CN111093271A - Scheduling-free transmission resource configuration method and device, sending equipment and receiving equipment - Google Patents

Abstract

The application provides a method, a device, a sending device and a receiving device for configuring scheduling-free transmission resources, wherein the method for configuring the scheduling-free transmission resources comprises the following steps: sending configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources; and sending first information, wherein the first information is information for activating or deactivating the multiple sets of scheduling-free transmission resources.

Description

Scheduling-free transmission resource configuration method and device, sending equipment and receiving equipment

Technical Field

The present application relates to wireless communication networks, and in particular, to a method and an apparatus for configuring scheduling-free transmission resources, a sending device, and a receiving device.

Background

In a New Radio (NR) Release-16 protocol, multiple sets of uplink scheduling-free transmission resources are supported to be configured for User Equipment (UE). The main application scenario of the multiple sets of uplink scheduling-free transmission resources is to support different Quality of Service (QoS) Service requirements of the same UE and/or to ensure the delay and reliability of the same Service of the UE.

At present, how to perform joint activation or joint deactivation of scheduling-free transmission resources in a plurality of sets of scheduling-free transmission resource configurations is an urgent technical problem to be solved.

Disclosure of Invention

The application provides a configuration method and device of scheduling-free transmission resources, a sending device and a receiving device, and realizes joint activation or joint deactivation of the scheduling-free transmission resources.

In a first aspect, an embodiment of the present application provides a method for configuring scheduling-free transmission resources, including:

sending configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources;

and sending first information, wherein the first information is information for activating or deactivating the multiple sets of scheduling-free transmission resources.

In a second aspect, an embodiment of the present application provides a method for configuring scheduling-free transmission resources, including:

receiving configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources;

and receiving first information, and processing corresponding scheduling-free transmission resources according to the first information, wherein the first information is information for activating or deactivating the sets of scheduling-free transmission resources.

In a third aspect, an embodiment of the present application provides a device for configuring scheduling-free transmission resources, including:

the system comprises a sending module and a receiving module, wherein the sending module is set to send configuration information of a plurality of sets of scheduling-free transmission resources, the configuration information comprises parameters of the distributed plurality of sets of scheduling-free transmission resources, and the sending module is also set to send first information, and the first information is information for activating or deactivating the plurality of sets of scheduling-free transmission resources.

In a fourth aspect, an embodiment of the present application provides an apparatus for configuring scheduling-free transmission resources, including:

a receiving module, configured to receive configuration information of a plurality of sets of scheduling-free transmission resources, and further configured to receive first information, where the configuration information includes parameters of the plurality of sets of scheduling-free transmission resources that are allocated, and the first information is information that activates or deactivates the plurality of sets of scheduling-free transmission resources;

and the processor is configured to process the corresponding scheduling-free transmission resource according to the first information.

In a fifth aspect, an embodiment of the present application provides a sending device, including:

one or more processors;

storage means for storing one or more programs;

when executed by the one or more processors, cause the one or more processors to implement the method for configuring scheduling-free transmission resources as described in the first aspect.

In a sixth aspect, an embodiment of the present application provides a receiving apparatus, including:

one or more processors;

storage means for storing one or more programs;

when executed by the one or more processors, cause the one or more processors to implement the method for configuring scheduling-free transmission resources according to the second aspect.

In a seventh aspect, the present application provides a storage medium, where the storage medium stores a computer program, and the computer program, when executed by a processor, implements any one of the methods in the present application.

With regard to the above embodiments and other aspects of the present application and implementations thereof, further description is provided in the accompanying drawings description, detailed description and claims.

Drawings

Fig. 1 is a schematic flowchart illustrating a method for allocating scheduling-free transmission resources according to the present application;

fig. 2 is a flowchart illustrating another method for configuring scheduling-free transmission resources according to the present application;

fig. 3 is a schematic structural diagram of an apparatus for configuring scheduling-free transmission resources according to the present application;

fig. 4 is a schematic structural diagram of a transmitting device provided in the present application;

fig. 5 is a schematic structural diagram of a receiving device provided in the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more apparent, embodiments of the present application will be described in detail below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

The technical terms included in the present application include, but are not limited to: configuration Grant (CG), Carrier Aggregation (CA), Radio Resource Control (RRC), Downlink Control Information (DCI), User Equipment (User Equipment, UE), Physical Uplink Shared Channel (PUSCH), Physical Downlink Shared Channel (PDSCH), Medium Access Control unit (Medium Access Control element, MAC CE), Radio Network Temporary identifier (Radio Network Temporary Identity, Hybrid Automatic reQuest (Hybrid Automatic Repeat reQuest, HARQ), Hybrid Automatic Repeat Number (HARQ), Time Domain retransmission Number (rqprocess, HPN), Redundancy version (Redundancy, RV), modulation and Coding (ra), Resource Allocation of Resource Allocation (ra) and Frequency Domain Allocation (MCS), TPC), Configured Scheduling (CS).

In the current R-15 (i.e., Release-15) protocol, two types of uplink scheduling-free transmission resource configurations are supported, one is that a base station, such as a gbb, configures all parameters of uplink scheduling-free transmission resources through RRC signaling, and the RRC signaling immediately activates the uplink scheduling-free transmission resource configuration (Type 1); the other is that the gNB configures part of parameters of uplink scheduling-free transmission resources through RRC signaling, and DCI scrambled by a configuration scheduling (also called scheduling-free) RNTI (namely CS-RNTI) indicates the rest part of parameters and activates the scheduling-free transmission resources (Type 2).

In the R-16 uplink scheduling-free transmission, multiple sets of uplink scheduling-free transmission resources are configured for the UE, and the multiple sets of uplink scheduling-free transmission resources are mainly applied to supporting different QoS service requirements of the same UE and (or) ensuring the time delay and reliability of the same service of the UE.

For multiple sets of uplink scheduling-free transmission resources of Type2, the size of an indication field for indicating which specific resources are deactivated in a DCI signaling is independently or jointly deactivated and jointly deactivated in a DCI signaling is limited. The uplink scheduling-free transmission resource independently deactivates multiple sets of scheduling-free transmission resources, that is, each set of uplink scheduling-free transmission resources configured and activated by the gNB needs one corresponding DCI to deactivate the resource, and the joint deactivation of the uplink scheduling-free transmission resources is that one DCI can simultaneously deactivate multiple sets of uplink scheduling-free transmission resources configured and activated by the gNB.

In the configuration of multiple sets of uplink scheduling-free transmission resources, how to jointly deactivate or jointly activate the multiple sets of uplink scheduling-free transmission resources through DCI signaling needs a certain method. When the DCI signaling in the sets of uplink scheduling-free transmission resources is independently deactivated jointly, the meaning of the specific deactivated resource configuration indication fields in the DCI is different, for example, the indication fields in the independently deactivated DCI indicate indexes (i.e., indexes) of a set of resource configurations, the indication fields in the jointly deactivated DCI indicate indexes of a group of resource configurations, and when the UE receives one deactivated DCI signaling, the UE does not know whether the DCI is a DCI with a plurality of sets of uplink scheduling-free transmission resources deactivated independently or a DCI with a plurality of sets of uplink scheduling-free transmission resources deactivated jointly, which may cause the UE to misunderstand the indication information of the gNB deactivated resources and how to distinguish the DCI with the plurality of sets of uplink scheduling-free transmission resources deactivated independently or the DCI with the joint deactivation; or how to distinguish between sets of DCI with independently activated uplink non-scheduled transmission resources or DCI with jointly activated.

