTED.

In some embodiments, when user equipment, which does not have, to be connect with the RRC of base station 120 or base station 122, user equipment It can change between two wireless communication systems, i.e. reuse adoption process.For example, as shown in Figure 4 B, when base station 120 is in NR RRC sky When not busy 420 states and one standard of satisfaction, user equipment 140 can change from 5G wireless access system to LTE wireless access system. Base station 120 can enter 420 state of NR RRC IDLE, or can not retain any information about previous RRC connection.Work as user When equipment is changed to LTE wireless access system, when user equipment 140 enters E-UTRA 310 state of IDLE shown in Fig. 3 B, Base station 122 enters 410 state of E-UTRA RRC IDLE.The standard includes, for example, user equipment 140 is from 5G wireless access System received signal strength is lower than the signal of threshold value, and is higher than from LTE wireless access system received signal strength from 5G and wirelessly connects Enter another signal of signal that system receives.Alternatively, as shown in Figure 4 B, user equipment 140 can pass through similar gravity treatment Journey changes from LTE wireless access system to 5G wireless access system.Base station 122 and base station 120 change them in a similar way State.

As another example, as shown in Figure 4 B, when base station 120 is in 440 state of NR RRC INACTIVE and meets When one standard, user equipment 140 can change from 5G wireless access system to LTE wireless access system.Base station 120 can enter NR 420 state of RRC IDLE, or any information about previous RRC connection can not be retained.When user equipment 140 enters Fig. 3 B Shown in E-UTRA 310 state of IDLE when, base station 122 enter 410 state of E-UTRA RRC IDLE.The standard includes, For example, user equipment 140 is lower than the signal of threshold value from 5G wireless access system received signal strength, and from LTE wireless access system System received signal strength is higher than another signal of signal received from 5G wireless access system.

The utilization rate and transmitted data rates of frequency bandwidth can be improved in advanced wireless communication technique.For example, carrier wave polymerize (CA, carrier aggregation) technology can utilize simultaneously one or more channel widths according to respective channel condition.It is double Connection (DC, dual connectivity) technology can provide two connections of one or more wireless communication systems, and pass through The two connections improve control signal and/or data transmission.Beam forming (BF, beamforming) transmission technology can pass through sky Between filtering to improve efficiency of transmission.These advanced technical requirements are to the measurement result accurately and in time of channel status, especially When user equipment and base station become CONNECTED state from IDLE or INACTIVE state.

Method disclosed in the present application for the radio resource measurement in IDLE or INACTIVE state enhances this elder generation Into transmission technology, including CA, DC and BF transmission.These methods activate measurement to obtain accurate measurement result as early as possible, and keep away Exempt to carry out unnecessary measurement before data is transmitted

Fig. 5 is the example in the wireless communication system according to some embodiments of the present application under connection or state of activation The schematic diagram of property radio resource measurement method.As shown in figure 5, base station 120 sends RRM configuration 520 to user equipment 140.RRM matches It sets 520 and is used for idle, inactive or suspended state, NR RRC IDLE 320, NR RRC in such as Fig. 3 A, 3B, 4A or 4B INACTIVE 340, E-UTRA RRC IDLE 310, NR RRC IDLE 420, NR RRC INACTIVE 440 or E-UTRA RRC IDLE 410。

RRM configuration 520 and other RRM configuration within the scope of disclosed method may include in such as the following terms It is one or more: auxiliary synchronous signal or Physical Broadcast Channel Reference Signal Received Power (SS, Synchronization Signal/PBCH-RSRP, Physical Broadcast Channel Reference Signal Received Power), Channel state indicators Reference Signal Received Power (CSI-RSRP, Channel Status Indicator Reference Signal Received Power), assist in synchronization, signal transmission power, Reference Signal Received Power (RSRP, Reference Signal Received Power), Reference Signal Received Quality (RSRQ, Reference Signal Received Quality), universal terrestrial radio access (UTRA, Universal Terrestrial Radio Access) frequency division duplex (FDD, Frequency Divisional Duplex) CPICH Common Pilot Channel (CPICH, Common Pilot Channel) receives Signal code power (RSCP, Received Signal Coded Power), the instruction of UTRA FDD carrier received signal intensity (RSSI, Received Signal Strength Indicator), UTRA FDD CPICH Ec/No, global mobile communication system Unite (GSM, Global System for Mobile Communications) carrier wave RSSI, UTRA time division duplex (TDD, Time Divisional Duplex) Primary Common Control Physical Channel (P-CCPCH, Primary Common Control Physical Channel) RSCP, CDMA2000 single carrier radio transmission technique (1x RTT) pilot frequency intensity, CDMA2000 high-speed packet number According to (HRPD, High Rate Packet Data) pilot frequency intensity, reference signal time difference (RSTD, Reference signal Time difference), for UE positioning UE Global Navigation Satellite System (GNSS, Global Navigation Satellite System) cell frame timing, the measurement of UE GNSS code, UE GNSS carrier phase measurement, UE reception-transmission (Rx-Tx) time difference, 802.11 WLAN of IEEE (WLAN, Wireless Local Area Network) receive signal Intensity indicates (RSSI), multicast broadcast multimedia service Single Frequency Network (MBSFN, Multimedia Broadcast Multicast service Single Frequency Network) Reference Signal Received Power (RSRP), MBSFN reference letter Number quality of reception (MBSFN RSRQ), Multicast Channel block error rate (MCH BLER, Multicast Channel Block Error Rate), channel status indicate (CSI, Channel Status Indicator) Reference Signal Received Power (CSI- RSRP), sidelinks Reference Signal Received Power (S-RSRP), sidelinks discovery Reference Signal Received Power (SD-RSRP), reference Signal-signal-to-noise ratio and interference are than (RS-SINR, Reference signal-signal to noise and interference Ratio), received signal strength indicator (RSSI), System Frame Number (SFN, System Frame Number) and subframe timing are poor (SSTD, subframe timing difference), narrowband reference signal reception power (NRSRP, Narrowband Reference Signal Received Power), narrowband reference signal receiving quality (NRSRQ, Narrowband Reference Signal Received Quality), side chain received signal strength indicator (S-RSSI, Sidelink Received Signal Strength Indicator), physical side link shared channels (PSSCH, Physical Sidelink Shared Channel) Reference Signal Received Power (PSSCH-RSRP), channel be busy than (CBR, Channel Busy ratio) or channel occupancy ratio (CR, Channel occupancy ratio).

It can be based on RRM configuration triggering measurement in idle, inactive or suspended state user equipment 140.For example, when using When family equipment 140 has the data to be sent, user equipment 140 is based on 520 triggering measurement 540 of RRM configuration.Alternatively, locate It can be based on RRM configuration triggering measurement in idle, inactive or suspended state base station 120.For example, as shown in figure 5, being used when existing When 140 received data of user equipment, base station 120 is based on 520 triggering measurement 540 of RRM configuration.

After triggering measurement 540, user equipment 140 executes measurement 560.For example, the measurement of user equipment 140 can be used for CA Or all possible frequencies of DC, and RRM result is collected respectively.Then, user equipment 140 sends the RRM result 580 being collected into To base station 120.

