WO2018202113A1 - 无线资源配置方法、装置及存储介质 - Google Patents
无线资源配置方法、装置及存储介质 Download PDFInfo
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- WO2018202113A1 WO2018202113A1 PCT/CN2018/085544 CN2018085544W WO2018202113A1 WO 2018202113 A1 WO2018202113 A1 WO 2018202113A1 CN 2018085544 W CN2018085544 W CN 2018085544W WO 2018202113 A1 WO2018202113 A1 WO 2018202113A1
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- radio resource
- dci
- unscheduled
- information
- uplink grant
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/20—Control channels or signalling for resource management
- H04W72/23—Control channels or signalling for resource management in the downlink direction of a wireless link, i.e. towards a terminal
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W72/00—Local resource management
- H04W72/04—Wireless resource allocation
Definitions
- the present invention relates to the field of communications, and in particular, to a radio resource configuration method, apparatus, and storage medium.
- the requirement of the unscheduled uplink transmission is proposed, that is, the network allocates a dedicated or shared resource for multiple UEs in advance.
- the semi-static uplink radio resource when the UE sends the uplink data, does not need to request the network to allocate an uplink grant (UL grant) in advance, and can directly use the uplink radio resource allocated in advance to perform uplink data transmission.
- UL grant uplink grant
- SPS Semi-Persistent Scheduling
- the embodiment of the present invention is to provide a method, a device, and a storage medium for configuring a radio resource, which can implement radio resource configuration for each UE when multiple UEs share the use of the unscheduled radio resource.
- a method for configuring a radio resource including: configuring, by the network element, an unscheduled radio resource for the UE according to the following manner: configuring a radio network temporary identifier (RNTI) for the UE, And/or configuring a common RNTI of the unscheduled radio resource for a UE sharing the unscheduled radio resource.
- RNTI radio network temporary identifier
- the method further includes: configuring, by the UE, an interval length of the unscheduled radio resource, and configuring, for the UE, a hybrid automatic repeat reQuest (HARQ) process using the unscheduled radio resource. number.
- HARQ hybrid automatic repeat reQuest
- the scheduling-free radio resource includes: an unscheduled uplink grant and a schedule-free downlink assignment.
- different UEs are configured with the same or different interval lengths of the unscheduled radio resources or the number of HARQ processes.
- the access network element uses the dedicated RNTI and one of the public RNTIs to activate or deactivate the unscheduled radio resource configured by the UE; or the access network element uses the The one of the dedicated RNTI and the one of the common RNTIs reconfigure the unscheduled radio resource configured by the UE.
- the access network element using the dedicated RNTI and one of the public RNTIs to activate or deactivate the unscheduled radio resource configured by the UE includes:
- the network element of the access network sends Downlink Control Information (DCI) of the physical downlink control channel (PDCCH) of the first specified format to indicate that the UE activates or deactivates the scheduling Wireless resources;
- DCI Downlink Control Information
- PDCCH physical downlink control channel
- Reconfiguring the unscheduled radio resource configured by the UE by using the dedicated RNTI or the common RNTI by the access network element includes:
- the access network element sends the DCI of the PDCCH in the second specified format to instruct the UE to reconfigure the unscheduled radio resource, where the DCI is performed by using the UE-specific RNTI or the public RNTI. Scrambled.
- the DCI carries the uplink grant information of the unscheduled radio resource, where the uplink grant information includes at least one of the following information: The frequency domain information and the Modulation and Coding Scheme (MCS) information of the uplink grant; if the unscheduled radio resource is a non-scheduled downlink assignment, the DCI carries the downlink of the unscheduled radio resource The assignment information, wherein the downlink assignment information includes at least one of the following information: frequency domain information of the downlink assignment, and modulation and coding scheme MCS information.
- MCS Modulation and Coding Scheme
- the DCI further carries the first time information, where the first time information is used to indicate a time interval of the uplink grant carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- the DCI further carries the second time information, where the second time information is used to indicate a time interval of the downlink assignment carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- the access network element sends the DCI of the PDCCH in the second specified format to indicate that the UE reconfigures the unscheduled radio resource, and the UE maintains the currently configured uplink grant or the configured downlink index.
- the configured time domain resource is unchanged, and the configured uplink grant or the configured downlink assignment is reconfigured according to the frequency domain information and/or the modulation and coding scheme indicated in the DCI of the PDCCH of the second specified format;
- the UE starts from the first currently configured uplink grant or the configured downlink assigned time domain resource after receiving the DCI of the PDCCH of the second specified format, and uses the DC in the second specified format.
- Frequency domain information and/or modulation coding scheme of the indicated uplink grant
- the frequency domain information and/or modulation coding scheme of the downlink assignment indicated in the DCI of the second specified format is used.
- a radio resource configuration method including:
- the UE receives the configuration information sent by the network element of the access network, where the configuration information includes: a dedicated RNTI corresponding to the unscheduled radio resource configured by the access network element for the UE, configured for the UE sharing the unscheduled radio resource At least one of a common RNTI of the schedule-free radio resource;
- the UE uses the unscheduled radio resource according to the configuration information.
- the configuration information further includes: an interval length of the unscheduled radio resource configured for the UE, and a number of HARQ processes configured by the UE to use the unscheduled radio resource.
- the method further includes: when receiving the DCI of the PDCCH in the third specified format sent by the access network element, the UE activates or deactivates the unscheduled radio resource; When the DCI of the PDCCH of the fourth specified format sent by the access network element is described, the UE reconfigures the unscheduled radio resource; wherein the DCI uses the dedicated RNTI or the common RNTI to perform scrambling.
- the DCI carries the uplink grant information of the unscheduled radio resource, where the uplink grant information includes at least one of the following information: The uplink-assigned frequency domain information and the MCS information; if the unscheduled radio resource is a non-scheduled downlink assignment, the DCI carries downlink assignment information of the unscheduled radio resource, where the downlink finger
- the allocation information includes at least one of the following information: frequency domain information of the downlink assignment, and MCS information.
- the DCI further carries the first time information, where the first time information is used to indicate a time interval of the uplink grant carried by the DCI in the time domain relative to the radio resource that sends the DCI;
- the DCI further carries the second time information, where the second time information is used to indicate a time interval of the downlink assignment carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- the UE reconfiguring the unscheduled radio resource when receiving the DCI of the PDCCH in the fourth specified format sent by the access network element, includes: the UE maintaining the currently configured uplink grant or The configured time-domain resources of the downlink assignment are unchanged, and the configured uplink grant or configured downlink assignment is reconfigured according to the frequency domain information and/or the modulation and coding scheme indicated in the DCI of the PDCCH of the fourth specified format. or,
- the first currently configured uplink grant or the configured downlink assigned time domain resource after receiving the DCI of the PDCCH of the fourth specified format, using the DCI indicated in the fourth specified format Frequency domain information and/or modulation coding scheme for uplink grant or downlink assignment.
- a radio resource configuration apparatus which is applied to an access network element, and includes: a configuration module, configured to configure, for at least one of the following manners, an unscheduled radio resource for the UE: configuring the UE A dedicated RNTI, configured to configure a common RNTI of the unscheduled radio resource for a UE that shares the unscheduled radio resource.
- the configuration module is further configured to configure, for the UE, the interval length of the unscheduled radio resource, and configure the number of HARQ processes that use the unscheduled radio resource for the UE.
- a radio resource configuration apparatus which is applied to a UE, and includes: a receiving module, configured to receive configuration information sent by an access network element, where the configuration information includes: The network element is a dedicated RNTI corresponding to the unscheduled radio resource configured by the UE, and at least one of the public RNTI of the unscheduled radio resource configured for the UE sharing the unscheduled radio resource;
- a first processing module configured to use the unscheduled radio resource according to the configuration information
- the device further includes: a second processing module, configured to activate or deactivate the unscheduled radio resource when receiving the DCI of the PDCCH in the third specified format sent by the access network element; a third processing module, configured to reconfigure the unscheduled radio resource when receiving the DCI of the PDCCH in the fourth specified format sent by the access network element; wherein the DCI uses the dedicated RNTI or The public RNTI performs scrambling.
- the third processing module includes: a first processing unit, configured to keep the current configured uplink grant or the configured downlink assignment time domain resource unchanged, according to the fourth specified format of the PDCCH in the DCI Instructing the frequency domain information and/or the modulation and coding scheme to reconfigure the configured uplink grant or the configured downlink assignment; or the second processing unit is configured to receive the DCI of the PDCCH of the fourth specified format
- the first currently configured uplink grant or the configured downlink assigned time domain resource begins with the uplink grant or downlink assigned frequency domain information and/or modulation coding scheme indicated in the DCI of the fourth specified format.
- a storage medium is also provided.
- the storage medium is arranged to store program code for performing the following steps:
- the access network element configures the user equipment UE with the unscheduled radio resource in the following manner: configuring the dedicated RNTI for the UE, and/or configuring the public RNTI of the unscheduled radio resource for the UE sharing the unscheduled radio resource.
- the storage medium is further configured to store program code for performing the following steps:
- the UE receives the configuration information sent by the network element of the access network, where the configuration information includes: the access network element configures the unscheduled radio resource for the UE according to the following manner: configuring the dedicated RNTI for the UE, and/or sharing the exemption
- the UE that schedules the radio resource configures the common RNTI of the unscheduled radio resource; the UE uses the unscheduled radio resource according to the configuration information.
- the access network element configures the unscheduled radio resource for the user equipment UE in the following manner: configuring a dedicated RNTI for the UE, and/or configuring the unscheduled radio resource for the UE sharing the unscheduled radio resource Public RNTI.
- the embodiment of the present invention configures an unscheduled resource for each UE in the foregoing manner, and solves the problem that the related technology cannot perform radio resource configuration for each UE when multiple UEs share the use of the unscheduled radio resource, and thus The technical effect of implementing flexible configuration of radio resources of each UE.