In addition, in the R-15 protocol, the DCI0-0/0-1 is supported to be used for activating the uplink scheduling-free transmission resource configuration, the DCI0-0 is used for deactivating the uplink scheduling-free transmission resource configuration, and no carrier indication domain exists in the DCI0-0, so that the uplink scheduling-free transmission resource on the scheduled carrier cannot be deactivated by adopting the DCI0-0 in a cross-carrier scheduling mode. Similarly, in the R-15 protocol, the DCI1-0/1-1 is supported to be used for activating the downlink scheduling-free transmission resource configuration, the DCI1-0 is used for deactivating the downlink scheduling-free transmission resource configuration, and no carrier indication domain exists in the DCI1-0, so that the downlink scheduling-free transmission resources on the scheduled carrier cannot be deactivated by adopting the DCI1-0 through a cross-carrier scheduling mode. In a carrier aggregation scenario, how to deactivate or activate uplink scheduling-free transmission resources on a carrier activated in a cross-carrier scheduling manner on a carrier configured with scheduling-free PUSCH transmission resources or a carrier configured with scheduling-free PDSCH transmission resources is also a problem that needs to be studied. The DCI0-1 and the DCI1-1 can be understood as the first type of format DCI. DCI0-0 and DCI1-0 may be understood as DCI of the second type of format.

In an exemplary embodiment, fig. 1 is a flowchart illustrating a method for configuring a scheduling-free transmission resource according to the present application. The method realizes the joint activation or joint deactivation of a plurality of sets of scheduling-free transmission resources. The method relates to a method for activating or deactivating multiple sets of scheduling-free transmission resources in uplink or downlink transmission in NR. The technical problem to be solved by the method comprises the problem of activation/deactivation of multiple sets of resource configuration in uplink or downlink scheduling-free transmission.

Specifically, as shown in fig. 1, the present application provides a method for configuring scheduling-free transmission resources, which may be applicable to a case of jointly activating or deactivating the scheduling-free transmission resources. The method can be executed by the configuration device of the scheduling-free transmission resource provided by the application, and the configuration device of the scheduling-free transmission resource can be realized by software and/or hardware and is integrated on the sending equipment. The scheduling-free transmission resources comprise uplink scheduling-free transmission resources and downlink scheduling-free transmission resources. The downlink non-scheduled transmission resource may be referred to as a semi-persistent scheduling transmission resource. The transmitting device includes, but is not limited to, a base station. The method includes S110 and S120.

S110, sending configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources.

In the case of implementing the configuration of the scheduling-free transmission resource, the sending device may send configuration information of the scheduling-free transmission resource to a receiving device, such as a user equipment, where the configuration information includes configuration information of parameters of multiple sets of scheduling-free transmission resources allocated to the user equipment.

The receiving device receives the configuration information to realize the configuration of a plurality of sets of scheduling-free transmission resources indicated by the configuration information.

And S120, sending first information, wherein the first information is information for activating or deactivating the multiple sets of scheduling-free transmission resources.

When the sending device sends the configuration information to the user equipment, the sending device may send first information, that is, activation information, for activating the sets of transmission resources to the user equipment, so as to activate the scheduling-free transmission resources that need to be activated. The activation information may include at least an indication field indicating the scheduling-free transmission resource that needs to be activated, where the indication field may indicate the scheduling-free transmission resource that needs to be activated, so that the user equipment may activate the scheduling-free transmission resource using the activation information. That is, the first information may activate the scheduling-free transmission resource that needs to be activated among the plurality of sets of scheduling-free transmission resources, and the scheduling-free transmission resource that needs to be activated may be indicated by the first information.

The sending device may send, to the user equipment, first information for deactivating the plurality of sets of scheduling-free transmission resources, that is, deactivation information, so as to deactivate the scheduling-free transmission resources that need to be deactivated. The deactivation information may at least include an indication field indicating deactivation of the scheduling-free transmission resource, where the indication field may indicate the scheduling-free transmission resource that needs to be deactivated, so that the user equipment correspondingly deactivates the scheduling-free transmission resource by using the deactivation information. That is, the first information may deactivate the scheduling-free transmission resource that needs to be deactivated among the plurality of sets of scheduling-free transmission resources, and the scheduling-free transmission resource that needs to be deactivated may be indicated by the first information.

In one embodiment, a sending device, such as a base station, configures scheduling-free transmission resources through RRC signaling, and then sends an activation DCI signaling (i.e., first information for activating multiple sets of scheduling-free transmission resources) to activate the configured scheduling-free transmission resources, and for deactivating the activated scheduling-free transmission resources, it needs to send a deactivation DCI (i.e., first information for deactivating the multiple sets of scheduling-free transmission resources) to deactivate the same.

It should be noted that, before the sending device sends the first information for deactivating the sets of scheduling-free transmission resources to the user equipment, the sending device may send activation information to the user equipment, so that the user equipment activates the scheduling-free transmission resources by using the activation information. That is, before the sending device sends the deactivation information, it needs to send the activation information to realize the deactivation of the activated scheduling-free transmission resource.

In one embodiment, in a case that the first information is set as a scheduling-free transmission resource indicating deactivation of the plurality of sets of scheduling-free transmission resources, the method further includes:

and sending activation information, wherein the activation information is set as information for activating the plurality of sets of scheduling-free transmission resources.

The method for configuring scheduling-free transmission resources comprises the steps of firstly sending configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources; and then sending first information, wherein the first information is information for activating or deactivating the multiple sets of scheduling-free transmission resources. The method effectively solves the technical problem that a receiving end cannot distinguish whether the information of the activated scheduling-free transmission resources is independently activated or jointly activated or cannot distinguish whether the information of the deactivated scheduling-free transmission resources is independently deactivated or jointly deactivated in the configuration of a plurality of sets of scheduling-free transmission resources, namely, the fuzzy problem of the activation/deactivation of the conventional scheduling-free transmission sets of resource configuration can be overcome, so that the base station and the UE can understand consistently, and the UE can avoid misunderstanding the configuration of the base station. The method and the device effectively realize the activation or the deactivation of the scheduling-free transmission resources.

On the basis of the above-described embodiment, a modified embodiment of the above-described embodiment is proposed, and it is to be noted herein that, in order to make the description brief, only the differences from the above-described embodiment are described in the modified embodiment.

The application provides a method for corresponding relation between multiple sets of scheduling-free transmission resources and bit fields in DCI when the multiple sets of scheduling-free transmission resources are jointly deactivated or activated. That is, how to indicate the corresponding relationship between the non-scheduling transmission resources and the bitmap domain to the UE in the method of giving a plurality of sets of non-scheduling transmission resources by joint activation/deactivation of DCI using a bitmap (i.e., bitmap). Specifically, the number of resource allocation sets with the maximum uplink non-scheduling transmission is 12 sets, the first information, if a bit field used for activation or deactivation in DCI cannot exceed 4 bits, a problem may occur in DCI in which a bitmap manner is used to simultaneously activate or deactivate multiple sets of resources, and which sets of resources in 12 sets of resources correspond to 4 bits of resources in DCI are uncertain (for example, a direct method is that when a base station sends an activated or deactivated DCI to a user, if the corresponding DCI uses the bitmap manner to jointly activate or deactivate non-scheduling transmission resources, the base station may send an additional signaling by an RRC or an MAC CE to indicate which sets of non-scheduling transmission resources correspond to a bitmap indication field in the corresponding activated or deactivated DCI, so that an additional indication signaling needs to be sent for each activated or deactivated DCI), and it is necessary to indicate to the UE a corresponding relationship between the 4 bits of bit field in DCI and the multiple sets of uplink non-scheduling transmission resources.