Fig. 6 is in the wireless communication system according to some embodiments of the present application in idle, inactive or suspended state Example wireless resource measurement method schematic diagram.As shown in fig. 6, base station 120 and user equipment 140 are surveyed before priority of use RRM configuration 620 in amount or the RRM configuration 620 at least with storage.Base station 120 and user equipment 140 impliedly determine RRM Configuration 620 is as default RRM configuration, without further sending signal therebetween.RRM configuration 620 can be used for idle, inactive Or suspended state, NR RRC IDLE 320, NR RRC INACTIVE 340, E-UTRA in such as Fig. 3 A, 3B, 4A or 4B RRC IDLE 310, NR RRC IDLE 420, NR RRC INACTIVE 440 or E-UTRA RRC IDLE 410.It is alternative Ground, RRM configuration 620 can be used for connecting or state of activation, NR RRC CONNECTED 360 in such as Fig. 3 A, 3B, 4A or 4B, E-UTRA RRC CONNECTED 350, NR RRC CONNECTED 460 or E-UTRA RRC CONNECTED 450.

It can be based on RRM configuration triggering measurement in idle, inactive or suspended state user equipment 140.For example, when using When family equipment 140 will send data, user equipment 140 is based on 620 triggering measurement 640 of RRM configuration.

After triggering measurement 640, user equipment 140 executes measurement 660.For example, the measurement of user equipment 140 can be used for CA Or all possible frequencies of DC, and RRM result is collected respectively.Then, user equipment 140 sends the RRM result 680 being collected into To base station 120.

Fig. 7 is in the wireless communication system according to some embodiments of the present application in idle, inactive or suspended state Example wireless resource measurement method schematic diagram.User equipment 140 is according in previous idle, inactive or suspended state The RRM used configures to determine RRM configuration 720 for idle, inactive or suspended state.For example, user equipment 140 can lead to It crosses before user equipment 140 enters current idle, inactive or suspended state according in previous idle, inactive or hang-up shape Previous RRM used in state configures to determine that RRM is configured, to obtain RRM configuration.In other words, user equipment 140 is reusable The previous RRM configuration used at previous NR RRC IDLE 320 or 340 state of INACTIVE, in current NR RRC It is measured under 340 state of IDLE 320 or INACTIVE.

As another example, user equipment 140 can enter current idle, inactive or hang-up according in user equipment 140 The RRM used in previous connection or state of activation configures to determine that RRM is configured before state.In other words, user equipment 140 The previous RRM used under 360 state of NR RRC CONNECTED is may be used to configure in current NR RRC IDLE 320 Or it is measured under 340 state of INACTIVE.

In some embodiments, user equipment 140 can enter current idle, inactive or extension according in user equipment 140 The service configuration used in previous connection or state of activation determines that RRM is configured before state.For example, user equipment 140 Determine that RRM is configured according to whether service configuration is short grouping transmission.If service configuration is short grouping transmission, user equipment 140 may be used at the RRM configuration used during previously short grouping transmission.If service configuration is not short grouping transmission, user Equipment 140 can reuse the previous RRM configuration used in 340 state of NR IDLE 320 or INACTIVE.

User equipment 140 can also determine that RRM is configured according to network environment.For example, user equipment 140 is according to user equipment Network topology where 140 determines that RRM is configured.It is more than 10 5G frequencies when user equipment 140 is located at by wireless communication system And/or LTE frequency surround position when, user equipment 140 can will use in previous 360 state of NR RRC CONNECTED RRM configuration be determined as configuring for current NR RRC IDLE 320 or the RRM of 340 state of INACTIVE.Work as user equipment 140 positioned at when being more than the position that 10 5G frequencies and/or LTE frequency surround by wireless communication system, and user equipment 140 can incite somebody to action The configuration of the RRM used in previous 320 state of NR RRC IDLE be determined as current NR RRC IDLE 320 or The RRM of 340 state of INACTIVE is configured.

Alternatively, user equipment 140 determines that RRM is configured according to the speed of user equipment 140.For example, user equipment 140 According to user equipment 140 whether to determine that RRM is configured more than the movement of the speed of 50 kms per hour.When user equipment 140 with When mobile more than the speed of 50 kms per hour, user equipment 140 can will make in previous 360 state of NR RRC CONNECTED RRM configuration is determined as configuring for the current NR RRC IDLE 320 or RRM of 340 state of INACTIVE.When user sets Standby 140 it is mobile with the speed lower than 3 kms per hour when, user equipment 140 can will be in previous 320 state of NR RRC IDLE The RRM configuration used is determined as configuring for the current NR RRC IDLE 320 or RRM of 340 state of INACTIVE.

After RRM configuration determines 720, user equipment 140 leaves the forward direction of connection or state of activation in user equipment 140 Base station 120 sends instruction 730.For example, user equipment 140 leaves 360 state of NR RRC CONNECTED in user equipment 140 Base station 120 is sent by the configuration index that determining RRM is configured before.

After instruction RRM configuration 730, RRM can be based in idle, inactive or suspended state user equipment 140 Configuration triggering measurement.For example, user equipment 140 is configured based on RRM and is determined when user equipment 140 has the data to be sent 720 triggering measurements 740.

After triggering measurement 740, user equipment 140 executes measurement 760.For example, the measurement of user equipment 140 can be used for CA Or all possible frequencies of DC, and RRM result is collected respectively.Then, user equipment 140 sends the RRM result 780 being collected into To base station 120.

Fig. 8 is in the wireless communication system according to some embodiments of the present application in idle, inactive or suspended state Example wireless resource measurement method schematic diagram.User equipment 140 can be by receiving paging message, random from base station 120 The configuration index of one group of RRM configuration in access response message or system information configures to obtain RRM.Configuration index instruction One in this group of RRM configuration is configured to the RRM configuration.

For example, as shown in figure 8, base station 120 is in paging message 821, accidental access response message 822 or system information User equipment 140 is sent by configuration index in 823.After receiving configuration index, user equipment 140 can be by one group of RRM One in configuration is determined as what user equipment 140 measured under 340 state of NR RRC IDLE 320 or INACTIVE RRM configuration.

It can be based on RRM configuration triggering measurement in idle, inactive or suspended state user equipment 140.For example, when using When family equipment 140 has the data to be sent, user equipment 140 configures to trigger measurement 840 based on identified RRM.

After triggering measurement 840, user equipment 140 executes measurement 860.For example, the measurement of user equipment 140 can be used for CA Or all possible frequencies of DC, and RRM result is collected respectively.Then, user equipment 140 sends the RRM result 880 being collected into To base station 120.

Fig. 9 is in the wireless communication system according to some embodiments of the present application in idle, inactive or suspended state Example wireless resource measurement method schematic diagram.Base station 120 can determine RRM configuration 920 and in paging message, random access The instruction 930 that RRM is configured is sent to user equipment 140 in response message or system information.

It, can in idle, inactive or suspended state user equipment 140 after the instruction 930 for receiving RRM configuration Measurement is triggered based on indicated RRM configuration.For example, when user equipment 140 has the data to be sent, user equipment 140 trigger measurement 940 based on indicated RRM configuration.

After triggering measurement 940, user equipment 140 executes measurement 960.For example, the measurement of user equipment 140 can be used for CA Or all possible frequencies of DC, and RRM result is collected respectively.Then, user equipment 140 sends the RRM result 980 being collected into To base station 120.

In some embodiments, user equipment 140 is in a case where based on RRM configuration triggering RRM measurement: when reception is wanted When the data sent in the buffer of user equipment 140;Sending random access channel (RACH, random access Channel) after message;Or after sending connection request.Connection request includes that instruction user equipment 140 has and to send Data establish reason.