- FIG. 2 is a schematic flowchart 1 of a method for configuring a radio resource according to an embodiment of the present invention
- FIG. 3 is a second schematic flowchart of a method for configuring a radio resource according to an embodiment of the present invention
- FIG. 4 is a schematic diagram 1 of a radio resource configuration according to an embodiment of the present invention.
- FIG. 5 is a schematic diagram 2 of a radio resource configuration according to an embodiment of the present invention.
- FIG. 6 is a schematic diagram 3 of a radio resource configuration according to an embodiment of the present invention.
- FIG. 7 is a schematic diagram 4 of a radio resource configuration according to an embodiment of the present invention.
- FIG. 8 is a structural block diagram 1 of a radio resource configuration apparatus according to an embodiment of the present invention.
- FIG. 9 is a structural block diagram 2 of a radio resource configuration apparatus according to an embodiment of the present invention.
- FIG. 10 is a structural block diagram 3 of a radio resource configuration apparatus according to an embodiment of the present invention.
- FIG. 11 is a structural block diagram 4 of a radio resource configuration apparatus according to an embodiment of the present invention.
- the access network network side network element for example, Long Term Evolution (LTE) eNB, 5G/NR gNB
- radio resource control Radio Resource Control
- the RRC Radio Resource Control
- the access network element transmits the DCI scrambled by the SPS C-RNTI on the PDCCH, and is used to control the activation, deactivation, and hybrid automatic retransmission of the SPS scheduling, and configure the frequency domain information of the MCS and the SPS uplink authorization in the SPS uplink authorization. and many more.
- the SPS scheduling resource is re-initialized.
- the SPS scheduling resource is an uplink grant (UL grant) indicated by the DCI that is repeatedly configured with the SPS interval of the SPS interval.
- the uplink SPS is used as an example, and the uplink authorized resource is at an SPS interval. The occurrence of periodic repetitions. This process is called the activation process of the SPS.
- the SPS uplink radio resource of the UE is also referred to as a configured uplink grant.
- the SPS downlink radio resource of the UE is also referred to as a configured downlink assignment.
- the UE releases the configured SPS resource.
- the UE releases the configured uplink grant.
- the UE releases the configured downlink assignment. This process is called deactivation.
- FIG. 2 is a flowchart of a radio resource configuration method according to an embodiment of the present invention. As shown in FIG. 2, the process includes the following steps:
- Step S202 The access network element configures the unscheduled radio resource for the UE according to the following manner: configuring a dedicated RNTI corresponding to the unscheduled radio resource for the UE, and/or configuring the unscheduled radio resource for the UE sharing the unscheduled radio resource Public RNTI.
- the unscheduled resource is configured for each UE in the foregoing manner, which solves the problem that the related technology cannot perform radio resource configuration for each UE when multiple UEs share the use of the unscheduled radio resource, and thus the radio resource of each UE can be implemented. Flexible configuration of technical effects.
- the method further includes: configuring, by the UE, an interval length of the unscheduled radio resource, and configuring, for the UE, a number of HARQ processes that use the unscheduled radio resource.
- non-scheduled radio resources include: an unscheduled uplink grant and a schedule-free downlink assignment.
- different UEs are configured with the same or different interval lengths of the unscheduled radio resources or the number of HARQ processes.
- the access network element uses the dedicated RNTI or the public RNTI to activate or deactivate the unscheduled radio resource configured by the UE; or the access network element uses the dedicated RNTI or the public RNTI to re-establish The unscheduled radio resource configured by the UE is configured.
- the access network element uses the dedicated RNTI or the public RNTI to activate or deactivate the unscheduled radio resource configured by the UE, and the access network element sends the DCI of the PDCCH in the first specified format to indicate the The UE activates or deactivates the unscheduled radio resource; the access network element reconfigures the unscheduled radio resource configured by the UE by using the dedicated RNTI or the common RNTI, and the access network element sends the second specified format. DCI of the PDCCH to indicate that the UE reconfigures the unscheduled radio resource;
- DCI is scrambled using a dedicated RNTI or a public RNTI.
- the DCI if the unscheduled radio resource is an unscheduled uplink grant, the DCI carries the uplink grant information of the unscheduled radio resource, where the uplink grant information includes at least one of the following information: an uplink grant.
- the DCI further carries the first time information, where the first time information is used to indicate the time interval of the uplink grant carried by the DCI in the time domain relative to the radio resource that sends the DCI; And second time information, where the second time information is used to indicate a time interval of the downlink assignment carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- the access network element sends the DCI of the PDCCH in the second specified format to indicate that the UE reconfigures the unscheduled radio resource, and the UE maintains the currently configured uplink grant or the configured downlink assignment.
- the domain resource is unchanged, and the uplink grant or the configured downlink assignment of the configuration is reconfigured according to the frequency domain information and/or the modulation and coding scheme indicated in the DCI of the PDCCH of the second specified format; or, the UE receives the first The first currently configured uplink grant or the configured downlink assigned time domain resource after the DCI of the PDCCH of the specified format starts, and the frequency domain information of the uplink grant or downlink assignment indicated in the DCI of the second specified format is used. And / or modulation coding scheme.
- FIG. 3 is a flowchart of another radio resource configuration method according to an embodiment of the present invention. As shown in FIG. 3, the process includes the following steps:
- Step S302 The UE receives the configuration information sent by the access network element, where the configuration information includes: a dedicated RNTI corresponding to the unscheduled radio resource configured by the access network element for the UE, and a UE configured to share the unscheduled radio resource. At least one of a public RNTI of the unscheduled radio resource;
- Step S304 the UE uses the unscheduled radio resource according to the configuration information.
- the above-mentioned steps S302-S304 solve the problem that the related technology cannot perform radio resource configuration for each UE when multiple UEs share the use of the unscheduled radio resource, and the technical effect of flexible configuration of the radio resources of each UE can be realized. .
- the configuration information further includes: an interval length of the unscheduled radio resource configured for the UE, and a number of HARQ processes configured by the UE to use the unscheduled radio resource.
- the UE when receiving the DCI of the PDCCH in the third specified format sent by the access network element, the UE activates or deactivates the unscheduled radio resource; and receives the network element sent by the access network.
- the UE reconfigures the unscheduled radio resource;
- DCI is scrambled using a dedicated RNTI or a public RNTI.
- the DCI if the unscheduled radio resource is an unscheduled uplink grant, the DCI carries the uplink grant information of the unscheduled radio resource, where the uplink grant information includes at least one of the following information: an uplink grant.
- the DCI further carries the first time information, where the first time information is used to indicate a time interval of the uplink grant carried by the DCI in the time domain relative to the radio resource that sends the DCI; And carrying the second time information, where the second time information is used to indicate a time interval of the downlink assignment carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- the receiving, by the UE, the unscheduled radio resource of the PDCCH in the fourth specified format that is sent by the access network element includes: when the UE maintains the currently configured uplink grant or the configured downlink assignment The domain resource is unchanged, and the uplink grant or the configured downlink assignment of the configuration is reconfigured according to the frequency domain information and/or the modulation and coding scheme indicated in the DCI of the PDCCH of the fourth specified format; or
- the UE starts from the first currently configured uplink grant or the configured downlink assigned time domain resource after receiving the DCI of the PDCCH of the fourth specified format, and uses the uplink grant or downlink indicated in the DCI of the fourth specified format.
- Assigned frequency domain information and/or modulation coding scheme Assigned frequency domain information and/or modulation coding scheme.
- the access network element configures the UE to use the unscheduled radio resource shared by the dedicated UE or multiple UEs by the following method:
- the access network element configures the interval length of the unscheduled radio resource for the UE, that is, configures the UE to configure the time domain period length of the unscheduled radio resource.
- the access network element configures the same or different interval lengths for different UEs.
- FIG. 4 is a schematic diagram of a radio resource configuration according to an embodiment of the present invention. In the example shown in FIG. 4, UE1 and UE2 share the use of the unscheduled radio resource, and UE1 and UE2 are respectively configured with different interval length values.
- the access network element configures the number of the HARQ processes that use the unscheduled radio resource for the UE. If the unscheduled radio resource includes the uplink radio resource, the number of the HARQ processes includes the number of uplink HARQ processes, if the If the unscheduled radio resource includes downlink radio resources, the number of the HARQ processes includes the number of downlink HARQ processes.
- the different UEs are configured with the same or different interval lengths of the unscheduled radio resources or the number of the HARQ processes.
- the UE-specific RNTI configured by the access network element for the UE is used for at least one of the following:
- Activating the UE to use the unscheduled radio resource deactivating the unscheduled radio resource configured by the UE, reconfiguring the unscheduled radio resource configured by the UE, and indicating, for the UE, retransmission information of the HARQ process using the unscheduled radio resource .
- the access network element is a public RNTI of the unscheduled radio resource configured by the UE sharing the unscheduled radio resource, and is used in at least one of the following:
- the plurality of UEs are activated to use the unscheduled radio resource, deactivate the unscheduled radio resources configured by the multiple UEs, and reconfigure the unscheduled radio resources configured by the multiple UEs.
- the UE configured with the dedicated RNTI and the unscheduled radio resource common RNTI detects the dedicated RNTI or the common RNTI scrambled PDCCH signaling DCI when the PDCCH channel is monitored.
- the non-scheduled radio resource is an unscheduled uplink grant or a non-scheduled downlink assignment.
- the so-called unscheduled uplink grant means that the uplink grant is semi-statically configured.
- the UE uses a certain uplink grant, the UE does not need to apply in advance and directly uses the uplink grant to send the uplink transmission.
- the non-scheduled downlink assignment means that the downlink assignment is a semi-static configuration.