In one embodiment, the configuration information further includes at least one of: the resource grouping information of the plurality of sets of scheduling-free transmission resources, the corresponding relation between the plurality of sets of scheduling-free transmission resources and different wireless network temporary identifications, information indicating that the first information is jointly deactivated or independently deactivated, information indicating that the first information is jointly activated or independently activated, the corresponding relation between different wireless network temporary identifications and the independently deactivated information and the jointly deactivated information, the corresponding relation between different wireless network temporary identifications and the independently activated information and the jointly activated information, and carrier grouping information or the combined grouping information of the carrier and the scheduling-free transmission resources.

In one embodiment, the method further comprises: and sending second information which is set as resource grouping information indicating the plurality of sets of scheduling-free transmission resources.

The resource grouping information may be information after scheduling-free transmission resource grouping configured by the sending device to the receiving device. The resource grouping information may indicate grouping of sets of scheduling free transmission resources. In addition, the sending device may configure the bitmap corresponding relationship between the scheduling-free transmission resource and the DCI through an additional signaling, for example, the second information, where 1bit in the bitmap indicates a set of resources or a group of resources, that is, resource grouping information indicating multiple sets of scheduling-free transmission resources, and the group number in the resource grouping information may be indicated by the DCI, that is, a bit field indicating that the scheduling-free transmission resource is activated or deactivated in the information for activating or deactivating the multiple sets of scheduling-free transmission resources.

In one example, multiple sets of scheduling-free transmission resources configured by the base station are grouped (grouping information may be configured by RRC or MAC CE signaling), each set includes one or more sets of scheduling-free transmission resources, where 4 bits of the DCI correspond to the sets of scheduling-free transmission resources, and each bit resource deactivates the scheduling-free transmission resources in the set, i.e., each bit resource deactivates the scheduling-free transmission resources in the corresponding set. For example, table 1 is a resource grouping indication table, the configured grouping information is as shown in table 1, the resource grouping information may include a corresponding relationship between a group number and a scheduling-free transmission resource number, and a bit field for activating or deactivating the scheduling-free transmission resource in DCI indicates the group number.

Table 1 resource grouping indication table

Group number	Scheduling free transmission resource sequence number
		0	0
1	1，2，3，4
		2	5，6，7，8，11
3	9，10

Four groups of resources in a 4-bit field bitmap table in DCI, wherein 4 bits respectively indicate a plurality of groups of scheduling-free transmission resources in group numbers 0, 1, 2 and 3 from high bit to low bit (or from low bit to high bit). The 4-bit indication state 0011 indicates that the scheduling-free transmission resources with group numbers 2 and 3 are deactivated, that is, the scheduling-free transmission resources with sequence numbers 5, 6, 7, 8, 11, 9, and 10 are deactivated. Each bit in the DCI corresponds to a group number, a corresponding group of scheduling-free transmission resources, and simultaneously activates or deactivates the corresponding group of scheduling-free transmission resources.

Furthermore, the principle of grouping sets of scheduling-free transmission resources by the transmitting device into a set may include one of: multiple sets of resources allocated to the same service can be grouped into one group; resources with the same cycle size can be divided into a group; resources of similar traffic types may be grouped together. Wherein the similarity may include at least one of: the data packets have the same size, the same time delay and the same reliability.

In one embodiment, the method further comprises: and sending third information, wherein the third information is set to indicate the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications.

The third information can configure the corresponding relation between different configuration scheduling network temporary identities CS-RNTI and a plurality of sets of scheduling-free transmission resources. And indicating the resources corresponding to the CS-RNTI by the bit field in the corresponding CS-RNTI scrambled DCI.

In an example, a base station configures different corresponding relations between CS-RNTI and multiple sets of scheduling-free transmission resources through signaling (such as RRC signaling), and when a UE receives DCI which is scrambled by the CS-RNTI and is deactivated, a bit field bitmap in the DCI corresponds to the multiple sets of scheduling-free transmission resources corresponding to the CS-RNTI. For example, the gNB configures the correspondence between different CS-RNTIs and corresponding sets of scheduling-free transmission resources. Table 2 is a table of correspondence between scheduling-free transmission resources and CS-RNTI.

TABLE 2 scheduling-free transmission resource and CS-RNTI corresponding relation table

As shown in table 2, when the UE receives the deactivated DCI scrambled by CS-RNTI1, the bit field in the DCI indicates the scheduling-free transmission resource with resource numbers 0, 1, 2, and 3, and 0111 indicates that the scheduling-free transmission resource with resource numbers 1, 2, and 3 is deactivated. Similarly, when the UE receives the active DCI scrambled by CS-RNTI1, the bit field in the DCI indicates the non-scheduling transmission resource with resource number 0, 1, 2, 3, and 0111 indicates that the non-scheduling transmission resource with resource number 1, 2, 3 is activated.

In one embodiment, the method further comprises: and sending fourth information, wherein the fourth information is set as information for indicating that the first information is joint deactivation or independent deactivation, or the fourth information is set as information for indicating that the first information is joint activation or independent activation.

In one embodiment, the method further comprises: and sending fifth information, wherein the fifth information is set to indicate the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information, or the fifth information is set to indicate the corresponding relation between different wireless network temporary identifications and the independent activation information and the joint activation information.

In one embodiment, the method further comprises: determining the state of a first preset domain in the first information, wherein the first preset domain comprises at least one of the following indication domains: a hybrid automatic repeat request process number indication domain, a redundancy version indication domain, a modulation and coding strategy indication domain and a frequency domain resource allocation indication domain, wherein the state of the first preset domain is set to indicate that the first information is joint deactivation information or independent deactivation information; or the state of the first preset domain is set to indicate that the first information is joint activation or independent activation information.

In an embodiment, determining the state of the indication domain included in the first preset domain in the first information includes:

determining the reserved state of the indication domain containing the reserved domain as the state of the corresponding indication domain; or, determining the state of the corresponding indication domain according to the occurrence probability of the state of the indication domain included in the first preset domain in the first information.

In an embodiment, in a case that the first predetermined field includes a modulation and coding strategy indication field, a modulation and coding strategy indication field state in the first predetermined field includes at least one of: 11111. 11110, 11101, and 11100.

In an embodiment, in a case that the first preset domain includes a frequency domain resource allocation indication domain, the frequency domain resource allocation indication domain state in the first preset domain includes at least one of: all set 1 or all set 0. I.e. the bit field is either all set to "1" or all set to "0" in the indicator field.

The method comprises the steps that multiple sets of scheduling-free transmission resources are supported and configured in R-16 scheduling-free transmission for different QoS service requirements of the same UE or different QoS requirements of the same UE, and the time delay and reliability of the same service are guaranteed, when the multiple sets of scheduling-free transmission resources are activated or deactivated, each set of scheduling-free transmission resources are independently deactivated by DCI and jointly deactivated by DCI, and when the scheduling-free transmission resources are independently deactivated by the DCI and jointly deactivated by the DCI, one set or multiple sets of deactivated resources are indicated in the DCI to have different meanings, so that the problem of distinguishing the DCI from the multiple sets of scheduling-free transmission resources in joint deactivation and independent deactivation is solved, and the DCI can be distinguished from the independent deactivation or joint deactivation by a clear indication or implicit indication mode. Similarly, for the multiple scheduling-free transmission resource configuration joint activation and independent activation DCI differentiation problems, it can also be differentiated whether DCI is independently activated or jointly activated by means of explicit indication or implicit indication.