For example, in above-mentioned measurement triggering 540,640,740,840 and 940, when user equipment 140 is received from application program When the data to send in transmitting queue, user equipment 140 triggers RRM measurement.As another example, it is triggered in above-mentioned measurement 540, in 640,740,840 and 940, the triggering RRM measurement after sending random access lead code to base station 120 of user equipment 140. User equipment 140 can be ready for sending or receive data after completing random access procedure.Alternatively, it is triggered in above-mentioned measurement 540, in 640,740,840 and 940, the triggering RRM measurement after sending service request to base station 120 of user equipment 140.In base Stand 120 receive service request after, base station 120 needs the measurement result from user equipment 140 to be user equipment 140 Distributing radio resource and transmission plan.

Alternatively, when user equipment 140 receives paging message, accidental access response message and including activation instruction When one in system information, user equipment 140 is based on RRM configuration triggering RRM measurement.For example, as shown in figure 8, when using Family equipment 140 receives paging message 821, accidental access response message 822 or the system information indicated including activation from base station 120 When one in message 823, user equipment 140 is based on determining RRM configuration triggering measurement 540,640,740,840 or 940.

Figure 10 be the idle, inactive of the user equipment in the wireless communication system according to some embodiments of the present application or The schematic diagram of example wireless resource measurement method 1000 under suspended state.Method 1000 can be real by user equipment 140 or 160 It applies.Method 1000 includes obtaining RRM to configure (step 1020), based on RRM configuration triggering measurement (step 1040), measures wireless money Source (step 1060), and base station (step 1080) is sent by the result of measurement.

Step 1020 includes obtaining RRM configuration.For example, as shown in figure 5, what the reception of user equipment 140 was sent by base station 120 RRM configuration 520.RRM configuration 520 is used for idle, inactive or suspended state, the NR RRC in such as Fig. 3 A, 3B, 4A or 4B IDLE 320、NR RRC INACTIVE 340、E-UTRA RRC IDLE 310、NR RRC IDLE 420、NR RRC INACTIVE 440 or E-UTRA RRC IDLE 410.

Step 1040 includes based on RRM configuration triggering measurement.For example, as shown in figure 5, to be sent out when user equipment 140 has When the data sent, user equipment 140 is based on 520 triggering measurement 540 of RRM configuration.

Step 1060 includes measurement radio resource.For example, as shown in figure 5, the measurement of user equipment 140 can be used for CA's or DC All possibility frequencies, and RRM result is collected respectively.

Step 1080 includes sending the measurements to base station.For example, as shown in figure 5, user equipment 140 will be collected into RRM result 580 is sent to base station 120.

Method 1000 may additionally include user equipment and leave connection or the forward direction BS transmission instruction of state of activation.The instruction refers to Show the RRM configuration in multiple RRM configurations.For example, as shown in fig. 7, user equipment 140 can after determining RRM configuration 720 Instruction 730 is sent in the forward direction base station 120 that user equipment 140 leaves connection or state of activation.For example, user equipment 140 with The configuration that determining RRM is configured is indexed before leaving 360 state of NR RRC CONNECTED and is sent to base station by family equipment 140 120.User equipment 140 in 360 state of NR RRC CONNECTED leave 360 state of NR RRC CONNECTED it The preceding configuration index for configuring determining RRM is sent to base station 120.Configuration index for example, may indicate that the in ten RRM configuration Three configurations are configured as determining RRM.

In some embodiments, step 1020 may include by entering current idle, inactive or extension in user equipment 140 It is configured before according to the RRM used in previous idle, inactive or suspended state and determines that RRM configuration obtains RRM configuration. For example, as shown in fig. 6, base station 120 and user equipment 140 be used for measuring previous in RRM configuration 620, or At least all have the RRM configuration 620 of storage.Base station 120 and user equipment 140 impliedly determine RRM configuration 620 as default RRM configuration, without further sending signaling between them.RRM configuration 620 can be used for idle, inactive or suspended state, NR RRC IDLE 320, NR RRC INACTIVE 340, E-UTRA RRC IDLE in such as Fig. 3 A, 3B, 4A or 4B 310, NR RRC IDLE 420, NR RRC INACTIVE 440 or E-UTRA RRC IDLE 410.140 basis of user equipment Previous NR RRC IDLE before user equipment 140 enters current NR RRC IDLE 320 or 340 state of INACTIVE Previous RRM used in 320, INACTIVE 340 states configures to determine that RRM is configured.

In some embodiments, step 1020 includes by entering current idle, inactive or hang-up shape in user equipment It is configured before state according to the RRM used in previous connection or state of activation and determines RRM configuration to obtain RRM configuration.For example, such as Shown in Fig. 7, user equipment 140, which can determine, to be configured using the previous RRM in 360 state of NR RRC CONNECTED come current It is measured under 340 state of NR RRC IDLE 320 or INACTIVE.

In some embodiments, step 1020 includes by entering current idle, inactive or hang-up shape in user equipment RRM configuration is determined to obtain RRM configuration according to the service configuration used in previous connection or state of activation before state.For example, User equipment 140 determines that RRM is configured according to whether service configuration is short grouping transmission.If service configuration is that short grouping passes Defeated, then the short RRM used during transmission that is grouped is configured before user equipment 140 can determine priority of use.If service configuration is not Short grouping transmission, then user equipment 140, which can determine, reuses used in 340 state of NR IDLE 320 or INACTIVE Previous RRM configuration.

In some embodiments, step 1020 includes obtaining RRM configuration by determining RRM configuration according to network environment. For example, user equipment 140 can determine that RRM is configured according to the network topology where user equipment 140.For example, working as user equipment 140 positioned at when being more than the position that 10 5G frequencies and/or LTE frequency surround by wireless communication system, and user equipment 140 can incite somebody to action The configuration of the RRM used in previous 360 state of NR RRC CONNECTED be determined as current NR RRC IDLE 320 or The RRM of 340 state of INACTIVE is configured.When user equipment 140 be located at by wireless communication system be more than 10 5G frequencies with/ Or LTE frequency surround position when, user equipment 140 can configure RRM used in previous 320 state of NR RRC IDLE true It is set to the RRM configuration of current NR RRC IDLE 320 or 340 state of INACTIVE.

In some embodiments, step 1020 may include determining RRM configuration to obtain by the speed according to user equipment RRM configuration.For example, whether user equipment 140 is according to user equipment 140 to determine more than the movement of the speed of 50 kms per hour RRM configuration.When user equipment 140 is to be more than the speed movement of 50 kms per hour, user equipment 140 can be by previous NR RRC The configuration of RRM used in 360 state of CONNECTED is determined as current NR RRC IDLE 320 or 340 shape of INACTIVE The RRM of state is configured.When user equipment 140 is mobile with the speed lower than 3 kms per hour, user equipment 140 can will be previous The configuration of RRM used in 320 state of NR RRC IDLE is determined as current NR RRC IDLE 320 or INACTIVE 340 The RRM of state is configured.

In some embodiments, step 1020 may include by from BS receive paging message, accidental access response message or The configuration index of one group of RRM configuration in system information configures to obtain RRM.Configuration index indicates in this group of RRM configuration One be configured to RRM configuration.For example, as shown in figure 8, user equipment 140 from base station 120 receive paging message 821, with Machine accesses the configuration index in response message 822 or system information 823.After receiving configuration index, user equipment 140 can determine that a RRM for being configured for user equipment 140 in this group of RRM configuration is configured in NR RRC IDLE 320 Or it is measured under 340 state of INACTIVE.