- the UE receives the downlink transmission on a non-scheduled downlink assignment resource, the UE does not need to receive the downlink finger sent through the physical common control channel in advance. With information.
- the access network element uses the UE-specific RNTI or the public RNTI, and the activation of the unscheduled radio resource configured by the UE refers to: the access network element sends a PDCCH signaling DCI of a specific format, and the DCI
- the UE-specific RNTI or the public RNTI is used for scrambling, and the DCI instructs the UE to activate the unscheduled radio resource.
- the DCI carries uplink grant information of the unscheduled radio resource, including uplink grant frequency domain information, and/or modulation and coding scheme information.
- the DCI further carries time information, which is used to indicate the time interval of the uplink grant carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- the UE receiving the DCI initializes or re-initializes the uplink grant configured by the UE.
- the uplink grant of the configuration is: the radio resource that repeats according to the length of the interval from the uplink grant indicated by the DCI, that is, the same frequency domain resource and/or the radio resource of the MCS every other interval length.
- FIG. 5 is a schematic diagram of a radio resource configuration according to an embodiment of the present invention.
- the UE first receives the DCI, and the DCI indicates the first uplink grant, and the uplink grant configured by the UE includes the Upstream authorization and uplink grants that are repeated after the interval length.
- the DCI carries the downlink assignment information of the unscheduled radio resource, including the frequency domain information of the downlink assignment, and/or the modulation and coding scheme. information.
- the DCI further carries timing information for indicating a time interval of the downlink assignment relative to the radio resource that sends the DCI.
- the UE that receives the DCI initializes or re-initializes the configured downlink assignment.
- the downlink assignment of the configuration is: starting from the downlink assignment indicated by the DCI, and repeating the radio resource according to the interval length, that is, every other The same frequency domain resources of the interval length, and/or wireless resources of the MCS.
- the access network element uses the UE-specific RNTI or the public RNTI to deactivate the unscheduled radio resource configured by the UE.
- the access network element sends the PDCCH signaling DCI of a specific format, and the DCI is used.
- the UE-specific RNTI or the public RNTI is scrambled, and the DCI instructs the UE to deactivate the unscheduled radio resource.
- the DCI indicates that the configured unscheduled radio resource is released. If the configured unscheduled radio resource is the configured uplink grant, the UE releases the configured uplink grant corresponding to the unscheduled radio resource.
- the UE releases the configured downlink configuration corresponding to the unscheduled radio resource.
- the access network element uses the UE-specific RNTI or the common RNTI, and reconfiguring the unscheduled radio resource configured by the UE means that the access network element sends a PDCCH signaling DCI of a specific format, and the DCI is used.
- the UE-specific RNTI or the public RNTI is scrambled, and the DCI indicates that the UE reconfigures the unscheduled radio resource.
- the DCI carries uplink grant information of the unscheduled radio resource, including uplink grant frequency domain information, and/or modulation and coding scheme information.
- the DCI further carries time information, which is used to indicate the time interval of the uplink grant carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- the UE that receives the DCI re-initializes the uplink grant configured by the UE, that is, keeps the time domain resources of the uplink grant of the existing configuration unchanged, according to the frequency domain information and/or modulation code indicated in the DCI.
- the scenario reconfigures the upstream authorization for this configuration.
- the UE starts from the time domain resource of the uplink grant of the first existing configuration after receiving the DCI, and uses the uplink grant frequency domain information and/or the modulation and coding scheme indicated in the DCI.
- the DCI information is ignored.
- FIG. 6 is a schematic diagram of a radio resource configuration according to an embodiment of the present invention.
- the UE first receives the DCI, and the DCI carries uplink grant information, and the UE starts with an uplink grant of the next existing configuration. And using the authorization information indicated by the DCI to reconfigure the existing configured uplink grant, but keep the time domain resources of the existing configured uplink grant unchanged, and only use the frequency domain information and/or modulation and coding scheme indicated by the DCI.
- the method for implementing the reconfiguration is similar to the foregoing method for reconfiguring the uplink resource.
- the above-mentioned scheduling-free radio resource is configured through the SPS mechanism in the 3GPP technology, and the access network element configures the SPS configuration for the UE to configure the UE to use the unscheduled radio resource as an example:
- the SPS interval is configured for the UE, and UEs sharing the use of the unscheduled radio resource may configure the same or different SPS intervals.
- the number of HARQ processes using the same or different SPS resources is configured for the UE sharing the use of the unscheduled radio resource.
- the access network element may be configured with one or more SPS configurations for one UE, so that the UE uses multiple sets of unscheduled radio resources.
- FIG. 7 is a schematic diagram of radio resource configuration according to an embodiment of the present invention. Two sets of SPS configurations, the uplink authorization of the configuration of the UE using each set of SPS configuration radio resources is shown in FIG. 7.
- the access network element configures the UE-specific RNTI for each set of SPS configurations and the public RNTI specific to the SPS configuration for the UE.
- the uplink authorization of the configuration is an uplink grant of the uplink radio resource of the configured SPS configuration
- the downlink configuration of the configuration of the present invention is configured to use a certain SPS configuration. Downstream assignment of downlink radio resources.
- the foregoing method provided by the embodiment of the present invention implements a flexible function of allocating, activating, deactivating, and reconfiguring the shared unscheduled radio resource for a UE that uses the unscheduled radio resource.
- the behavior of the UE using the radio resource may be controlled by the UE-dedicated RNTI scrambled DCI.
- the behavior of the UE using the unscheduled radio resource may be controlled by the DCI scrambled by the common RNTI of the unscheduled radio resource, instead of It is necessary to control the DCI of each UE to transmit the dedicated RNTI scrambling, which saves the signaling overhead of the radio interface and improves the efficiency of radio resource control.
- the access network may also implement different intervals for using different radio-dispatched radio resources for different UEs to meet the service quality requirements of different UEs.
- the embodiment of the present invention further provides a method for reconfiguring a shared unscheduled radio resource used by the UE, that is, re-configuring the information of the shared radio resource by using the DCI to indicate that the UE uses the shared unscheduled radio resource, but does not affect the use.
- Time domain information of the shared wireless resource Through the reconfiguration method, for the UEs configured with different intervals, the network side only needs to send the reconfigured DCI information once, and does not need to consider the difference in the time domain location of different shared UEs using the shared radio resources.
- a UE of one or all of the same unscheduled radio resources implements reconfiguration without affecting the time domain location in which the UE uses the radio resource.
- the method according to the above embodiment can be implemented by means of software plus a necessary general hardware platform, and of course, by hardware, but in many cases, the former is A better implementation.
- the technical solution of the present invention which is essential or contributes to the prior art, may be embodied in the form of a software product stored in a storage medium (such as ROM/RAM, disk,
- the optical disc includes a number of instructions for causing a terminal device (which may be a cell phone, a computer, a server, or a network device, etc.) to perform the methods described in various embodiments of the present invention.
- a radio resource configuration apparatus is further provided, which is used to implement the foregoing embodiments and preferred embodiments, and is not described again.
- the term “module” may implement a combination of software and/or hardware of a predetermined function.
- the apparatus described in the following embodiments is preferably implemented in software, hardware, or a combination of software and hardware, is also possible and contemplated.
- FIG. 8 is a structural block diagram of a radio resource configuration apparatus according to an embodiment of the present invention. As shown in FIG. 8, the apparatus includes:
- the configuration module 82 is configured to configure the UE with the unscheduled radio resource in the following manner: configuring the dedicated RNTI for the UE, and/or configuring the public RNTI of the unscheduled radio resource for the UE sharing the unscheduled radio resource.
- the configuration module 82 is further configured to configure, for the UE, the interval length of the unscheduled radio resource, and configure the number of HARQ processes that use the unscheduled radio resource for the UE.
- non-scheduled radio resources include: an unscheduled uplink grant and a schedule-free downlink assignment.
- different UEs are configured with the same or different interval lengths of the unscheduled radio resources or the number of HARQ processes.
- the access network element uses the dedicated RNTI or the public RNTI to activate or deactivate the unscheduled radio resource configured by the UE; or the access network element uses the dedicated RNTI or the public RNTI to re-establish The unscheduled radio resource configured by the UE is configured.
- the access network element uses the dedicated RNTI or the public RNTI to activate or deactivate the unscheduled radio resource configured by the UE, and the access network element sends the DCI of the PDCCH in the first specified format to indicate the The UE activates or deactivates the unscheduled radio resource; the access network element reconfigures the unscheduled radio resource configured by the UE by using the dedicated RNTI or the common RNTI, and the access network element sends the second specified format. DCI of the PDCCH to indicate that the UE reconfigures the unscheduled radio resource;
- DCI is scrambled using a dedicated RNTI or a public RNTI.
- the DCI if the unscheduled radio resource is an unscheduled uplink grant, the DCI carries the uplink grant information of the unscheduled radio resource, where the uplink grant information includes at least one of the following information: an uplink grant.
- the DCI further carries the first time information, where the first time information is used to indicate the time interval of the uplink grant carried by the DCI in the time domain relative to the radio resource that sends the DCI; And second time information, where the second time information is used to indicate a time interval of the downlink assignment carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- the access network element sends the DCI of the PDCCH in the second specified format to indicate that the UE reconfigures the unscheduled radio resource, and the UE maintains the currently configured uplink grant or the configured downlink assignment.
- the domain resource is unchanged, and the uplink grant or the configured downlink assignment of the configuration is reconfigured according to the frequency domain information and/or the modulation and coding scheme indicated in the DCI of the PDCCH of the second specified format; or, the UE receives the first The first currently configured uplink grant or the configured downlink assigned time domain resource after the DCI of the PDCCH of the specified format starts, and the frequency domain information of the uplink grant or downlink assignment indicated in the DCI of the second specified format is used. And / or modulation coding scheme.