In an example, joint deactivation DCI and independent deactivation DCI are explicitly indicated by RRC, MAC CE, or DCI signaling, i.e., the fourth information is transmitted. The DCI may be information for deactivating the sets of scheduling-free transmission resources.

The base station informs the UE of whether the DCI is the joint deactivation DCI or the independent deactivation DCI through RRC, MAC CE or DCI signaling, and indicates which type of DCI the DCI is to the UE through a 1-bit indication domain, for example, 0 indicates that the DCI is a multi-set scheduling-free transmission resource joint deactivation DCI, and 1 indicates that the DCI is a multi-set scheduling-free transmission resource independent deactivation DCI. The distinction in activation DCI is that the independent activation DCI and the joint activation DCI approach is similar to the deactivation DCI.

In an example, the two types of DCI are distinguished by different CS-RNTIs, i.e., the fifth information is transmitted.

The scheduling network temporary identities (CS-RNTIs) are distinguished according to different configurations, for example, DCI scrambled by CS-RNTI1 represents DCI with multiple sets of scheduling-free transmission resources deactivated independently, and DCI scrambled by CS-RNTI2 represents DCI with multiple sets of scheduling-free transmission resources deactivated jointly.

In an example, two types of DCI are implicitly distinguished, and different DCIs are implicitly distinguished through different states by resetting some fields in the DCI to some special states, that is, determining the state of the first preset field in the first information implicitly distinguishes whether the DCI is a joint deactivation DCI or an independent deactivation DCI.

Under the condition that the deactivated DCI is independently deactivated or jointly deactivated DCI is determined by means of implicit indication, certain domains in the DCI can be multiplexed, certain bit domains in the DCI are set to be in special states, and different special states of the domains are used for implicitly indicating whether the DCI is the multi-set scheduling-free transmission resource joint deactivation DCI or the multi-set scheduling-free transmission resource independent deactivation DCI.

Illustratively, the special setting state of the reuse current standard for deactivating the HPN, RV, MCS, and FDRA fields indicates a type of DCI deactivation (where the HPN, RV field is set to 0, the MCS field is set to 1, and the FDRA field is also set to 1), and accordingly, one or more of these fields are set to other special states, which indicate another type of DCI deactivation.

For example, some field-set special states in DCI indicate that sets of scheduling-free transmission resources deactivate DCI types. Table 3 is a table of correspondence between the specific status of the field setting in the DCI and the DCI type. Table 4 is another correspondence table between the domain set special state in the DCI and the DCI type. Table 5 is another corresponding relationship table between the special status of the field setting in the DCI and the DCI type. Table 6 is another correspondence table between the field setting special status in the DCI and the DCI type. Table 7 is another corresponding relationship table between the special status of the field setting in the DCI and the DCI type. Table 8 is another correspondence table between the field setting special status in the DCI and the DCI type.

TABLE 3A corresponding relationship table between the special status of the domain setting in the DCI and the DCI type

Independently deactivating DCI	Joint deactivation DCI
		HPN: all set to 0 "	HPN: all set to 0 "
RV: all set to 0 "	RV: all set to 0 "
		MCS: all-arranged '1'	MCS: all-arranged '1'
FDRA: all-arranged '1'	FDRA: all set to 0 "

TABLE 4 another corresponding relationship table between the special status of the field setting in the DCI and the DCI type

Independently deactivating DCI	Joint deactivation DCI
		HPN: all set to 0 "	HPN: all set to 0 "
RV: all set to 0 "	RV: all set to 0 "
		MCS: all-arranged '1'	MCS: 11110. 11101 or 11100
FDRA: all-arranged '1'	FDRA: all-arranged '1'

TABLE 5 still another corresponding relationship table between the special status of the field setting in the DCI and the DCI type

Independently deactivating DCI	Joint deactivation DCI
		HPN: all set to 0 "	HPN: all set to 0 "
RV: all set to 0 "	RV: all set to 0 "
		MCS: all-arranged '1'	MCS: 11110. 11101 or 11100
FDRA: all-arranged '1'	FDRA: all set to 0 "

TABLE 6 still another corresponding relationship table between domain setting special status and DCI type in DCI

Independently deactivating DCI	Joint deactivation DCI
		HPN: all set to 0 "	HPN: all-arranged '1'
RV: all set to 0 "	RV: all-arranged '1'
		MCS: all-arranged '1'	MCS: all-arranged '1'
FDRA: all-arranged '1'	FDRA: all-arranged '1'

TABLE 7 still another corresponding relationship table between the special status of the field setting in the DCI and the DCI type

Independently deactivating DCI	Joint deactivation DCI
		HPN: all set to 0 "	HPN: all set to 0 "
RV: all set to 0 "	RV: all set to 0 "
		MCS: all-arranged '1'	MCS: 11110. 11101 or 11100
FDRA: all set to 0 "	FDRA: all-arranged '1'

TABLE 8 still another corresponding relationship table between the special status of the field setting in the DCI and the DCI type

Independently deactivating DCI	Joint deactivation DCI
		HPN: all set to 0 "	HPN: all-arranged '1'
RV: all set to 0 "	RV: all-arranged '1'
		MCS: all-arranged '1'	MCS: 11110. 11101 or 11100
FDRA: all-arranged '1'	FDRA: all set to 0 "

As shown in tables 3-8, the independently deactivated DCI and the jointly deactivated DCI may be distinguished by the states of the HPN, RV, MCS, FDRA domains. It should be noted that the correspondence shown in tables 3 to 8 is only an exemplary description, and does not constitute a limitation on the correspondence between the domain setting special state in the DCI and the DCI type. The skilled person can set the conditions according to the actual situation. For example, in tables 3-8, the independent deactivation DCI in the first row and the first column and the combined deactivation DCI in the first row and the second column are interchanged, e.g., HPN and RV are all set to "0", and MCS and FDRA are all set to "1" to indicate combined deactivation DCI.

It should be noted that the first preset field includes at least one of the following indication fields: the hybrid automatic repeat request process number indication field, the redundancy version indication field, the modulation and coding strategy indication field and the frequency domain resource allocation indication field can also be any field in the first information such as DCI, and the first information can be distinguished by multiplexing the fields.

In an example, whether the deactivation information is independent deactivation signaling or joint deactivation information is implicitly distinguished according to the deactivation information, namely a special setting state of a bit field in first information of a scheduling-free transmission resource indicating a plurality of sets of scheduling-free transmission resources to be deactivated, wherein the bit field at least comprises one of the following bit fields, HPN, RV, FDRA and MCS. The special set state principles for these bit fields include: determining the reserved domain state of the indication domain in the first preset domain in the first information as the state of the indication domain in the first preset domain, if the 28-31 state in the MCS indication domain is the reserved domain state of the MCS, taking the reserved domain state as the state of the MCS; or determining the state of the corresponding indication domain according to the occurrence probability of the state of the indication domain included in the first preset domain in the first information, for example, selecting the state with low occurrence probability from the states of the indication domain as the state of the indication domain.

In one example, two types of DCI are implicitly distinguished, different DCIs are implicitly distinguished through different states by resetting some fields in the DCI to some special states, that is, the state of the first preset field in the first information is determined to implicitly distinguish whether the DCI is a joint activation DCI or an independent activation DCI.