In some embodiments, step 1040 may include triggering measurement in a case where: will be in user equipment when receiving Buffer in send data when, after sending RACH message, or after sending connection request.The connection request packet It includes instruction user equipment and establishes reason with the data to be sent.For example, user equipment 140 will be in user equipment in reception Measurement is triggered when the data sent in 140 transmission queue.As another example, user equipment 140 can be sent to base station 120 Triggering measurement after RACH is leading.As another example, user equipment 140 can touch after sending connection request to base station 120 Hair measurement.The connection request includes establishing reason, this, which establishes reason instruction user equipment 140, has the data to be sent.

In some embodiments, step 1040 may include receiving paging message, accidental access response message or including activation One in the system information of instruction, and based on RRM configuration triggering measurement.For example, as shown in figure 8, in user equipment 140 Receive paging message 821, accidental access response message 822 or including activation instruction system information 823 after, user Equipment 140 configures triggering measurement 840 based on identified RRM.

Figure 11 is idle, the inactive or hang-up according to the base station in a wireless communication system of some embodiments of the present application The schematic diagram of example wireless resource measurement method 1100 under state.Method 1100 can be implemented by base station 120.Method 1100 is wrapped It includes to user equipment and sends RRM configuration (step 1120), based on RRM configuration triggering measurement (step 1140), and set from user It is standby to receive the result (step 1160) based on the RRM measurement configured.User equipment and base station BS are configured as including following It is operated together in one of state of item: idle, inactive or suspended state, and connection or state of activation.The RRM configuration is used In idle, inactive or suspended state.

Step 1120 includes that RRM configuration is sent to user equipment.For example, as shown in figure 5, RRM is configured 520 by base station 120 It is sent to user equipment 140.RRM configuration 520 is used for idle, inactive or suspended state, in such as Fig. 3 A, 3B, 4A or 4B NR RRC IDLE 320、NR RRC INACTIVE 340、E-UTRA RRC IDLE 310、NR RRC IDLE 420、NR RRC INACTIVE 440 or E-UTRA RRC IDLE 410.

Step 1140 includes based on RRM configuration triggering measurement.It can in idle, inactive or suspended state base station 120 Triggering measurement is configured based on RRM.For example, as shown in figure 5, base station 120 is based on when user equipment 140 wants received data 520 triggering measurement 540 of RRM configuration.

Step 1160 includes receiving the result based on the RRM measurement configured from user equipment.For example, as shown in figure 5, with After family equipment 140 measures all possible frequency and collects RRM result 580, base station 120 receives RRM knot from user equipment 140 Fruit 580.

In some embodiments, step 1140 may include after receiving the data to send in the buffer of BS, After receiving RACH message or after receiving connection request from user equipment, based on RRM configuration triggering measurement.It should Connection request includes indicating that user equipment establishes reason with the data to be sent.

For example, in measurement triggering 540,640,740,840 and 940, when base station 120 connects from 5G or E-UTRA network system When receiving the data to send in transmitting queue, RRM measurement is triggered in base station 120.As another example, it is triggered in above-mentioned measurement 540, in 640,740,840 and 940, RRM survey is triggered in base station 120 after receiving random access preamble from user equipment 140 Amount.Alternatively, in above-mentioned measurement triggering 540,640,740,840 and 940, connection request is being sent to user equipment 140 Later, RRM measurement is triggered in base station 120.After base station 120 sends connection request, base station 120 is needed from user equipment 140 Measurement result to distribute radio resource and transmission plan for connecting with user equipment 140.

In some embodiments, step 1140 may include sending paging message, accidental access response message to user equipment Or one in the system information including activation instruction.For example, as shown in figure 8, base station 120 is sent to user equipment 140 Paging message 821, accidental access response message 822 or including activation instruction system information 823 in one, with triggering Measurement 840.

In some embodiments, step 1120 is included in paging message, accidental access response message or system information It is middle that the configuration index that one group of RRM is configured is sent to user equipment.Configuration index indicates that one in this group of RRM configuration is configured to institute State RRM configuration.For example, as shown in figure 8, base station 120 sends paging message 821, accidental access response message to user equipment 140 822 or system information 823 in configuration index.After user equipment 140 receives configuration index, user equipment 140 The RRM that a configuration in one group of RRM configuration is determined as being used for user equipment 140 can be configured, in NR RRC IDLE 320 Or it is measured in 340 state of INACTIVE.

In some embodiments, method 1100 may include entering current idle, inactive or hang-up according in user equipment The previous RRM used in previous idle, inactive or suspended state configures to determine that RRM is configured before state.For example, as schemed Shown in 9, base station 120, which is determined, to be configured using the previous RRM in 460 state of NR RRC CONNECTED in current NR It is measured in 440 state of RRC IDLE 420 or INACTIVE.After RRM configuration determines 920, RRM is matched in base station 120 The instruction 930 set is sent to user equipment 140.

In some embodiments, method 1100 may include entering current idle, inactive or hang-up according in user equipment The RRM used in previous connection or state of activation configures to determine that RRM is configured before state.For example, as shown in figure 9, base station 120 can determine using the previous RRM configuration in 460 state of NR RRC CONNECTED in current NR RRC IDLE 420 or It is measured in 440 state of INACTIVE.

In some embodiments, method 1100 may include entering current idle, inactive or hang-up according in user equipment Used in previous connection or state of activation service configuration determines that RRM is configured before state.For example, base station 120 is according to clothes Whether business configuration is short grouping transmission to determine that RRM is configured.If service configuration is short grouping transmission, base station 120 be can determine The RRM configuration used during short grouping transmission before priority of use.If service configuration is not short grouping transmission, base station 120 can It determines and reuses the previous RRM configuration used in 440 state of NR IDLE 420 or INACTIVE.

In some embodiments, method 1100 may include determining that RRM is configured according to network environment.For example, base station 120 can root Determine that RRM is configured according to the network topology where base station 120.For example, being more than 10 when base station 120 is located at by wireless communication system When the position that 5G frequency and/or LTE frequency surround, base station 120 can will make in previous 460 state of NR RRC CONNECTED RRM configuration is determined as configuring for the current NR RRC IDLE 420 or RRM of 440 state of INACTIVE.When base station 120 Positioned at by wireless communication system, when being less than the position that two 5G frequencies and/or LTE frequency surround, base station 120 can be by previous NR The configuration of RRM used in 420 state of RRC IDLE is determined as current NR RRC IDLE 420 or 440 state of INACTIVE RRM configuration.

In some embodiments, method 1100 may include determining that RRM is configured according to the speed of user equipment.For example, connecing After the speed for receiving or detecting user equipment 140, whether base station 120 is according to user equipment 140 more than 50 kms per hour Speed moves to determine that RRM is configured.When user equipment 140 is to be more than that the speed of 50 kms per hour moves, base station 120 can be incited somebody to action The configuration of the RRM used in previous 460 state of NR RRC CONNECTED be determined as current NR RRC IDLE 420 or The RRM of 440 state of INACTIVE is configured.When user equipment 140 is mobile with the speed lower than 3 kms per hour, base station 120 The RRM used in previous 420 state of NR RRC IDLE can be configured be determined as being used for current NR RRC IDLE 420 or The RRM of 440 state of INACTIVE is configured.