- FIG. 9 is a structural block diagram of another radio resource configuration apparatus according to an embodiment of the present invention. As shown in FIG. 9, the apparatus includes:
- the receiving module 92 is configured to receive the configuration information sent by the access network element, where the configuration information includes: the access network element configures the unscheduled radio resource for the UE according to the following manner: configuring the dedicated RNTI for the UE, and/or Sharing, by the UE sharing the unscheduled radio resource, a public RNTI of the unscheduled radio resource;
- the first processing module 94 is configured to use the unscheduled radio resource according to the configuration information.
- the device receives the configuration information sent by the network element of the access network, where the configuration information includes: a dedicated RNTI corresponding to the unscheduled radio resource configured by the access network element for the UE, and/or sharing The public RNTI of the unscheduled radio resource configured by the UE of the unscheduled radio resource; the UE uses the unscheduled radio resource according to the configuration information, and solves the related technology that cannot be targeted for each UE when multiple UEs share the use of the unscheduled radio resource
- the problem of radio resource configuration is implemented, and the technical effect of flexible configuration of radio resources of each UE can be realized.
- the configuration information further includes: an interval length of the unscheduled radio resource configured for the UE, and a number of HARQ processes configured by the UE to use the unscheduled radio resource.
- FIG. 10 is a structural block diagram of another radio resource configuration apparatus according to an embodiment of the present invention.
- the apparatus includes a receiving module 92 and a first processing module in the apparatus included in FIG. Based on 94, it also includes:
- the second processing module 102 is configured to activate or deactivate the unscheduled radio resource when receiving the DCI of the PDCCH in the third specified format sent by the access network element;
- the third processing module 104 is configured to reconfigure the unscheduled radio resource when receiving the DCI of the PDCCH in the fourth specified format sent by the network element of the access network, where the DCI is added by using a dedicated RNTI or a public RNTI. Disturb.
- the DCI if the unscheduled radio resource is an unscheduled uplink grant, the DCI carries the uplink grant information of the unscheduled radio resource, where the uplink grant information includes at least one of the following information: an uplink grant.
- the DCI further carries the first time information, where the first time information is used to indicate a time interval of the uplink grant carried by the DCI in the time domain relative to the radio resource that sends the DCI; And carrying the second time information, where the second time information is used to indicate a time interval of the downlink assignment carried by the DCI in the time domain relative to the radio resource that sends the DCI.
- FIG. 11 is a structural block diagram of another radio resource configuration apparatus according to an embodiment of the present invention.
- the third processing module 104 includes:
- the first processing unit 112 is configured to keep the currently configured uplink grant or the configured time domain resource of the downlink assignment unchanged, according to the frequency domain information and/or the modulation and coding scheme indicated in the DCI of the PDCCH of the fourth specified format, Reconfiguring the uplink grant of the configuration or the configured downlink assignment; or replacing the first processing unit 112 with a third processing unit, wherein the second processing unit is configured to receive DCI from the PDCCH of the fourth specified format
- the first currently configured uplink grant or the configured downlink assigned time domain resource begins with the uplink grant or downlink assigned frequency domain information and/or modulation coding scheme indicated in the DCI of the fourth specified format.
- each of the above modules may be implemented by software or hardware.
- the foregoing may be implemented by, but not limited to, the foregoing modules are all located in the same processor; or, the above modules are in any combination.
- the forms are located in different processors.
- Embodiments of the present invention also provide a storage medium.
- the above storage medium may be configured to store program code for performing the following steps:
- the access network element configures the UE with the unscheduled radio resource in the following manner: configuring the dedicated RNTI for the UE, and/or configuring the public RNT of the unscheduled radio resource for the UE sharing the unscheduled radio resource.
- the storage medium is further configured to store program code for performing the following steps:
- the UE receives the configuration information sent by the network element of the access network, where the configuration information includes: a dedicated RNTI corresponding to the unscheduled radio resource configured by the access network element for the UE, and/or sharing the unscheduled wireless