Under the condition that whether the activated DCI is independently activated or jointly activated is determined by an implicit indication mode, certain domains in the DCI can be multiplexed, certain bit domains in the DCI are set to be in special states, and different special states of the domains are used for implicitly indicating whether the DCI is multi-set scheduling-free transmission resource joint activation DCI or multi-set scheduling-free transmission resource independent activation DCI. E.g., multiplexing HPN, RV field, implicitly indicating different active DCI types for different states of the field.

For example, some fields in the DCI set a special state to indicate the type of the multiple sets of scheduling-free transmission resource activation DCI. Table 9 is a table of correspondence between the specific status of the field setting in the DCI and the DCI type.

TABLE 9A table of correspondence between specific states of field bits in DCI and DCI types

Independently activating DCI	Joint activation DCI
		HPN: all set to 0 "	HPN: all-arranged '1'
RV: all set to 0 "	RV: all-arranged '1'

The correspondence shown in table 9 is only an exemplary description, and does not constitute a limitation on the correspondence between the domain set special state in the DCI and the DCI type. The skilled person can set the conditions according to the actual situation. For example, in table 9, the independent activation DCI in the first row and the first column and the joint activation DCI in the first row and the second column are interchanged, e.g., HPN and RV are all set to 0, to indicate the joint activation DCI. The setting of the HPN, RV fields in table 9 is only exemplary, and the special set state rules of these bit fields include: determining the reserved state of the indication domain containing the reserved domain as the state of the corresponding indication domain; or, determining the state of the corresponding indication domain according to the occurrence probability of the state of the indication domain included in the first preset domain in the first information.

In one embodiment, the method further comprises: and sending sixth information which is set as indication carrier grouping information.

Relates to a carrier indication method for joint deactivation/activation of multiple sets of resources in a carrier aggregation scene. In the R-15 protocol, DCI0-0/0-1 is supported to be used for activating the scheduling-free PUSCH transmission resource configuration, DCI0-0 is used for deactivating the scheduling-free PUSCH resource configuration, and no carrier indication field exists in DCI0-0, so that in R-15, the scheduling-free PUSCH transmission resource on the scheduled carrier cannot be deactivated by using DCI0-0 in a cross-carrier scheduling mode. Aiming at the problem of how to use DCI0-0 for cross-carrier scheduling to deactivate scheduling-free transmission resource carrier indication in a CA scene, a direct way is to introduce DCI0-1 for deactivating scheduling-free transmission resources, and correspondingly, bit domain special state bits in the DCI0-1 can multiplex the special state bits of the bit domains in the DCI 0-0. Further, since no additional information needs to be indicated when the scheduling-free transmission resource is deactivated, in order to save DCI signaling overhead, it is a preferable way to use DCI0-0 for deactivating multiple sets of resources, and in a carrier aggregation scenario, on a carrier configured by the scheduling-free PUSCH or PDSCH transmission resource activated in a cross-carrier scheduling manner, a carrier for deactivating the scheduling-free transmission resource needs to be indicated to the UE.

In an example, in order to support a carrier aggregation scenario, scheduling-free transmission resources on a scheduled carrier are deactivated by a cross-carrier scheduling method, DCI0-1 is introduced for deactivating the scheduling-free transmission resources on the scheduled carrier, and accordingly, in order to distinguish whether DCI0-1 deactivates DCI or activates DCI, some domains in DCI0-1 need to be set to special states, and the setting state may multiplex the setting state of DCI 0-0.

Further, to support that the DCI can deactivate scheduling-free transmission resources on multiple carriers simultaneously, a carrier indication field or a carrier indication field + other fields (which may be any other unused field in the first information) in the DCI0-1 may be reinterpreted, the gNB (e.g. rrc signaling) configures a deactivated carrier table, that is, carrier grouping information, the carrier indication field in the DCI0-1 indicates a sequence number of the configured table, and if there are multiple carriers in corresponding sequence numbers of the table, the DCI correspondingly deactivates scheduling-free transmission resources on the multiple carriers. For example, table 10 is a deactivated carrier table, and the deactivated carrier table configured by the gNB is shown in table 10:

table 10 deactivated carrier table

Serial number	Carrier sequence number
		0	0
1	1，2，3，4
		2	2，3
3	5，6，7，8
		4	4
5	5
		6	6
7	0，1，2，3，4，5，6，7

The carrier indicator state 111 in DCI0-1 indicates that the deactivated carrier is the 7 th state, and the scheduling-free transmission resources indicated by the DCI with carrier numbers 0, 1, 2, 3, 4, 5, 6, 7 are all deactivated.

In an example, the carrier serial number and the deactivated multiple sets of resources are jointly encoded, and the base station configures a corresponding relation table of the multiple sets of resources and the carrier serial number, that is, joint grouping information of the carrier and the scheduling-free transmission resource.

And (3) not introducing DCI0-1, and using DCI0-0 to deactivate scheduling-free transmission resources on the carrier wave in a cross-carrier scheduling mode. The carrier information and scheduling-free transmission resources are jointly coded, the gNB configures a table of the carrier information and scheduling-free transmission resources joint coding, each row in the table comprises deactivated scheduling-free transmission resources and corresponding carrier serial numbers, the DCI indicates the corresponding serial numbers of the table, and the deactivated serial numbers indicate the scheduling-free transmission resources on the corresponding carriers.

In one example, RRC signaling or MAC CE signaling configures a table by multiplexing an unused field in DCI to indicate a group number in a carrier number correspondence table, where each row in the table corresponds to one or more carriers, i.e., carrier grouping information. And (3) not introducing DCI0-1, and using DCI0-0 to deactivate scheduling-free transmission resources on the carrier wave in a cross-carrier scheduling mode. Since there is no carrier indication field in DCI0-0, one possible way is to multiplex unused bit fields in DCI0-0 for use as indication carriers. Further, in order to indicate a more flexible carrier indication, and support that scheduling-free transmission resources on multiple carriers can be simultaneously deactivated in one DCI, the gNB may configure one table through (e.g. RRC or MAC CE) signaling, where each table includes indicated carrier information, and unused domains (time domain resource allocation FDRA, TPC, and the like) in the multiplexed DCI0-0 are used to indicate corresponding carrier information in the RRC configuration table, similar to table 10.

In an exemplary embodiment, the present application further provides a method for configuring scheduling-free transmission resources, and fig. 2 is a flowchart illustrating another method for configuring scheduling-free transmission resources provided by the present application. The method may be applicable to the case of activation or deactivation of multiple sets of scheduling-free transmission resources. The method can be performed by the configuration apparatus of scheduling-free transmission resources provided in the present application, and the configuration apparatus of scheduling-free transmission resources can be implemented by software and/or hardware and integrated on a receiving device, such as a user equipment. As shown in fig. 2, the method includes: s210 and S220.

S210, receiving configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources.

S220, receiving first information, and processing corresponding scheduling-free transmission resources according to the first information, wherein the first information is information for activating or deactivating the sets of scheduling-free transmission resources.

And under the condition that the first information is information for activating a plurality of sets of scheduling-free transmission resources, the receiving equipment activates the scheduling-free transmission resources based on the first information, namely activates the corresponding scheduling-free transmission resources. The scheduling-free transmission resource to be activated may be indicated by the first information. Specifically, the first information is analyzed to determine the scheduling-free transmission resource which needs to be activated and is indicated, so that the scheduling-free transmission resource is activated.