Figure 12 is according to some embodiments of the present application for being in idle, inactive in wireless communication system or hanging up The schematic diagram of the illustrative user device 1200 of radio resource measurement under state.User equipment 140 or 160 shown in Fig. 1 It can be configured to user equipment 1200.User equipment 1200 includes memory 1210, processor 1220, reservoir (storage) 1230, I/O interfaces 1240 and communication unit 1250.One or more of these elements of user equipment 1200 can be included in It is interior, for the radio resource measurement under idle, the inactive or suspended state in wireless communication system.These elements can be matched It is set to transmission Data Concurrent between each other and send or receive instruction.

Processor 1220 includes general or specialized microprocessor, digital signal processor or the microcontroller of any appropriate type Device.Processor 1220 can indicate one or more processors in user equipment 140 or 160.Memory 1210 and reservoir 1230 may include the mass storage of any appropriate type, be arranged to any class that storage processor 1220 needs to operate The information of type.Memory 1210 and reservoir 1230 can be volatibility or non-volatile, magnetic, semiconductor, tape, optics, Removable, irremovable or other kinds of storage equipment or tangible (that is, non-transitory) computer-readable medium comprising but It is not limited to read-only memory (ROM, read-only memory), flash memory, dynamic random access memory (RAM random- Access memory) and static state RAM.Memory 1210 and/or reservoir 1230 can be configured to store one or more journeys Sequence, described program are used to be executed by processor 1220 under idle, the inactive or suspended state in wireless communication system Radio resource measurement, as the disclosure as set forth herein.

Memory 1210 and/or reservoir 1230 are also configured to store the information sum number used by processor 1220 According to.For example, memory 1210 and/or reservoir 1230 can be configured in wherein storage receiving for user equipment 1200 RRM configuration.

I/O interface 1240 can be configured to promote the communication between user equipment 1200 and other devices.For example, I/O connects Mouth 1240 can receive signal from another device (for example, computer) for the system configuration information for including user equipment 1200.I/O connects The data of measurement result can be also output to other devices by mouth 1240.

Communication unit 1250 may include one or more cellular communication modules comprising such as 5G wireless access system, length Phase evolution (LTE), high-speed packet access (HSPA, High Speed Packet Access), Wideband Code Division Multiple Access (WCDMA, Wideband Code-Division Multiple Access) and/or global system for mobile communications (GSM, Global System for Mobile communication) communication module.

Processor 1220 can be configured to obtain RRM configuration.For example, as shown in figure 5, processor 1220 can be configured to connect Receive the RRM configuration 520 sent by base station 120.RRM configuration 520 be used for idle, inactive or suspended state, such as Fig. 3 A, 3B, NR RRC IDLE 320, NR RRC INACTIVE 340, E-UTRA RRC IDLE 310, NR RRC IDLE in 4A or 4B 420, NR RRC INACTIVE 440 or E-UTRA RRC IDLE 410.

Processor 1220 is also configured to configure based on RRM to trigger measurement.For example, as shown in figure 5, processor 1220 It is configured as when user equipment 140 has the data to be sent based on 520 triggering measurement 540 of RRM configuration.

Processor 1220 is also configured to control user equipment 1200 to measure radio resource.For example, as shown in figure 5, Processor 1220 can be configured to control user equipment 1200 to measure all possible frequencies that can be used for CA or DC, and receive respectively Collect RRM result.

Processor 1220 is also configured to send the measurements to base station.For example, as shown in figure 5, processor 1220 The RRM result 580 that can be configured to be collected into is sent to base station 120.

The forward direction BS that processor 1220 is also configured to leave connection or state of activation in user equipment sends instruction.It should Indicate the RRM configuration in multiple RRM configurations.For example, as shown in fig. 7, determine RRM configuration 720 after, processor The 1220 forward direction base stations 120 that can be configured to leave connection or state of activation in user equipment 1200 send instruction 730.For example, Processor 1220 can be configured to determining RRM before user equipment 1200 leaves 360 state of NR RRC CONNECTED The configuration index of configuration is sent to base station 120.User equipment 1200 in 360 state of NR RRC CONNECTED is leaving Base station 120 is sent by the configuration index that determining RRM is configured before 360 state of NR RRC CONNECTED.Configuration index It can indicate that a configuration in ten RRM configurations is configured as determining RRM.

In some embodiments, processor 1220 can be configured to by entering current idle, non-in user equipment 1200 It is configured before activation or suspended state according to previous RRM used in previous idle, inactive or suspended state to determine that RRM matches It sets to obtain RRM configuration.For example, as shown in fig. 6, base station 120 and the user equipment 1200 RRM before priority of use in measurement Configuration 620, or at least all have the RRM configuration 620 of storage.Base station 120 and user equipment 1200 impliedly determine RRM configuration 620 as default RRM configuration, without further sending signal therebetween.RRM configuration 620 can be used for idle, inactive or hang The state of rising, NR RRC IDLE 320, NR RRC INACTIVE 340, E-UTRA RRC in such as Fig. 3 A, 3B, 4A or 4B IDLE 310, NR RRC IDLE 420, NR RRC INACTIVE 440 or E-UTRA RRC IDLE 410.Processor 1220 It can be configured to according to first before user equipment 1200 enters current NR RRC IDLE 320 or 340 state of INACTIVE Previous RRM used in preceding NR RRC IDLE 320,340 state of INACTIVE configures to determine that RRM is configured.

In some embodiments, processor 1220 can be configured to by entering current idle, inactive in user equipment Or it is configured before suspended state according to the RRM used in previous connection or state of activation and determines that RRM configuration is matched to obtain RRM It sets.For example, as shown in fig. 7, processor 1220 can be configured to determine using in 360 state of NR RRC CONNECTED Previous RRM configures to measure in current NR RRC IDLE 320 or 340 state of INACTIVE.

In some embodiments, processor 1220 can be configured to by entering current idle, inactive in user equipment Or determine that RRM configuration is matched to obtain RRM according to the service configuration used in previous connection or state of activation before suspended state It sets.For example, processor 1220 can be configured to determine that RRM is configured according to whether service configuration is short grouping transmission.If clothes Business configuration is short grouping transmission, then processor 1220 can be configured to determine that short grouping before priority of use uses during transmitting RRM configuration.If service configuration is not short grouping transmission, processor 1220 can be configured to determination and reuse in NR Previous RRM configuration used in 340 state of IDLE 320 or INACTIVE.

In some embodiments, processor 1220 can be configured to obtain by determining RRM configuration according to network environment RRM configuration.For example, processor 1220 can be configured to determine that RRM is configured according to the network topology where user equipment 1200. For example, being more than position that 10 5G frequencies and/or LTE frequency surround when user equipment 1200 is located at by wireless communication system When, processor 1220, which can be configured to configure RRM used in previous 360 state of NR RRC CONNECTED, to be determined as using It is configured in the current NR RRC IDLE 320 or RRM of 340 state of INACTIVE.When user equipment 1200 is located at by wirelessly communicating When the position of system surrounded less than two 5G frequencies and/or LTE frequency, processor 1220 be can be configured to previous NR RRC The configuration of RRM used in 320 state of IDLE is determined as current NR RRC IDLE 320 or the RRM of 340 state of INACTIVE matches It sets.

In some embodiments, processor 1220 can be configured to determine that RRM is configured by the speed according to user equipment To obtain RRM configuration.For example, whether processor 1220 can be configured to according to user equipment 1200 more than 50 km per hour Speed mobile determine that RRM is configured.When user equipment 1200 is to be more than the speed movement of 50 kms per hour, processor 1220 can be configured to be determined as the configuration of the RRM used in previous 360 state of NR RRC CONNECTED to be used for current NR The RRM of 340 state of RRC IDLE 320 or INACTIVE is configured.When user equipment 1200 is with the speed lower than 3 kms per hour When mobile, processor 1220, which can be configured to configure the RRM used in previous 320 state of NR RRC IDLE, to be determined as using It is configured in the current NR RRC IDLE 320 or RRM of 340 state of INACTIVE.