- the UE of the resource configures the public RNTI of the unscheduled radio resource;
- the UE uses the unscheduled radio resource according to the configuration information.
- the foregoing storage medium may include, but is not limited to, a USB flash drive, a Read-Only Memory (ROM), a Random Access Memory (RAM), a mobile hard disk, a magnetic disk, or an optical disk.
- ROM Read-Only Memory
- RAM Random Access Memory
- mobile hard disk a magnetic disk
- magnetic disk a magnetic disk
- optical disk a variety of media that can store program code.
- the processor performs the above step S1 according to the stored program code in the storage medium.
- the processor performs the above steps S2, S3 according to the stored program code in the storage medium.
- modules or steps of the present invention described above can be implemented by a general-purpose computing device that can be centralized on a single computing device or distributed across a network of multiple computing devices.
- they may be implemented by program code executable by the computing device, such that they may be stored in the storage device for execution by the computing device, and in some cases may be performed in a different order than that illustrated herein.
- the invention is not limited to any specific combination of hardware and software.
- the access network element configures the unscheduled radio resource for the UE according to at least one of the following manners: configuring a dedicated RNTI for the UE, and configuring the public RNTI of the unscheduled radio resource for the UE sharing the unscheduled radio resource In this way, the configuration of the scheduling-free resources for each UE when multiple UEs share the use of the unscheduled radio resources is implemented.
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Abstract
本发明公开了一种无线资源配置方法、装置及存储介质。其中,方法包括:接入网网元按照以下方式为UE配置免调度无线资源:为UE配置专用RNTI、和/或为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI。
Description
相关申请的交叉引用
本申请基于申请号为201710309143.4、申请日为2017年05月04日的中国专利申请提出,并要求该中国专利申请的优先权,该中国专利申请的全部内容在此引入本申请作为参考。
本发明涉及通信领域,尤其涉及一种无线资源配置方法、装置及存储介质。
在第三代合作伙伴计划(3rd Generation Partnership Project,3GPP)无线技术讨论中,提出免调度的上行传输的需求,即网络预先为用户设备(User Equipment,UE)分配专用或为多个UE分配共享的半静态的上行无线资源,UE在发送上行数据时,不需要事先请求网络分配上行授权(UL grant),即可直接使用预先半静态分配的上行无线资源进行上行数据传输。
相关技术中的半持续调度(Semi-Persistent scheduling,SPS)用于为UE分配专用的半静态上行或下行无线资源,然而在多个UE共享使用半静态配置的上行或下行无线资源时,如何针对每个UE配置上行或下行无线资源,以及如何对每个UE以及如何对共享使用相同上行或下行无线资源的所有UE进行激活、去激活以及重新配置等无线资源的配置操作,尚无有效解决方案。
发明内容
有鉴于此,本发明实施例期望提供一种无线资源配置方法、装置及存 储介质,能够实现多个UE共享使用免调度无线资源时,对每一UE的无线资源配置。
根据本发明的一个实施例,提供了一种无线资源配置方法,包括:入网网元按照以下方式为UE配置免调度无线资源:为UE配置专用无线网络临时标识(Radio Network Temporary Identity,RNTI)、和/或为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI。
上述方案中,所述方式还包括:为UE配置所述免调度无线资源的间隔长度、为UE配置使用所述免调度无线资源的混合自动重传请求(Hybrid Automatic Repeat reQuest,HARQ)进程的个数。
上述方案中,所述免调度无线资源包括:免调度的上行授权、免调度的下行指配。
上述方案中,不同UE分别被配置相同或不同的免调度无线资源的间隔长度或HARQ进程的个数。
上述方案中,所述接入网网元使用所述专用RNTI、所述公共RNTI之一激活或者去激活所述UE配置的所述免调度无线资源;或者,所述接入网网元使用所述专用RNTI、所述公共RNTI之一重新配置所述的UE配置的所述免调度无线资源。
上述方案中,所述接入网网元使用所述专用RNTI、所述公共RNTI之一激活或者去激活所述UE配置的所述免调度无线资源包括:
所述接入网网元发送第一指定格式的物理下行控制信道(Physical Downlink Control Channel,PDCCH)的下行控制信息(Downlink Control Information,DCI),以指示所述UE激活或者去激活所述免调度无线资源;
所述接入网网元使用所述专用RNTI或所述公共RNTI重新配置所述的UE配置的所述免调度无线资源包括:
所述接入网网元发送第二指定格式的PDCCH的DCI,以指示所述UE 重新配置所述免调度无线资源;其中,所述DCI使用所述的UE专用RNTI或所述的公共RNTI进行加扰。
上述方案中,若所述免调度无线资源为免调度的上行授权,则所述DCI中携带有所述免调度无线资源的上行授权信息,其中,所述上行授权信息包括以下信息至少之一:上行授权的频域信息、调制编码方案(Modulation and Coding Scheme,MCS)信息;若所述免调度无线资源为免调度的下行指配,则所述DCI中携带有所述免调度无线资源的下行指配信息,其中,所述下行指配信息包括以下信息至少之一:下行指配的频域信息、调制编码方案MCS信息。
上述方案中,所述DCI还携带第一时间信息,其中,所述第一时间信息用于指示所述DCI携带的上行授权在时域上相对于发送所述DCI的无线资源的时间间隔。所述DCI还携带第二时间信息,其中,所述第二时间信息用于指示所述DCI携带的下行指配在时域相对于发送所述DCI的无线资源的时间间隔。
上述方案中,所述接入网网元发送第二指定格式的PDCCH的DCI,以指示所述UE重新配置所述免调度无线资源包括:所述UE保持当前配置的上行授权或配置的下行指配的时域资源不变,根据所述第二指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案,重新配置所述配置的上行授权或配置的下行指配;
或者,所述UE从接收到所述第二指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用所述第二指定格式的DCI中指示的上行授权的频域信息和/或调制编码方案;
或者,使用所述第二指定格式的DCI中指示的下行指配的频域信息和/或调制编码方案。
根据本发明的另一个实施例,提供了一种无线资源配置方法,包括:
UE接收接入网网元发送的配置信息,其中,所述配置信息包括:接入网网元为UE配置的对应免调度无线资源的专用RNTI、为共享所述免调度无线资源的UE配置的所述免调度无线资源的公共RNTI至少之一;
所述UE根据所述配置信息使用所述免调度无线资源。
上述方案中,所述配置信息还包括:为UE配置的所述免调度无线资源的间隔长度、为UE配置的使用所述免调度无线资源的HARQ进程的个数。
上述方案中,所述方法还包括:在接收到所述接入网网元发送的第三指定格式的PDCCH的DCI时,所述UE激活或者去激活所述免调度无线资源;在接收到所述接入网网元发送的第四指定格式的PDCCH的DCI时,所述UE重新配置所述的免调度无线资源;其中,所述DCI使用所述专用RNTI或所述公共RNTI进行加扰。
上述方案中,若所述免调度无线资源为免调度的上行授权,则所述DCI中携带有所述免调度无线资源的上行授权信息,其中,所述上行授权信息包括以下信息至少之一:上行授权的频域信息、MCS信息;若所述免调度无线资源为免调度的下行指配,则所述DCI中携带有所述免调度无线资源的下行指配信息,其中,所述下行指配信息包括以下信息至少之一:下行指配的频域信息、MCS信息。
上述方案中,所述DCI还携带第一时间信息,其中,所述第一时间信息用于指示所述DCI携带的上行授权在时域上相对于发送所述DCI的无线资源的时间间隔;所述DCI还携带第二时间信息,其中,所述第二时间信息用于指示所述DCI携带的下行指配在时域相对于发送所述DCI的无线资源的时间间隔。
上述方案中,在接收到所述接入网网元发送的第四指定格式的PDCCH的DCI时,所述UE重新配置所述的免调度无线资源包括:所述UE保持当前配置的上行授权或配置的下行指配的时域资源不变,根据所述第四指定 格式的PDCCH的DCI中指示的频域信息和/或调制编码方案重新配置所述配置的上行授权或配置的下行指配;或者,
所述UE从接收到所述第四指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用所述第四指定格式的DCI中指示的上行授权或下行指配的频域信息和/或调制编码方案。
根据本发明的另一个实施例,提供了一种无线资源配置装置,应用于接入网网元,包括:配置模块,配置为按照以下方式至少之一为UE配置免调度无线资源:为UE配置专用RNTI、为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI。
上述方案中,所述配置模块,还配置为为UE配置所述免调度无线资源的间隔长度、为UE配置使用所述免调度无线资源的HARQ进程的个数。
根据本发明的另一个实施例,提供了一种无线资源配置装置,应用于UE,包括:接收模块,配置为接收接入网网元发送的配置信息,其中,所述配置信息包括:接入网网元为UE配置的对应免调度无线资源的专用RNTI、为共享所述免调度无线资源的UE配置的所述免调度无线资源的公共RNTI至少之一;
第一处理模块,配置为根据所述配置信息使用所述免调度无线资源
上述方案中,所述装置还包括:第二处理模块,配置为在接收到所述接入网网元发送的第三指定格式的PDCCH的DCI时,激活或者去激活所述免调度无线资源;第三处理模块,配置为在接收到所述接入网网元发送的第四指定格式的PDCCH的DCI时,重新配置所述的免调度无线资源;其中,所述DCI使用所述专用RNTI或所述公共RNTI进行加扰。