And when the first information is the information for deactivating the plurality of sets of scheduling-free transmission resources, the receiving device correspondingly deactivates the scheduling-free transmission resources based on the first information, namely deactivates the corresponding scheduling-free transmission resources. Wherein the deactivated scheduling-free transmission resource is a scheduling-free transmission resource that has been activated, the deactivated scheduling-free transmission resource being indicated by the first information.

It should be noted that, before the receiving device receives the deactivation information sent by the sending device, that is, the first information for deactivating the sets of scheduling-free transmission resources, the receiving device may receive the activation information sent by the sending device, so that the receiving device activates the scheduling-free transmission resources by using the activation information. That is, before receiving the deactivation information, the receiving device needs to receive the activation information to deactivate the activated scheduling-free transmission resource.

In an embodiment, in a case that the first information is set as information for deactivating the plurality of sets of scheduling-free transmission resources, the method further includes: and receiving activation information, wherein the activation information is information for activating the plurality of sets of scheduling-free transmission resources.

The method for configuring scheduling-free transmission resources comprises the steps of firstly receiving configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources; and then receiving first information, and processing corresponding scheduling-free transmission resources according to the first information, wherein the first information is information for activating or deactivating the multiple sets of scheduling-free transmission resources. The method effectively solves the technical problem that the joint activation or joint deactivation of the scheduling-free transmission resources cannot be carried out in the configuration of the scheduling-free transmission resources, namely, the fuzzy problem of the activation/deactivation of the existing scheduling-free transmission multiple resource configurations can be solved, so that the base station and the UE can understand consistently, and the UE can be prevented from misunderstanding the configuration of the base station. The joint activation or joint deactivation of the scheduling-free transmission resources is effectively realized.

For the content of the present embodiment that has not been detailed, reference may be made to the above embodiments, which are not described herein again.

On the basis of the above-described embodiment, a modified embodiment of the above-described embodiment is proposed, and it is to be noted herein that, in order to make the description brief, only the differences from the above-described embodiment are described in the modified embodiment.

In one embodiment, the method further comprises: and determining resource grouping information of the plurality of sets of scheduling-free transmission resources, wherein the resource grouping information indicates grouping conditions of the plurality of sets of scheduling-free transmission resources.

In an embodiment, the determining resource grouping information of the plurality of sets of scheduling-free transmission resources includes:

receiving second information, and determining resource grouping information of the plurality of sets of scheduling-free transmission resources based on the second information, wherein the second information is set as the resource grouping information indicating the plurality of sets of scheduling-free transmission resources; or the like, or, alternatively,

and extracting resource grouping information of the plurality of sets of scheduling-free transmission resources included in the configuration information.

The resource grouping information in the receiving device may be indicated in the configuration information or may be indicated by the second information.

The scheduling-free transmission resources may be grouped into a set of rules including one of: multiple sets of resources allocated to the same service can be grouped into one group; resources with the same cycle size can be divided into a group; resources of similar traffic types may be grouped together.

In an embodiment, the processing the corresponding scheduling-free transmission resource according to the first information includes:

under the condition that the first information is information for activating the multiple sets of scheduling-free transmission resources, determining the scheduling-free transmission resources activated in the multiple sets of scheduling-free transmission resources in a bitmap mode according to the state of a bit field for activation in the first information and the resource grouping information, wherein each bit in the bit field for activation is set to simultaneously activate a group of scheduling-free transmission resources in the resource grouping information;

and under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources, determining the scheduling-free transmission resources for deactivating in the multiple sets of scheduling-free transmission resources in a bitmap mode according to the state of a bit field for deactivating in the first information and the resource grouping information, wherein each bit in the bit field for deactivating is set to simultaneously deactivate a set of scheduling-free transmission resources in the resource grouping information.

The resource grouping information may refer to table 1, and in a case that the corresponding scheduling-free transmission resource is activated based on the first information, the state of the bit field for activation in the first information is determined, where the state indicates the group number in the resource grouping information, and different group numbers correspond to different scheduling-free transmission resource numbers, so that the scheduling-free transmission resource for activation in the sets of scheduling-free transmission resources is determined based on the state of the bit field for activation in the first information and the resource grouping information.

And under the condition that the corresponding scheduling-free transmission resources are deactivated based on the first information, determining the state of a bit field for deactivation in the first information, wherein the state indicates the group sequence number in the resource grouping information, and different group sequence numbers correspond to different scheduling-free transmission resource sequence numbers, so that the scheduling-free transmission resources for deactivation in the plurality of sets of scheduling-free transmission resources are determined based on the state of the bit field for deactivation in the first information and the resource grouping information.

In one embodiment, the method further comprises: and determining the corresponding relation between the multiple sets of scheduling-free transmission resources and the different wireless network temporary identifications.

The corresponding relationship between multiple sets of scheduling-free transmission resources and different wireless network temporary identifications can be seen in table 2. It should be noted that the correspondence listed in the tables in the present application is only an exemplary description and is not limited.

In an embodiment, the determining the correspondence between the multiple sets of scheduling-free transmission resources and the different radio network temporary identifiers includes:

receiving third information, and determining the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications based on the third information, wherein the third information is set to indicate the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications; or the like, or, alternatively,

and extracting the corresponding relation between the plurality of sets of scheduling-free transmission resources included in the configuration information and the different wireless network temporary identifications.

The corresponding relation between the multiple sets of scheduling-free transmission resources and the different wireless network temporary identifications can be configured by the configuration information and can also be additionally indicated by the third information.

In an embodiment, the processing the corresponding scheduling-free transmission resource according to the first information includes:

under the condition that the first information is information for activating the multiple sets of scheduling-free transmission resources, adopting a bit map mode, wherein each bit information bit corresponds to one or more sets of scheduling-free transmission resources, determining the scheduling-free transmission resources corresponding to the first information according to the wireless network temporary identification scrambled by the first information and the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications, and activating the corresponding scheduling-free transmission resources according to the state of a bit field used for activation in the first information;

and under the condition that the first information is the information for deactivating the multiple sets of scheduling-free transmission resources, adopting a bit map mode, wherein each bit information bit corresponds to one or more sets of scheduling-free transmission resources, determining the scheduling-free transmission resources corresponding to the first information according to the wireless network temporary identification scrambled by the first information and the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications, and deactivating the corresponding scheduling-free transmission resources according to the state of a bit field for deactivation in the first information.

And under the condition that the scheduling-free transmission resources indicated by the first information are determined based on the corresponding relation between the plurality of sets of scheduling-free transmission resources and the different wireless network temporary identifications. And under the condition that the first information is the information for activating the plurality of sets of scheduling-free transmission resources, determining the scheduling-free transmission resources corresponding to the wireless network temporary identifier based on the wireless network temporary identifier scrambled by the first information. Each bit of information in the first information corresponds to one or more sets of scheduling-free transmission resources. And then determining the scheduling-free transmission resource for activation from the determined scheduling-free transmission resources based on the state of the bit field for activation in the first information. Namely, the corresponding relation between the plurality of sets of scheduling-free transmission resources and different wireless network temporary identifications is indicated by the sending equipment, and a set of scheduling-free transmission resources corresponding to the wireless network temporary identification scrambled by the first information is determined based on the corresponding relation. Then, based on the state of the bit field for activation in the first information, a scheduling-free transmission resource for activation, i.e., a scheduling-free transmission resource corresponding to the state of the bit field for deactivation in the first information, is determined from the set of scheduling-free transmission resources.