In some embodiments, processor 1220 can be configured to by receiving paging message, random access response from BS The configuration index of one group of RRM configuration in message or system information configures to obtain RRM.Configuration index indicates the group A configuration in RRM configuration is configured as the RRM.For example, as shown in figure 8, processor 1220 can be configured to control use Family equipment 1200 receives matching in paging message 821, accidental access response message 822 or system information 823 from base station 120 Set index.After receiving configuration index, processor 1220 can be configured to determine a configuration in one group of RRM configuration To be configured for the RRM of user equipment 1200, to be measured under 340 state of NR RRC IDLE 320 or INACTIVE.

In some embodiments, processor 1220 can be configured to trigger measurement in a case where: when receive will with When the data sent in the buffer of family equipment, after sending RACH message, or after sending connection request.The connection Request includes indicating that user equipment establishes reason with the data to be sent.For example, processor 1220 can be configured to connecing Triggering measurement when receiving the data to send in the transmission queue of user equipment 1200.As another example, processor 1220 can It is configured as sending the leading triggering measurement later of RACH to base station 120.As another example, processor 1220 can be configured to Measurement is triggered after sending connection request to base station 120.The connection request includes that instruction user equipment 1200 has and to send Data establish reason.

In some embodiments, processor 1220 can be configured to receive paging message, accidental access response message or packet One in the system information of activation instruction is included, and based on RRM configuration triggering measurement.For example, as shown in figure 8, locating Reason device 1220 is configured as receiving paging message 821, accidental access response message 822 or including activating the system information of instruction to disappear After breath 823, processor 1220 can be configured to trigger measurement 840 based on determining RRM configuration.

Figure 13 is according to some embodiments of the present application for idle, the inactive or hang-up shape in wireless communication system The schematic diagram of the exemplary network device 1300 of radio resource measurement under state.Network equipment 1300 includes memory 1310, place Manage device 1320, reservoir 1330, I/O interface 1340 and communication unit 1350.One in these elements of network equipment 1300 Or it is multiple be included in idle, the inactive or suspended state in wireless communication system radio resource survey Amount.These elements, which can be configured to transmit Data Concurrent between each other, send or receives instruction.Base station 120 can shown in Fig. 1 It is configured as network equipment 1300.Network equipment 1300 can be base station in wireless communication system, relay station, remote radio Unit, network node or Home eNodeB.

Processor 1320 includes general or specialized microprocessor, digital signal processor or the microcontroller of any appropriate type Device.Processor 1320 can represent one or more processors in base station 120.Memory 1310 and reservoir 1330 can be as more than It is configured for mode described in memory 1210 and reservoir 1230.Memory 1310 and/or reservoir 1330 can also be matched It is set to information and data that storage is used by processor 1320.For example, memory 1310 and/or reservoir 1330 can be configured to RRM of the storage for user equipment 140 and 160 is configured.

I/O interface 1340 can be configured to promote the communication between network equipment 1300 and other devices.For example, I/O connects Mouthfuls 1340 can receive signal from another device (for example, computer) for including system configuration information for network equipment 1300. The RRM data configured can be also output to other devices by I/O interface 1340.

Communication unit 1350 may include one or more cellular communication modules comprising such as 5G wireless access system, length Phase evolution (LTE), high-speed packet access (HSPA), Wideband Code Division Multiple Access (WCDMA) and/or global system for mobile communications (GSM) communication module.

Processor 1320 can be configured to send RRM configuration to user equipment.For example, as shown in figure 5, processor 1320 can It is configured as sending user equipment 140 for RRM configuration 520.RRM configuration 520 is used for idle, inactive or suspended state, all As in Fig. 3 A, 3B, 4A or 4B NR RRC IDLE 320, NR RRC INACTIVE 340, E-UTRA RRC IDLE 310, NR RRC IDLE 420, NR RRC INACTIVE 440 or E-UTRA RRC IDLE 410.

Processor 1320 is also configured to configure based on RRM to trigger measurement.Processor 1320 can be configured to work as net It is measured when network device 1300 is in idle, inactive or suspended state based on RRM configuration to trigger.For example, as shown in figure 5, place Reason device 1320 can be configured to when user equipment 140 wants received data based on 520 triggering measurement 540 of RRM configuration.

Processor 1320 is also configured to receive the result based on the RRM measurement configured from user equipment.For example, as schemed Shown in 5, processor 1320 be can be configured to after measuring all possible frequency in user equipment 140 and collecting RRM result 580 RRM result 580 is received from user equipment 140.

In some embodiments, processor 1320 can be configured to receiving the data to send in the buffer of BS When, after receiving RACH message or after receiving connection request from user equipment, survey is triggered based on RRM configuration Amount.The connection request includes indicating that user equipment establishes reason with the data to be sent.

For example, processor 1320 can be configured to work as network equipment in measurement triggering 540,640,740,840 and 940 1300 trigger RRM measurement when receiving the data to send in transmitting queue from 5G or E-UTRA network system.As another reality Example, in above-mentioned measurement triggering 540,640,740,840 and 940, processor 1320 can be configured to connect from user equipment 140 Triggering RRM is measured after receiving random access preamble.Alternatively, in above-mentioned measurement triggering 540,640,740,840 and 940, Processor 1320 can be configured to the triggering RRM measurement after sending connection request to user equipment 140.In network equipment 1300 After sending connection request, network equipment 1300 needs the measurement result from user equipment 140 to distribute for setting with user The radio resource and transmission plan of standby 140 connection.

In some embodiments, processor 1320 can be configured to send paging message, random access sound to user equipment Answer message or including activating one in the system information indicated.For example, as shown in figure 8, processor 1320 can be configured Disappear to send paging message 821, accidental access response message 822 or the system information indicated including activation to user equipment 140 One in breath 823, with triggering measurement 840.

In some embodiments, processor 1320 can be configured in paging message, accidental access response message or system The configuration index that one group of RRM is configured is sent to user equipment in informational message.Also configure one in this group of RRM configuration of index instruction It is a to be configured as the RRM.For example, as shown in figure 8, processor 1320 can be configured to send to page to user equipment 140 to disappear Configuration index in breath 821, accidental access response message 822 or system information 823.This is received in user equipment 140 After configuration index, user equipment 140 can configure a RRM for being determined as user equipment 140 in one group of RRM configuration, with It is measured under 340 state of NR RRC IDLE 320 or INACTIVE.

In some embodiments, processor 1320 can be configured to enter current idle, inactive according in user equipment Or the previous RRM used in previous idle, inactive or suspended state configures to determine that RRM is configured before suspended state.Example Such as, as shown in figure 9, processor 1320 can be configured to determine the previous RRM using in 460 state of NR RRC CONNECTED Configuration at current NR RRC IDLE 420 or 440 state of INACTIVE to measure.After RRM configuration determines 920, Processor 1320 is configured as sending the instruction 930 that RRM is configured to user equipment 140.

In some embodiments, processor 1320 can be configured to enter current idle, inactive according in user equipment Or the RRM used in previous connection or state of activation configures to determine that RRM is configured before suspended state.For example, such as Fig. 9 institute Show, processor 1320, which can be configured to determine using the previous RRM configuration in 460 state of NR RRC CONNECTED, is working as It is measured under preceding NR RRC IDLE 420 or 440 state of INACTIVE.