上述方案中,所述第三处理模块包括:第一处理单元,配置为保持当前配置的上行授权或配置的下行指配的时域资源不变,根据所述第四指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案,重新配置所 述配置的上行授权或配置的下行指配;或者,第二处理单元,配置为从接收到所述第四指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用所述第四指定格式的DCI中指示的上行授权或下行指配的频域信息和/或调制编码方案。
根据本发明的又一个实施例,还提供了一种存储介质。该存储介质设置为存储用于执行以下步骤的程序代码:
接入网网元按照以下方式为用户设备UE配置免调度无线资源:为UE配置专用RNTI、和/或为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI。
上述方案中,存储介质还设置为存储用于执行以下步骤的程序代码:
UE接收接入网网元发送的配置信息,其中,所述配置信息包括:接入网网元按照以下方式为UE配置免调度无线资源:为UE配置专用RNTI、和/或为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI;所述UE根据所述配置信息使用所述免调度无线资源。
应用本发明实施例,接入网网元按照以下方式为用户设备UE配置免调度无线资源:为UE配置专用RNTI、和/或为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI。也就是说,本发明实施例通过上述方式对每个UE配置免调度资源,解决了相关技术在多个UE共享使用免调度无线资源时,无法针对每一UE进行无线资源配置的问题,进而可以实现每一UE的无线资源的灵活配置的技术效果。
图1是相关技术中半持续调度的示意图;
图2是本发明实施例提供的无线资源配置方法流程示意图一;
图3是本发明实施例提供的无线资源配置方法流程示意图二;
图4是本发明实施例提供的无线资源配置示意图一;
图5是本发明实施例提供的无线资源配置示意图二;
图6是本发明实施例提供的无线资源配置示意图三;
图7是本发明实施例提供的无线资源配置示意图四;
图8是本发明实施例提供的无线资源配置装置的结构框图一;
图9是本发明实施例提供的无线资源配置装置的结构框图二;
图10是本发明实施例提供的无线资源配置装置的结构框图三;
图11是本发明实施例提供的无线资源配置装置的结构框图四。
下文中将参考附图并结合实施例来详细说明本发明。需要说明的是,在不冲突的情况下,本申请中的实施例及实施例中的特征可以相互组合。
需要说明的是,本发明的说明书和权利要求书及上述附图中的术语“第一”、“第二”等是用于区别类似的对象,而不必用于描述特定的顺序或先后次序。
发明人在研究过程中发现,在SPS技术中,接入网网络侧网元(例如长期演进(Long Term Evolution,LTE)的eNB,5G/NR中的gNB)通过无线资源控制(Radio Resource Control,RRC)消息为用户终端(UE)配置SPS间隔(interval),以及用于SPS配置命令(SPS command)的SPS C-RNTI。
接入网网元在PDCCH发送使用SPS C-RNTI加扰的DCI,用来控制SPS调度的激活、去激活、混合自动重传,以及配置SPS上行授权中的MCS、SPS上行授权的频域信息等等。
在相关技术中(参考3GPP TS36.321),如果上述SPS C-RNTI加扰的DCI中的信元NDI(new data indicator)设置为0,且该DCI中信元release设置为0,则UE初始化或重新初始化SPS调度资源,SPS调度资源为:以SPS间隔SPS interval为周期重复配置的所述DCI指示的上行授权(UL grant),如图1所示上行SPS为例,上行授权资源以SPS间隔为周期重复的 出现。该过程称为SPS的激活(Activation)过程。UE的SPS上行无线资源又称为配置的上行授权(configured uplink grant),UE的SPS下行无线资源又称为配置的下行指配(configured downlink assignment)。
如果该DCI中信元release设置为1,则UE释放配置的SPS资源,针对上行,UE释放配置的上行授权,针对下行,UE释放配置的下行指配,该过程称为去激活过程(deactivation)。
实施例1
在本实施例中提供了一种无线资源配置方法,图2是根据本发明实施例的无线资源配置方法流程图,如图2所示,该流程包括如下步骤:
步骤S202,接入网网元按照以下方式为UE配置免调度无线资源:为UE配置对应免调度无线资源的专用RNTI、和/或为共享该免调度无线资源的UE配置该免调度无线资源的公共RNTI。
通过上述方式对每个UE配置免调度资源,解决了相关技术在多个UE共享使用免调度无线资源时,无法针对每一UE进行无线资源配置的问题,进而可以实现每一UE的无线资源的灵活配置的技术效果。
在一实施例中,还可以包括:为UE配置该免调度无线资源的间隔长度、为UE配置使用该免调度无线资源的HARQ进程的个数。
需要说明的是,上述免调度无线资源包括:免调度的上行授权、免调度的下行指配。
在一实施例中,不同UE分别被配置相同或不同的免调度无线资源的间隔长度或HARQ进程的个数。
在一实施例中,接入网网元使用该专用RNTI或该公共RNTI激活或者去激活该UE配置的该免调度无线资源;或者,该接入网网元使用该专用RNTI或该公共RNTI重新配置该的UE配置的该免调度无线资源。
其中,该接入网网元使用该专用RNTI或该公共RNTI激活或者去激活 该UE配置的该免调度无线资源包括:该接入网网元发送第一指定格式的PDCCH的DCI,以指示该UE激活或者去激活该免调度无线资源;该接入网网元使用该专用RNTI或该公共RNTI重新配置该的UE配置的该免调度无线资源包括:该接入网网元发送第二指定格式的PDCCH的DCI,以指示该UE重新配置该免调度无线资源;
需要说明的是,上述DCI使用专用RNTI或公共RNTI进行加扰。
在一实施例中,若该免调度无线资源为免调度的上行授权,则该DCI中携带有该免调度无线资源的上行授权信息,其中,该上行授权信息包括以下信息至少之一:上行授权的频域信息、MCS信息;若该免调度无线资源为免调度的下行指配,则该DCI中携带有该免调度无线资源的下行指配信息,其中,该下行指配信息包括以下信息至少之一:下行指配的频域信息、MCS信息。
在一实施例中,DCI还携带第一时间信息,其中,该第一时间信息用于指示该DCI携带的上行授权在时域上相对于发送该DCI的无线资源的时间间隔;DCI还携带第二时间信息,其中,该第二时间信息用于指示该DCI携带的下行指配在时域相对于发送该DCI的无线资源的时间间隔。
在一实施例中,接入网网元发送第二指定格式的PDCCH的DCI,以指示该UE重新配置该免调度无线资源包括:该UE保持当前配置的上行授权或配置的下行指配的时域资源不变,根据该第二指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案重新配置该配置的上行授权或配置的下行指配;或者,该UE从接收到该第二指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用该第二指定格式的DCI中指示的上行授权或下行指配的频域信息和/或调制编码方案。
在本实施例中还提供了一种无线资源配置方法,图3是根据本发明实 施例的另一无线资源配置方法流程图,如图3所示,该流程包括如下步骤:
步骤S302,UE接收接入网网元发送的配置信息,其中,该配置信息包括:接入网网元为UE配置的对应免调度无线资源的专用RNTI、为共享该免调度无线资源的UE配置该免调度无线资源的公共RNTI至少之一;
步骤S304,UE根据该配置信息使用该免调度无线资源。
通过上述步骤S302~S304,解决了相关技术在多个UE共享使用免调度无线资源时,无法针对每一UE进行无线资源配置的问题,进而可以实现每一UE的无线资源的灵活配置的技术效果。
在一实施例中,上述配置信息还包括:为UE配置的该免调度无线资源的间隔长度、为UE配置的使用该免调度无线资源的HARQ进程的个数。
在一实施例中,在接收到该接入网网元发送的第三指定格式的PDCCH的DCI时,该UE激活或者去激活该免调度无线资源;在接收到该接入网网元发送的第四指定格式的PDCCH的DCI时,该UE重新配置该的免调度无线资源;
需要说明的是,上述DCI使用专用RNTI或公共RNTI进行加扰。
在一实施例中,若该免调度无线资源为免调度的上行授权,则该DCI中携带有该免调度无线资源的上行授权信息,其中,该上行授权信息包括以下信息至少之一:上行授权的频域信息、MCS信息;若该免调度无线资源为免调度的下行指配,则该DCI中携带有该免调度无线资源的下行指配信息,其中,该下行指配信息包括以下信息至少之一:下行指配的频域信息、MCS信息。
在一实施例中,上述DCI还携带第一时间信息,其中,该第一时间信息用于指示该DCI携带的上行授权在时域上相对于发送该DCI的无线资源的时间间隔;上述DCI还携带第二时间信息,其中,该第二时间信息用于指示该DCI携带的下行指配在时域上相对于发送该DCI的无线资源的时间 间隔。
其中,在接收到该接入网网元发送的第四指定格式的PDCCH的DCI时,该UE重新配置该的免调度无线资源包括:UE保持当前配置的上行授权或配置的下行指配的时域资源不变,根据该第四指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案,重新配置该配置的上行授权或配置的下行指配;或者,
UE从接收到该第四指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用该第四指定格式的DCI中指示的上行授权或下行指配的频域信息和/或调制编码方案。
下面结合具体示例,对本实施例进行举例说明。
接入网网元通过如下的方法为UE配置专用或多个UE共享的免调度无线资源:
接入网元为UE配置该免调度无线资源的间隔长度,即为该UE配置免调度无线资源的时域周期长度。接入网元为不同的UE配置相同或不同的间隔长度。图4是本发明实施例提供的无线资源配置示意图,如图4所示的例子中,UE1和UE2共享使用免调度无线资源,UE1和UE2分别被配置了不同的间隔长度值。
接入网网元为UE配置使用该免调度无线资源的HARQ进程的个数,如果该的免调度无线资源包括上行无线资源,则该的HARQ进程个数包括上行HARQ进程个数,如果该的免调度无线资源包括下行无线资源,则该的HARQ进程个数包括下行HARQ进程的个数。
其中,不同UE分别被配置相同或不同的免调度无线资源的间隔长度或HARQ进程的个数。
接入网网元为UE配置的该UE专用的RNTI,用于以下至少之一:
激活该UE使用该免调度无线资源、去激活该UE配置的该免调度无线 资源、重新配置该UE配置的免调度无线资源,为该UE指示使用该免调度无线资源的HARQ进程的重传信息。
接入网网元为共享该免调度无线资源的UE配置的该免调度无线资源的公共RNTI,用于以下至少之一:
激活该多个UE使用该免调度无线资源、去激活该多个UE配置的该免调度无线资源、重新配置该多个UE配置的该免调度无线资源。
配置了上述专用RNTI和免调度无线资源公共RNTI的UE,在监听(keep monitoring)PDCCH信道时,检测上述专用RNTI或公共RNTI加扰的PDCCH信令DCI。
该的免调度无线资源为免调度的上行授权,或免调度的下行指配。
所谓免调度上行授权是指:该的上行授权为半静态配置,UE在使用某一个上行授权时,不需要预先申请而直接使用该上行授权发送上行传输。
所谓免调度的下行指配是指:该的下行指配为半静态配置,UE在某一个免调度的下行指配资源上接收下行传输时,不需要预先接收通过物理公共控制信道发送的下行指配信息。
该的接入网网元使用该的UE专用RNTI或该的公共RNTI,激活该UE配置的该免调度无线资源是指:该接入网网元发送特定格式的PDCCH信令DCI,该的DCI使用该的UE专用RNTI或该的公共RNTI进行加扰,该的DCI指示UE激活该免调度无线资源。
在一实施例中,如果该的无线资源为上行授权,则该的DCI中携带有该免调度无线资源的上行授权信息,包括上行授权的频域信息、和/或调制编码方案信息。
在一实施例中,该的DCI还携带有时间信息,用于指示该DCI携带的上行授权在时域相对于发送该DCI的无线资源的时间间隔。
接收到该DCI的UE,初始化或者重新初始化该UE配置的上行授权。 该配置的上行授权为:从该DCI指示的上行授权开始,按照该间隔长度重复的无线资源,即每隔该间隔长度的相同的频域资源和/或MCS的无线资源。