And under the condition that the scheduling-free transmission resources indicated by the first information are determined based on the corresponding relation between the plurality of sets of scheduling-free transmission resources and the different wireless network temporary identifications. And under the condition that the first information is the information for deactivating the plurality of sets of scheduling-free transmission resources, determining the scheduling-free transmission resources corresponding to the wireless network temporary identifier based on the wireless network temporary identifier scrambled by the first information. Each bit of information in the first information corresponds to one or more sets of scheduling-free transmission resources. And then determining the scheduling-free transmission resources for deactivation from the determined scheduling-free transmission resources based on the state of the bit field for deactivation in the first information. Namely, the corresponding relation between the plurality of sets of scheduling-free transmission resources and different wireless network temporary identifications is indicated by the sending equipment, and a set of scheduling-free transmission resources corresponding to the wireless network temporary identification scrambled by the first information is determined based on the corresponding relation. Then, a deactivated scheduling-free transmission resource is determined from the set of scheduling-free transmission resources based on a state of a bit field for deactivation in the first information.

In one embodiment, the method further comprises: receiving fourth information, wherein the fourth information is set as information for indicating that the first information is joint deactivation or independent deactivation, or the fourth information is set as information for indicating that the first information is joint activation or independent activation; or the like, or, alternatively,

extracting information which indicates that the first information included in the configuration information is joint deactivation or independent deactivation; or, the information which indicates that the first information included in the configuration information is independently activated or jointly activated is extracted.

In the case of activating the scheduling-free transmission resource, the receiving device may receive fourth information indicating whether the first information is information for independent activation or information for joint activation.

In the case of deactivating the scheduling-free transmission resource, the receiving device may receive fourth information, where the fourth information indicates whether the first information is independently deactivated information or jointly deactivated information.

The receiving device may distinguish whether the first information is independently activated information or jointly activated information, or distinguish whether the first information is independently deactivated information or jointly deactivated information, through the configuration information or the fourth information.

In one embodiment, the method further comprises: and determining the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information or the corresponding relation between different wireless network temporary identifications and the joint activation information and the independent activation information.

The corresponding relationship between different radio network temporary identifiers and the independent deactivation information and the joint deactivation information or the corresponding relationship between different radio network temporary identifiers and the joint activation information and the independent activation information may be indicated by the fifth information or may be indicated by the configuration information. Based on the corresponding relationship, the first information may be distinguished, for example, whether the first information is independently activated information or jointly activated information, or whether the first information is independently deactivated information or jointly deactivated information.

In an embodiment, the determining the correspondence between different radio network temporary identifiers and the independent deactivation information and the independent activation information or the correspondence between different radio network temporary identifiers and the joint activation information and the independent activation information includes: receiving fifth information, and determining the corresponding relation between different wireless network temporary identifications and independent deactivation information or the corresponding relation between different wireless network temporary identifications and joint activation information or independent activation information based on the fifth information, wherein the fifth information is set to indicate the corresponding relation between different wireless network temporary identifications and independent deactivation information or the corresponding relation between different wireless network temporary identifications and independent activation information or the corresponding relation between different wireless network temporary identifications and joint activation information; or the like, or, alternatively,

and extracting the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information or the corresponding relation between different wireless network temporary identifications and the independent activation information and the joint activation information included in the configuration information.

In one embodiment, the method further comprises: under the condition that the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information is determined, determining that the first information is the independent deactivation information or the joint deactivation information according to the wireless network temporary identifications scrambled by the first information and the corresponding relation between the different wireless network temporary identifications and the independent deactivation information and the joint deactivation information; and under the condition of determining the corresponding relation between the different wireless network temporary identifications and the joint activation information and the independent activation information, determining that the first information is the independently activated information or the joint activation information according to the wireless network temporary identification scrambled by the first information and the corresponding relation between the different wireless network temporary identifications and the joint activation information and the independent activation information.

Because the sending device indicates the corresponding relationship between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information, or the corresponding relationship between different wireless network temporary identifications and the independent activation information and the joint activation information, based on the wireless network temporary identification scrambled by the first information, whether the first information is the information for independent activation or the information for joint deactivation can be determined.

It can be understood that, in the case that the radio network temporary identifier scrambled by the first information corresponds to the joint deactivation information, the first information may be determined to be the information for performing the joint deactivation. Under the condition that the radio network temporary identifier scrambled by the first information corresponds to the independent deactivation information, the first information can be determined to be the information for independent deactivation. The independent deactivation information and the joint deactivation information may identify whether the scrambled first information is joint deactivation information or independent deactivation information of the corresponding wireless network temporary identifier.

In one embodiment, the method further comprises: according to the state of a first preset domain in the first information, determining that the first information is independently deactivated information or jointly deactivated information, or determining that the first information is independently activated information or jointly activated information, wherein the first preset domain comprises at least one of the following indication domains: a hybrid automatic repeat request process number indication domain, a redundancy version indication domain, a modulation and coding strategy indication domain and a frequency domain resource allocation indication domain.

Distinguishing whether the first information is independently deactivated information or jointly deactivated information, or independently activated information or jointly activated information can be achieved by multiplexing the state of the first preset domain in the first information.

In an embodiment, in a case that the first predetermined field includes a modulation and coding strategy indication field, a state of the modulation and coding strategy indication field in the first predetermined field includes at least one of: 11111. 11110, 11101, and 11100.

In an embodiment, in a case that the first preset domain includes a frequency domain resource allocation indication domain, a state of the frequency domain resource allocation indication domain in the first preset domain includes at least one of: all set 1 or all set 0.

In one embodiment, the method further comprises: and under the condition of a carrier aggregation scene, determining carrier grouping information, wherein the carrier grouping information indicates the corresponding relation between different carriers and carrier group serial numbers.

The carrier group sequence number, i.e. the sequence number, in the carrier grouping information can be indicated through the corresponding field in the first information based on the carrier grouping information to determine the indicated carrier, and then scheduling-free transmission resources on the carrier are deactivated. The carrier grouping information can be seen in table 10.

The carrier grouping information may be indicated by the configuration information or may be indicated by the sixth information.

In an embodiment, the determining carrier grouping information of the carrier includes: receiving sixth information, and determining carrier grouping information based on the sixth information, wherein the sixth information is set to indicate the carrier grouping information; or, extracting carrier packet information in the configuration information.

In an embodiment, the processing the corresponding scheduling-free transmission resource according to the first information includes:

under the condition that the first information is set as information for deactivating the multiple sets of scheduling-free transmission resources and the format of the first information is a first type of format, determining a first target carrier corresponding to the state of a carrier indication domain in the first information according to the state of the carrier indication domain in the first information and the carrier grouping information, and deactivating the scheduling-free transmission resources on the first target carrier, wherein the first information in the first type of format comprises the carrier indication domain, and the state of the carrier indication domain in the first information indicates the carrier group number;

under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources and the format of the first information is a first type of format, determining a second target carrier corresponding to the state of the carrier indication domain in the first information and the state of a second preset domain according to the state of the carrier indication domain in the first information, the state of the second preset domain and the carrier grouping information, and deactivating the scheduling-free transmission resources on the second target carrier, wherein the second preset domain comprises a time domain resource allocation domain, the first information in the first type of format comprises a carrier indication domain, and the state of the carrier indication domain in the first information and the state of the second preset domain indicate a carrier group number;

under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources and the format of the first information is a second type of format, determining a third target carrier corresponding to the state of a third preset domain in the first information according to the state of the third preset domain in the first information and the carrier grouping information, and deactivating the scheduling-free transmission resources on the third target carrier, wherein the third preset domain is an unused domain in the first information, the third preset domain comprises a frequency domain resource allocation domain or a transmission power control domain, and the state of the third preset domain in the first information indicates a carrier group number;

and under the condition that the first information is information for activating the multiple sets of scheduling-free transmission resources and the format of the first information is a first type of format, determining a fourth target carrier corresponding to the state of a carrier indication domain in the first information according to the state of the carrier indication domain in the first information and the carrier grouping information, and activating the scheduling-free transmission resources on the fourth target carrier, wherein the first information in the first type of format comprises the carrier indication domain, and the state of the carrier indication domain in the first information indicates the carrier group number.