In some embodiments, processor 1320 can be configured to enter current idle, inactive according in user equipment Or used in previous connection or state of activation service configuration determines that RRM is configured before suspended state.For example, processor 1320 can be configured to determine that RRM is configured according to whether service configuration is short grouping transmission.If service configuration is short grouping Transmission, then the short RRM used during transmission that is grouped is configured before processor 1320 can be configured to determining priority of use.If service Configuration is not short grouping transmission, then processor 1320 can be configured to determining reuse in NR IDLE 420 or INACTIVE Previous RRM configuration used in 440 states.

In some embodiments, processor 1320 can be configured to determine that RRM is configured according to network environment.For example, processing Device 1320 can be configured to determine that RRM is configured according to the network topology where network equipment 1300.For example, working as network equipment 1300 Positioned at when being more than the position that 10 5G frequencies and/or LTE frequency surround by wireless communication system, processor 1320 can be configured To be determined as the configuration of RRM used in previous 460 state of NR RRC CONNECTED to be used for current NR RRC IDLE 420 Or the RRM configuration of 440 state of INACTIVE.Two 5G frequencies are less than by wireless communication system when network equipment 1300 is located at And/or LTE frequency surround position when, processor 1320 can be configured to use in previous 420 state of NR RRC IDLE RRM configuration be determined as configuring for current NR RRC IDLE 420 or the RRM of 440 state of INACTIVE.

In some embodiments, processor 1320 can be configured to determine that RRM is configured according to the speed of user equipment.Example Such as, after the speed for receiving or detecting user equipment 140, processor 1320 can be configured to according to user equipment 140 whether Determine that RRM is configured to be more than the speed movement of 50 kms per hour.It is more than the speed of 50 kms per hour when user equipment 140 When degree is mobile, processor 1320 can be configured to configure the RRM used in previous 460 state of NR RRC CONNECTED It is determined as configuring for the current NR RRC IDLE 420 or RRM of 440 state of INACTIVE.When user equipment 140 is to be lower than When the speed of 3 kms is mobile per hour, processor 1320 can be configured to use in previous 420 state of NR RRC IDLE RRM configuration be determined as configuring for current NR RRC IDLE 420 or the RRM of 440 state of INACTIVE.

The another aspect of the application is related to a kind of non-transitory computer-readable medium, the non-transitory computer readable medium Matter is stored with instruction, and described instruction makes one or more processors execute the process described above when executed.For example, instruction It is storable in including the non-transitory computer-readable medium in the memory 1210 and/or reservoir 1230 of user equipment On, for being executed by processor 1220, or it is stored in including the memory 1310 and/or reservoir in network equipment 1300 In non-transitory computer-readable medium in 1330, for being executed by processor 1320.Computer-readable medium may include easy The property lost or non-volatile, magnetic, semiconductor, tape, optics, removable, irremovable or other kinds of computer-readable Jie Matter or computer readable storage devices.For example, as disclosed in the present application, computer-readable medium can be storage equipment or its On be stored with the memory module of computer instruction.In some embodiments, computer-readable medium, which can be, is stored thereon with The disk or flash drive of computer instruction.

It should be understood that the application is not limited to the accurate construction for having been described above and being shown in the accompanying drawings, and can It is carry out various modifications in the case where without departing from the scope and modification.Scope of the present application is intended to only be limited by appended claims It is fixed.

Claims (35)