图,5是本发明实施例提供的无线资源配置示意图,如图5所示的例子,UE首先接收到该的DCI,该的DCI指示了第一个上行授权,则UE配置的上行授权包括该上行授权以及在此之后以该间隔长度为周期重复的上行授权。
在一实施例中,如果该的无线资源其为下行指配,则该的DCI中携带有该免调度无线资源的下行指配信息,包括下行指配的频域信息、和/或调制编码方案信息。
在一实施例中,该的DCI还携带有时间信息(timing),用于指示该的下行指配相对发送该DCI的无线资源的时间间隔。
接收到该的DCI的UE,初始化或重新初始化其配置的下行指配,该配置的下行指配为:从该DCI指示的下行指配开始,按照该间隔长度重复的无线资源,即每隔该间隔长度的相同的频域资源、和/或MCS的无线资源。
该的接入网网元使用该UE专用RNTI或该公共RNTI,去激活该的UE配置的免调度无线资源是指:该接入网网元发送特定格式的PDCCH信令DCI,该的DCI使用该的UE专用RNTI或该的公共RNTI进行加扰,该的DCI指示UE去激活该的免调度无线资源。
该的DCI指示释放配置的免调度无线资源,如果该的配置的免调度无线资源为配置的上行授权,则UE释放该免调度无线资源对应的配置的上行授权。
如果该的配置的免调度无线资源为下行指配,则UE释放该免调度无线资源对应的配置的下行配置。
该的接入网网元使用该UE专用RNTI或该公共RNTI,重新配置该的 UE配置的免调度无线资源是指:该接入网网元发送特定格式的PDCCH信令DCI,该的DCI使用该的UE专用RNTI或该的公共RNTI进行加扰,该的DCI指示UE重新配置该的免调度无线资源。
在一实施例中,如果该的无线资源为上行授权,则该的DCI中携带有该免调度无线资源的上行授权信息,包括上行授权的频域信息、和/或调制编码方案信息。
在一实施例中,该的DCI还携带有时间信息,用于指示该DCI携带的上行授权在时域相对于发送该DCI的无线资源的时间间隔。
接收到该DCI的UE,重新初始化(reinitiate)该UE配置的上行授权,即:保持现有配置的上行授权的时域资源不变,根据上述DCI中指示的频域信息、和/或调制编码方案重新配置该的配置的上行授权。UE从接收到上述DCI之后的第一个现有配置的上行授权的时域资源开始,使用上述DCI中指示的上行授权频域信息和/或调制编码方案。
如果接收到上述DCI信息的UE,没有激活的该免调度无线资源,或没有使用该免调度无线资源的配置的上行授权,则忽略上述DCI信息。
图6是本发明实施例提供的无线资源配置示意图,如图6所示的例子,UE首先接收到该的DCI,该的DCI携带有上行授权信息,UE从下一个现有配置的上行授权开始,使用该DCI指示的授权信息重新配置现有的配置的上行授权,但保持现有配置的上行授权的时域资源不变,只使用该DCI指示的频域信息和/或调制编码方案。
在一实施例中,如果该的无线资源为下行资源,其重配置的实施方法和上述对上行资源的重配置方法类似。
接下来以上述的免调度无线资源通过3GPP技术中的SPS机制进行配置,接入网网元通过为UE配置SPS configuration来配置UE使用免调度的无线资源为例进行说明:
为UE配置SPS间隔(SPS interval),共享使用免调度无线资源的UE可配置相同或不同的SPS间隔。
为共享使用免调度无线资源的UE配置相同或不同的使用SPS资源的HARQ进程的个数。
为每个共享使用免调度无线资源的UE配置UE专用的RNTI,SPS C-RNTI;
以及共享使用相同免调度无线资源的UE配置相同的公共RNTI,Common SPS C-RNTI。
接入网网元可为一个UE配置一个或多个SPS configuration,以使得UE使用多套免调度无线资源,图7是本发明实施例提供的无线资源配置示意图,如图7所示,UE配置了两套SPS configuration,UE使用每套SPS configuration无线资源的配置的上行授权如图7所示。
接入网网元为UE配置每一套SPS configuration的UE专用RNTI,以及SPS configuration特定的公共RNTI。此时,在本发明实施例中该的配置的上行授权为使用配置的某一套SPS configuration的上行无线资源的上行授权,在本发明该的配置的下行配置为使用配置的某一套SPS configuration的下行无线资源的下行指配。
通过本发明实施例提供的上述方法,实现了灵活的为共享使用免调度无线资源的UE分配、激活、去激活以及重新配置该的共享免调度无线资源的功能。
接入网在控制一个UE使用共享免调度无线资源时,可通过UE专用的RNTI加扰的DCI对UE使用无线资源的行为进行控制。
接入网在需要对使用共享免调度无线资源的所有UE进行控制时,可通过该免调度无线资源的公共的RNTI加扰的DCI对这些UE使用该免调度无线资源的行为进行控制,而不需要针对每个UE发送各自专用RNTI加扰的 DCI来进行控制,节省了无线接口的信令开销,提高了无线资源控制的效率。
通过本发明实施例的上述方法,接入网还可以实现对不同的UE配置不同的使用该共享免调度无线资源的间隔,以满足不同UE的服务质量要求。
在此基础上,本发明实施例还提供了重新配置UE使用的共享免调度无线资源的方法,即在通过DCI指示使用共享免调度无线资源的UE重新配置共享无线资源的信息,但不影响使用该共享无线资源的时域信息。通过重配置的方法,对配置了不同的间隔的UE,网络侧只需要发送一次重配置的DCI信息,不需要考虑不同的UE使用该共享的无线资源的时域位置的区别,即可实现对一个或所有相同免调度无线资源的UE实现重配置,而不会影响UE使用该无线资源的时域位置。
通过以上的实施方式的描述,本领域的技术人员可以清楚地了解到根据上述实施例的方法可借助软件加必需的通用硬件平台的方式来实现,当然也可以通过硬件,但很多情况下前者是更佳的实施方式。基于这样的理解,本发明的技术方案本质上或者说对现有技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质(如ROM/RAM、磁碟、光盘)中,包括若干指令用以使得一台终端设备(可以是手机,计算机,服务器,或者网络设备等)执行本发明各个实施例所述的方法。
实施例2
在本实施例中还提供了一种无线资源配置装置,该装置用于实现上述实施例及优选实施方式,已经进行过说明的不再赘述。如以下所使用的,术语“模块”可以实现预定功能的软件和/或硬件的组合。尽管以下实施例所描述的装置较佳地以软件来实现,但是硬件,或者软件和硬件的组合的实现也是可能并被构想的。
图8是根据本发明实施例的无线资源配置装置的结构框图,如图8所示,该装置包括:
配置模块82,配置为按照以下方式为UE配置免调度无线资源:为UE配置专用RNTI、和/或为共享该免调度无线资源的UE配置该免调度无线资源的公共RNTI。
在一实施例中,配置模块82,还配置为为UE配置该免调度无线资源的间隔长度、为UE配置使用该免调度无线资源的HARQ进程的个数。
需要说明的是,上述免调度无线资源包括:免调度的上行授权、免调度的下行指配。
在一实施例中,不同UE分别被配置相同或不同的免调度无线资源的间隔长度或HARQ进程的个数。
在一实施例中,接入网网元使用该专用RNTI或该公共RNTI激活或者去激活该UE配置的该免调度无线资源;或者,该接入网网元使用该专用RNTI或该公共RNTI重新配置该的UE配置的该免调度无线资源。
其中,该接入网网元使用该专用RNTI或该公共RNTI激活或者去激活该UE配置的该免调度无线资源包括:该接入网网元发送第一指定格式的PDCCH的DCI,以指示该UE激活或者去激活该免调度无线资源;该接入网网元使用该专用RNTI或该公共RNTI重新配置该的UE配置的该免调度无线资源包括:该接入网网元发送第二指定格式的PDCCH的DCI,以指示该UE重新配置该免调度无线资源;
需要说明的是,上述DCI使用专用RNTI或公共RNTI进行加扰。
在一实施例中,若该免调度无线资源为免调度的上行授权,则该DCI中携带有该免调度无线资源的上行授权信息,其中,该上行授权信息包括以下信息至少之一:上行授权的频域信息、MCS信息;若该免调度无线资源为免调度的下行指配,则该DCI中携带有该免调度无线资源的下行指配 信息,其中,该下行指配信息包括以下信息至少之一:下行指配的频域信息、MCS信息。
在一实施例中,DCI还携带第一时间信息,其中,该第一时间信息用于指示该DCI携带的上行授权在时域上相对于发送该DCI的无线资源的时间间隔;DCI还携带第二时间信息,其中,该第二时间信息用于指示该DCI携带的下行指配在时域相对于发送该DCI的无线资源的时间间隔。
在一实施例中,接入网网元发送第二指定格式的PDCCH的DCI,以指示该UE重新配置该免调度无线资源包括:该UE保持当前配置的上行授权或配置的下行指配的时域资源不变,根据该第二指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案重新配置该配置的上行授权或配置的下行指配;或者,该UE从接收到该第二指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用该第二指定格式的DCI中指示的上行授权或下行指配的频域信息和/或调制编码方案。
在本实施例中还提供了一种无线资源配置装置,图9是根据本发明实施例的另一无线资源配置装置的结构框图,如图9所示,该装置包括:
接收模块92,配置为接收接入网网元发送的配置信息,其中,该配置信息包括:接入网网元按照以下方式为UE配置免调度无线资源:为UE配置专用RNTI、和/或为共享该免调度无线资源的UE配置该免调度无线资源的公共RNTI;
第一处理模块94,配置为根据该配置信息使用该免调度无线资源。
通过图9所示装置,UE接收接入网网元发送的配置信息,其中,该配置信息包括:接入网网元为UE配置的对应免调度无线资源的专用RNTI、和/或为共享该免调度无线资源的UE配置的该免调度无线资源的公共RNTI;UE根据该配置信息使用该免调度无线资源,解决了相关技术在多 个UE共享使用免调度无线资源时,无法针对每一UE进行无线资源配置的问题,进而可以实现每一UE的无线资源的灵活配置的技术效果。
在一实施例中,上述配置信息还包括:为UE配置的该免调度无线资源的间隔长度、为UE配置的使用该免调度无线资源的HARQ进程的个数。
在一实施例中,图10是根据本发明实施例的另一无线资源配置装置的结构框图,如图10所示,该装置在包括图9所述装置中的接收模块92及第一处理模块94的基础上,还包括:
第二处理模块102,配置为在接收到该接入网网元发送的第三指定格式的PDCCH的DCI时,激活或者去激活该免调度无线资源;
第三处理模块104,配置为在接收到该接入网网元发送的第四指定格式的PDCCH的DCI时,重新配置该的免调度无线资源;其中,该DCI使用专用RNTI或公共RNTI进行加扰。
在一实施例中,若该免调度无线资源为免调度的上行授权,则该DCI中携带有该免调度无线资源的上行授权信息,其中,该上行授权信息包括以下信息至少之一:上行授权的频域信息、MCS信息;若该免调度无线资源为免调度的下行指配,则该DCI中携带有该免调度无线资源的下行指配信息,其中,该下行指配信息包括以下信息至少之一:下行指配的频域信息、MCS信息。
在一实施例中,上述DCI还携带第一时间信息,其中,该第一时间信息用于指示该DCI携带的上行授权在时域上相对于发送该DCI的无线资源的时间间隔;上述DCI还携带第二时间信息,其中,该第二时间信息用于指示该DCI携带的下行指配在时域上相对于发送该DCI的无线资源的时间间隔。
在一实施例中,图11是根据本发明实施例的另一无线资源配置装置的结构框图,如图11所示,第三处理模块104包括:
第一处理单元112,配置为保持当前配置的上行授权或配置的下行指配的时域资源不变,根据该第四指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案,重新配置该配置的上行授权或配置的下行指配;或者,使用第三处理单元等同替换第一处理单元112,其中,第二处理单元,配置为从接收到该第四指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用该第四指定格式的DCI中指示的上行授权或下行指配的频域信息和/或调制编码方案。
需要说明的是,上述各个模块是可以通过软件或硬件来实现的,对于后者,可以通过以下方式实现,但不限于此:上述模块均位于同一处理器中;或者,上述各个模块以任意组合的形式分别位于不同的处理器中。
实施例3
本发明的实施例还提供了一种存储介质。在本实施例中,上述存储介质可以被设置为存储用于执行以下步骤的程序代码:
S1,接入网网元按照以下方式为UE配置免调度无线资源:为UE配置专用RNTI、和/或为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNT。
在一实施例中,存储介质还被设置为存储用于执行以下步骤的程序代码:
S2,UE接收接入网网元发送的配置信息,其中,所述配置信息包括:接入网网元为UE配置的对应免调度无线资源的专用RNTI、和/或为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI;
S3,所述UE根据所述配置信息使用所述免调度无线资源。
在一实施例中,上述存储介质可以包括但不限于:U盘、只读存储器(ROM,Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、移动硬盘、磁碟或者光盘等各种可以存储程序代码的介质。
在一实施例中,处理器根据存储介质中已存储的程序代码执行上述步骤S1。
在一实施例中,处理器根据存储介质中已存储的程序代码执行上述步骤S2、S3。
本实施例中的具体示例可以参考上述实施例及可选实施方式中所描述的示例,本实施例在此不再赘述。
显然,本领域的技术人员应该明白,上述的本发明的各模块或各步骤可以用通用的计算装置来实现,它们可以集中在单个的计算装置上,或者分布在多个计算装置所组成的网络上,它们可以用计算装置可执行的程序代码来实现,从而,可以将它们存储在存储装置中由计算装置来执行,并且在某些情况下,可以以不同于此处的顺序执行所示出或描述的步骤,或者将它们分别制作成各个集成电路模块,或者将它们中的多个模块或步骤制作成单个集成电路模块来实现。这样,本发明不限制于任何特定的硬件和软件结合。
以上所述仅为本发明的优选实施例而已,并不用于限制本发明,对于本领域的技术人员来说,本发明可以有各种更改和变化。凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
本发明实施例中接入网网元按照以下方式至少之一为UE配置免调度无线资源:为UE配置专用RNTI、为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI;如此,实现了多个UE共享使用免调度无线资源时,对每个UE的免调度资源的配置。
Claims (24)
- 一种无线资源配置方法,包括:接入网网元按照以下方式至少之一为用户设备UE配置免调度无线资源:为UE配置专用无线网络临时标识RNTI;为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI。
- 根据权利要求1所述的方法,其中,所述方法还包括:为UE配置所述免调度无线资源的间隔长度、为UE配置使用所述免调度无线资源的混合自动重传请求HARQ进程的个数。
- 根据权利要求1所述的方法,其中,所述免调度无线资源包括:免调度的上行授权、免调度的下行指配。
- 根据权利要求2所述的方法,其中,不同UE分别被配置相同或不同的免调度无线资源的间隔长度或HARQ进程的个数。
- 根据权利要求1所述的方法,其中,所述接入网网元使用所述专用RNTI、所述公共RNTI之一,激活或者去激活所述UE配置的所述免调度无线资源;或者,所述接入网网元使用所述专用RNTI、所述公共RNTI之一,重新配置所述的UE配置的所述免调度无线资源。
- 根据权利要求5所述的方法,其中,所述接入网网元使用所述专用RNTI或所述公共RNTI激活或者去激活所述UE配置的所述免调度无线资源包括:所述接入网网元发送第一指定格式的物理下行控制信道PDCCH的下行控制信息DCI,以指示所述UE激活或者去激活所述免调度无线资源;所述接入网网元使用所述专用RNTI或所述公共RNTI重新配置所述的 UE配置的所述免调度无线资源包括:所述接入网网元发送第二指定格式的PDCCH的DCI,以指示所述UE重新配置所述免调度无线资源;其中,所述DCI使用所述专用RNTI或所述公共RNTI进行加扰。
- 根据权利要求6所述的方法,其中,若所述免调度无线资源为免调度的上行授权,则所述DCI中携带有所述免调度无线资源的上行授权信息,其中,所述上行授权信息包括以下信息至少之一:上行授权的频域信息、调制编码方案MCS信息;若所述免调度无线资源为免调度的下行指配,则所述DCI中携带有所述免调度无线资源的下行指配信息,其中,所述下行指配信息包括以下信息至少之一:下行指配的频域信息、调制编码方案MCS信息。
- 根据权利要求6所述的方法,其中,所述DCI还携带第一时间信息,其中,所述第一时间信息用于指示所述DCI携带的上行授权在时域上相对于发送所述DCI的无线资源的时间间隔;所述DCI还携带第二时间信息,其中,所述第二时间信息用于指示所述DCI携带的下行指配在时域相对于发送所述DCI的无线资源的时间间隔。
- 根据权利要求6所述的方法,其中,所述接入网网元发送第二指定格式的PDCCH的DCI,以指示所述UE重新配置所述免调度无线资源包括:所述UE保持当前配置的上行授权或配置的下行指配的时域资源不变,根据所述第二指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案重新配置所述配置的上行授权或配置的下行指配;或者,所述UE从接收到所述第二指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用所述第二指定格式的DCI中指示的上行授权或下行指配的频域信息和/或调制编码方案。
- 一种无线资源配置方法,包括:用户设备UE接收接入网网元发送的配置信息,其中,所述配置信息包括:接入网网元为UE配置的对应免调度无线资源的专用无线网络临时标识RNTI、为共享所述免调度无线资源的UE配置的所述免调度无线资源的公共RNTI至少之一;所述UE根据所述配置信息使用所述免调度无线资源。
- 根据权利要求10所述的方法,其中,所述配置信息还包括:为UE配置的所述免调度无线资源的间隔长度、为UE配置的使用所述免调度无线资源的混合自动重传请求HARQ进程的个数。
- 根据权利要求10所述的方法,其中,所述方法还包括:在接收到所述接入网网元发送的第三指定格式的物理下行控制信道PDCCH的下行控制信息DCI时,激活或者去激活所述免调度无线资源;在接收到所述接入网网元发送的第四指定格式的PDCCH的DCI时,重新配置所述的免调度无线资源;其中,所述DCI使用所述专用RNTI或所述公共RNTI进行加扰。
- 根据权利要求12所述的方法,其中,若所述免调度无线资源为免调度的上行授权,则所述DCI中携带有所述免调度无线资源的上行授权信息,其中,所述上行授权信息包括以下信息至少之一:上行授权的频域信息、调制编码方案MCS信息;若所述免调度无线资源为免调度的下行指配,则所述DCI中携带有所述免调度无线资源的下行指配信息,其中,所述下行指配信息包括以下信息至少之一:下行指配的频域信息、MCS信息。
- 根据权利要求12所述的方法,其中,所述DCI还携带第一时间信息,其中,所述第一时间信息用于指示所述DCI携带的上行授权在时域上相对于发送所述DCI的无线资源的时间间 隔;所述DCI还携带第二时间信息,其中,所述第二时间信息用于指示所述DCI携带的下行指配在时域上相对于发送所述DCI的无线资源的时间间隔。
- 根据权利要求12所述的方法,其中,在接收到所述接入网网元发送的第四指定格式的PDCCH的DCI时,重新配置所述的免调度无线资源包括:保持当前配置的上行授权或配置的下行指配的时域资源不变,根据所述第四指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案,重新配置所述配置的上行授权或配置的下行指配;或者,从接收到所述第四指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用所述第四指定格式的DCI中指示的上行授权或下行指配的频域信息和/或调制编码方案。
- 一种无线资源配置装置,应用于接入网网元,包括:配置模块,配置为按照以下方式至少之一为用户设备UE配置免调度无线资源:为UE配置专用无线网络临时标识RNTI;为共享所述免调度无线资源的UE配置所述免调度无线资源的公共RNTI。
- 根据权利要求16所述的装置,其中,所述配置模块,还配置为为UE配置所述免调度无线资源的间隔长度;以及,配置为为UE配置使用所述免调度无线资源的混合自动重传请求HARQ进程的个数。
- 一种无线资源配置装置,应用于用户设备UE,包括:接收模块,配置为接收接入网网元发送的配置信息,其中,所述配置 信息包括:接入网网元为UE为UE配置的对应免调度无线资源的专用无线网络临时标识RNTI、为共享所述免调度无线资源的UE配置的所述免调度无线资源的公共RNTI;第一处理模块,配置为根据所述配置信息使用所述免调度无线资源。
- 根据权利要求18所述的装置,其中,所述装置还包括:第二处理模块,配置为在接收到所述接入网网元发送的第三指定格式的物理下行控制信道PDCCH的下行控制信息DCI时,激活或者去激活所述免调度无线资源;第三处理模块,配置为在接收到所述接入网网元发送的第四指定格式的PDCCH的DCI时,重新配置所述的免调度无线资源;其中,所述DCI使用所述专用RNTI或所述公共RNTI进行加扰。
- 根据权利要求19所述的装置,其中,所述第三处理模块包括:第一处理单元,配置为保持当前配置的上行授权或配置的下行指配的时域资源不变,根据所述第四指定格式的PDCCH的DCI中指示的频域信息和/或调制编码方案,重新配置所述配置的上行授权或配置的下行指配;或者,第二处理单元,配置为从接收到所述第四指定格式的PDCCH的DCI之后的第一个当前配置的上行授权或配置的下行指配的时域资源开始,使用所述第四指定格式的DCI中指示的上行授权的频域信息和/或调制编码方案;或者,使用所述第四指定格式的DCI中指示的下行指配的频域信息和/或调制编码方案。
- 一种无线资源配置装置,应用于接入网网元,包括:存储器,配置为保存隧道授权信息处理的程序;处理器,配置为运行所述程序,其中,所述程序运行时执行权利要求1 至9中任一项所述的无线资源配置方法。
- 一种无线资源配置装置,应用于用户设备UE,包括:存储器,配置为保存隧道授权信息处理的程序;处理器,配置为运行所述程序,其中,所述程序运行时执行权利要求10至15中任一项所述的无线资源配置方法。
- 一种存储介质,所述存储介质包括存储的程序,其中,所述程序运行时执行权利要求1至9中任一项所述的无线资源配置方法。
- 一种存储介质,所述存储介质包括存储的程序,其中,所述程序运行时执行权利要求10至15中任一项所述的无线资源配置方法。
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
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Family Cites Families (3)
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Non-Patent Citations (3)
Title |
---|
ETRI: "Further Considerations on Sharing of Semi-persistent Uplink Resources", 3GPP TSG-RAN WG2 MEETING #92, R2-156696, 7 November 2015 (2015-11-07), pages 1 - 3, XP051024896 * |
INTEL CORPORATION.: "Protocol Impact of Fast Uplink Access Solution for Latency Reduction", 3GPP TSG-RAN WG2 MEETING #91, R2-153294, 15 August 2015 (2015-08-15), pages 1 - 3, XP050994066 * |
ZTE: "Consideration on SPS", 3GPPTSG-RAN WG2 MEETING #98, R2-1704698, 5 May 2017 (2017-05-05), pages 1 - 5, XP051263869 * |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN117693040B (zh) * | 2024-02-01 | 2024-04-16 | 深圳市艾雷激光科技有限公司 | 基于无线网络的激光焊接控制系统及控制方法 |
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