1. a kind of method that user equipment carries out radio resource measurement in wireless communication system, comprising:
Obtain the first radio resource measurement (RRM) configuration;
Triggering measurement is configured based on the first RRM;And
Base station is sent by the result of the measurement;
Wherein, the user equipment and the base station are configured as including operating together in one of state of the following terms:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
2. according to the method described in claim 1, wherein, it includes true according to one of the following terms for obtaining the first RRM configuration The fixed first RRM configuration:
In previous idle, inactive or hang-up shape before the user equipment enters current idle, inactive or suspended state Previous first RRM configuration used in state,
It is used in previous connection or state of activation before the user equipment enters current idle, inactive or suspended state The 2nd RRM configuration,
It is used in previous connection or state of activation before the user equipment enters current idle, inactive or suspended state Service configuration,
Network environment, or
The speed of the user equipment.
3. according to the method described in claim 1, further include:
Base station described in the forward direction of connection or state of activation, which is left, in the user equipment sends the first instruction,
Wherein, first instruction indicates the first RRM configuration.
4. according to the method described in claim 1, wherein, obtain the first RRM configuration include received from the base station with The configuration index of one group of RRM configuration in one of lower items:
Paging message,
Accidental access response message, or
System information,
Wherein, the configuration index indicates that a configuration in this group of RRM configuration is the first RRM configuration.
5. according to the method described in claim 1, wherein, being included in based on the first RRM configuration triggering measurement following Situation once triggers the measurement:
When receiving the data sent in the buffer area for staying in the user equipment;
After sending random access channel (RACH) message;Or
After sending connection request, wherein the connection request includes indicating that the user equipment has data to be sent Establish reason.
6. according to the method described in claim 1, wherein, including: based on the first RRM configuration triggering measurement
Receive paging message, accidental access response message and including activating one in the system information indicated;And
The measurement is triggered according to the first RRM configuration.
7. the method for the base station that the radio resource at a kind of user equipment in wireless communication system measures, comprising:
The first instruction is received from the user equipment, wherein first instruction instruction the first radio resource measurement (RRM) is matched It sets;And
The result based on the first RRM measurement configured is received from the user equipment;
Wherein, the user equipment and the base station are configured as including operating together in one of state of the following terms:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
8. according to the method described in claim 7, further include:
Triggering measurement is configured based on the first RRM.
9. according to the method described in claim 8, wherein, including: based on the first RRM configuration triggering measurement
Paging message, accidental access response message are sent to the user equipment and including activating in the system information indicated One.
10. according to the method described in claim 8, wherein, being included in based on the first RRM configuration triggering measurement following Situation once triggers the measurement:
When receiving the data sent in the buffer area for staying in the base station;
After receiving random access channel (RACH) message;Or
After receiving connection request from the user equipment, wherein the connection request includes indicating the user equipment Reason is established with data to be sent.
11. the method for the base station that the radio resource at a kind of user equipment in wireless communication system measures, comprising:
The first radio resource measurement (RRM) configuration is sent to the user equipment;And
The result based on the first RRM measurement configured is received from the user equipment;
Wherein, the user equipment and the base station are configured as including operating together in one of state of the following terms:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
12. according to the method for claim 11, wherein sending the first RRM configuration includes:
The configuration index that one group of RRM is configured is sent to the user equipment in one of the following terms:
Paging message,
Accidental access response message, or
System information,
Wherein, the configuration index indicates that a configuration in this group of RRM configuration is the first RRM configuration.
13. according to the method for claim 11, further includes:
The first RRM configuration is determined according to one of the following terms:
In previous idle, inactive or hang-up shape before the user equipment enters current idle, inactive or suspended state Previous first RRM configuration used in state,
It is used in previous connection or state of activation before the user equipment enters current idle, inactive or suspended state The 2nd RRM configuration,
It is used in previous connection or state of activation before the user equipment enters current idle, inactive or suspended state Service configuration,
Network environment, or
The speed of the user equipment.
14. the method for claim 11, further includes:
Triggering measurement is configured based on the first RRM.
15. according to the method for claim 14, wherein include: based on the first RRM configuration triggering measurement
Paging message, accidental access response message are sent to the user equipment and including activating in the system information indicated One.
16. according to the method for claim 14, wherein based on the first RRM configuration triggering it is described measurement be included in Lower situation once triggers the measurement:
When receiving the data sent in the buffer area for staying in the base station;
After receiving random access channel (RACH) message;Or
After receiving connection request from the user equipment, wherein the connection request includes indicating the user equipment Reason is established with data to be sent.
17. a kind of user equipment for the radio resource measurement in wireless communication system, comprising:
Memory, for storing instruction;And
Processor is configured to execute described instruction so that the user equipment executes following operation:
Obtain the first radio resource measurement (RRM) configuration;
Triggering measurement is configured based on the first RRM;And
Base station is sent by the result of the measurement;
Wherein, the user equipment and the base station are configured as including operating together in one of state of the following terms:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
18. user equipment according to claim 17, wherein the processor is configured to executing described instruction so that institute User equipment is stated by determining that the first RRM configuration configures to obtain the first RRM according to one of the following terms:
In previous idle, inactive or hang-up shape before the user equipment enters current idle, inactive or suspended state Previous first RRM configuration used in state,
It is used in previous connection or state of activation before the user equipment enters current idle, inactive or suspended state The 2nd RRM configuration,
It is used in previous connection or state of activation before the user equipment enters current idle, inactive or suspended state Service configuration,
Network environment, or
The speed of the user equipment.
19. user equipment according to claim 17, wherein the processor be additionally configured to execute described instruction so that The user equipment:
Base station described in the forward direction of connection or state of activation, which is left, in the user equipment sends the first instruction,
Wherein, first instruction indicates the first RRM configuration.
20. user equipment according to claim 17, wherein the processor is configured to executing described instruction so that institute It is described to obtain to state the configuration index that user equipment is configured by the one group of RRM received in one of the following terms from the base station First RRM configuration:
Paging message,
Accidental access response message, or
System information,
Wherein, the configuration index indicates that a configuration in this group of RRM configuration is the first RRM configuration.
21. user equipment according to claim 17, wherein the processor be additionally configured to execute described instruction so that The user equipment once triggers the measurement based on the first RRM configuration following situations:
When receiving the data sent in the buffer area for staying in the user equipment;
After sending random access channel (RACH) message;Or
After sending connection request, wherein the connection request includes indicating that the user equipment has data to be sent Establish reason.
22. user equipment according to claim 21, wherein the processor be additionally configured to execute described instruction so that The user equipment: before triggering the measurement based on the first RRM configuration,
Receive paging message, accidental access response message and including activating one in the system information indicated.
23. a kind of network equipment of the wireless resource management for the user equipment in wireless communication system, comprising:
Memory, for storing instruction;And
Processor is configured as executing described instruction so that the network equipment executes following operation:
The first instruction is received from the user equipment, wherein the first instruction instruction the first wireless resource management (RRM) is matched It sets;And
The result based on the first RRM measurement configured is received from the user equipment;
Wherein, the user equipment and the network equipment are configured as including grasping together in one of state of the following terms Make:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
24. network equipment according to claim 23, wherein the processor be additionally configured to execute described instruction so that The network equipment:
Triggering measurement is configured based on the first RRM.
25. network equipment according to claim 24, wherein the processor is configured to executing described instruction so that institute It states network equipment and the measurement is triggered based on the first RRM configuration in the following manner:
Paging message, accidental access response message are sent to the user equipment and including activating in the system information indicated One.
26. network equipment according to claim 24, wherein the processor be additionally configured to execute described instruction so that The network equipment once triggers the measurement based on the first RRM configuration following situations:
When receiving the data sent in the buffer area for staying in the base station;
After receiving random access channel (RACH) message;Or
After receiving connection request from the user equipment, wherein the connection request includes indicating the user equipment Reason is established with data to be sent.
27. a kind of network equipment of the wireless resource management for the user equipment in wireless communication system, comprising:
Memory, for storing instruction;And
Processor is configured as executing described instruction so that the network equipment executes following operation:
The first radio resource measurement (RRM) configuration is sent to the user equipment;And
The result based on the first RRM measurement configured is received from the user equipment;
Wherein, the user equipment and network equipment are configured as including operating together in one of state of the following terms:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
28. network equipment according to claim 27, wherein the processor is configured to executing described instruction so that institute It states network equipment and sends the first RRM configuration in the following manner:
The configuration index that one group of RRM is configured is sent to the user equipment in one of the following terms:
Paging message,
Accidental access response message, or
System information,
Wherein, the configuration index indicates that a configuration in this group of RRM configuration is the first RRM configuration.
29. network equipment according to claim 27, wherein the processor be additionally configured to execute described instruction so that The network equipment determines that the first RRM is configured according to one of the following terms:
In previous idle, inactive or hang-up shape before the user equipment enters current idle, inactive or suspended state Previous first RRM configuration used in state,
It is used in previous connection or state of activation before the user equipment enters current idle, inactive or suspended state The 2nd RRM configuration,
It is used in previous connection or state of activation before the user equipment enters current idle, inactive or suspended state Service configuration,
Network environment, or
The speed of the user equipment.
30. network equipment according to claim 27, wherein the processor be additionally configured to execute described instruction so that The network equipment:
Triggering measurement is configured based on the first RRM.
31. network equipment according to claim 30, wherein the processor is configured to executing described instruction so that institute It states network equipment and the measurement is triggered based on the first RRM in the following manner:
Paging message, accidental access response message are sent to the user equipment and including activating in the system information indicated One.
32. network equipment according to claim 30, wherein the processor be additionally configured to execute described instruction so that The network equipment once triggers the measurement based on the first RRM configuration following situations:
When receiving the data sent in the buffer area for staying in the base station;
After receiving random access channel (RACH) message;Or
After receiving connection request from the user equipment, wherein the connection request includes indicating the user equipment Reason is established with data to be sent.
33. a kind of non-transitory computer-readable medium, is stored with instruction, described instruction is handled by the one or more of device Device is executed to execute the method for the wireless resource management in wireless communication system, which comprises
Obtain the first radio resource measurement (RRM) configuration;
Triggering measurement is configured based on the first RRM;And
Base station is sent by the result of the measurement;
Wherein, described device and the base station are configured as including operating together in one of state of the following terms:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
34. a kind of non-transitory computer-readable medium, is stored with instruction, described instruction is handled by the one or more of device Device is executed to execute the method for the wireless resource management in wireless communication system, which comprises
The first instruction is received from the user equipment, wherein the first instruction instruction the first wireless resource management (RRM) is matched It sets;And
The result based on the first RRM measurement configured is received from the user equipment;
Wherein, the user equipment and described device are configured as including operating in one of state of the following terms:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
35. a kind of non-transitory computer-readable medium, is stored with instruction, described instruction is handled by the one or more of device Device is executed to execute the method for the wireless resource management in wireless communication system, which comprises
The first radio resource measurement (RRM) configuration is sent to user equipment;And
The result based on the first RRM measurement configured is received from the user equipment;
Wherein, the user equipment and described device are configured as including operating together in one of state of the following terms:
Idle, inactive or suspended state, and
Connection or state of activation, and
First RRM is configured to idle, the inactive or suspended state.
CN201880003408.0A 2017-06-14 2018-04-12 Method and apparatus for the radio resource measurement in wireless communication system CN109952780A (en)

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