When the first information indicates that the resource is deactivated, the first information may be divided into two cases, one is the first information in the first type of format, that is, the first information includes the carrier indication field, and the other is the first information in the second type of format, that is, the first information does not include the carrier indication field. The carrier grouping information includes the correspondence between the carrier group number and different carriers.

In the case that the first information includes a carrier indication field, the state of the carrier indication field, or the states of the carrier indication field and the second preset field indicate the carrier group number in the carrier grouping information, and different carrier group numbers, that is, the numbers correspond to carriers of different groups. A first target carrier corresponding to the first information may be determined based on the status of the carrier indication field and the carrier grouping information, and then scheduling-free transmission resources on the first target carrier are deactivated. A second target carrier corresponding to the first information may be determined based on the states of the carrier indication field and the second preset field and the carrier grouping information, and then scheduling-free transmission resources on the second target carrier are deactivated.

In the case where the first information includes a carrier indication field, an unused field in the first information, that is, a third preset field, may be multiplexed to perform carrier indication. And the state of the third preset domain indicates the carrier group number, so that a third target carrier corresponding to the state of the third preset domain in the first information is determined based on the state of the third preset domain and the carrier grouping information, and scheduling-free transmission resources on the third target carrier are deactivated.

In one embodiment, the method further comprises: under the condition that a carrier aggregation scene, the first information are information for deactivating the multiple sets of scheduling-free transmission resources, and the format of the first information is a second type of format, extracting joint grouping information of the carriers and the scheduling-free transmission resources included in the configuration information, wherein the joint grouping information indicates the corresponding relation among the carriers, the scheduling-free transmission resources and a joint group sequence number, and the joint group sequence number is indicated by the state of a bit field for deactivation in the first information.

And the first information of the second type of format does not contain a carrier indication field. The joint grouping information may include the corresponding relationship between a plurality of sets of scheduling-free transmission resources and different carriers, for example, a list is added correspondingly on the basis of table 10, and the list is the grouping of the scheduling-free transmission resources and the corresponding relationship between the carrier serial numbers and the carrier serial numbers.

The bit field for deactivation in the first information indicates that the scheduling free transmission resource and the carrier can be simultaneously performed. If the associated grouping information includes the following corresponding relationship, the associated group serial number, i.e. the serial number is 0, the scheduling-free transmission resource serial number is 0, and the carrier serial number is 0. In the case where the state of the bit field for which the first information is used for deactivation is set to all 0, it indicates that scheduling-free transmission resource 0 on carrier 0 is deactivated.

In an embodiment, the processing the corresponding scheduling-free transmission resource according to the first information includes:

according to the state of the bit field for deactivation in the first information and the joint grouping information, determining a fifth target carrier corresponding to the state of the bit field for deactivation in the first information and a corresponding first scheduling-free transmission resource, and deactivating the first scheduling-free transmission resource on the fifth target carrier.

In one embodiment, the method further comprises: and under the condition that a carrier aggregation scene and the first information are set to indicate scheduling-free transmission resources activated in the multiple sets of scheduling-free transmission resources, and the format of the first information is a second type of format, extracting joint grouping information of the carriers and the scheduling-free transmission resources included in the configuration information, wherein the joint grouping information indicates the corresponding relation among the carriers, the scheduling-free transmission resources and a joint group sequence number, and the joint group sequence number is indicated by the state of a bit field used for activation in the first information.

In an embodiment, the processing the corresponding scheduling-free transmission resource according to the first information includes:

according to the state of the bit field used for activation in the first information and the joint grouping information, determining a sixth target carrier corresponding to the state of the bit field used for activation in the first information and a corresponding second scheduling-free transmission resource, and activating the second scheduling-free transmission resource on the sixth target carrier.

In the case of performing deactivation or activation of scheduling-free transmission resources in a CA scenario, multiple sets of scheduling-free transmission resources and different carriers may be jointly encoded, and jointly indicated by a bit field in the first information for indicating deactivation.

The state of the bit field used for deactivation in the first information indicates a joint group number, and different joint group numbers correspond to corresponding carriers and scheduling-free transmission resources. Therefore, based on the state of the bit field for deactivation in the first information and the joint grouping information, a fifth target carrier corresponding to the first information and a corresponding first scheduling-free transmission resource are determined. The first scheduling-free transmission resource on the fifth target carrier is then deactivated. And the fifth target carrier and the first scheduling-free transmission resource are the carrier and the scheduling-free transmission resource corresponding to the first information.

The status of the bit field used for activation in the first information indicates a joint group number, and different joint group numbers correspond to corresponding carriers and scheduling-free transmission resources. Therefore, based on the status of the bit field for activation in the first information and the joint grouping information, a sixth target carrier corresponding to the first information and a corresponding second scheduling-free transmission resource are determined. The second scheduling-free transmission resource on the sixth target carrier is then deactivated. And the sixth target carrier and the second scheduling-free transmission resource are the carrier and the scheduling-free transmission resource corresponding to the first information.

The application provides a scheduling-free transmission resource configuration device, which can be integrated on a sending device, and comprises: the system comprises a sending module and a receiving module, wherein the sending module is set to send configuration information of a plurality of sets of scheduling-free transmission resources, the configuration information comprises parameters of the distributed plurality of sets of scheduling-free transmission resources, and the sending module is also set to send first information, and the first information is information for activating or deactivating the plurality of sets of scheduling-free transmission resources.

The device for configuring scheduling-free transmission resources provided in this embodiment is used to implement the method for configuring scheduling-free transmission resources in the embodiment shown in fig. 1, and the implementation principle and technical effect of the device for configuring scheduling-free transmission resources provided in this embodiment are similar to those of the method for configuring scheduling-free transmission resources in the embodiment shown in fig. 1, and are not described herein again.

In an embodiment, the configuration information in the sending module further includes at least one of the following: the resource grouping information of the plurality of sets of scheduling-free transmission resources, the corresponding relation between the plurality of sets of scheduling-free transmission resources and different wireless network temporary identifications, information indicating that the first information is jointly deactivated or independently deactivated, information indicating that the first information is jointly activated or independently activated, the corresponding relation between different wireless network temporary identifications and the independently deactivated information and the jointly deactivated information, the corresponding relation between different wireless network temporary identifications and the independently activated information and the jointly activated information, and carrier grouping information or the combined grouping information of the carrier and the scheduling-free transmission resources.

In an embodiment, the sending module is configured to send second information, where the second information is configured as resource grouping information indicating the plurality of sets of scheduling-free transmission resources.

In an embodiment, the sending module is configured to send third information, where the third information is configured to indicate a correspondence between the plurality of sets of scheduling-free transmission resources and different wireless network temporary identifiers.

In an embodiment, the sending module is configured to send fourth information, where the fourth information is configured to indicate that the first information is information for performing joint deactivation or independent deactivation, or the fourth information is configured to indicate that the first information is information for performing joint activation or independent activation.

In an embodiment, the sending module is configured to send fifth information, where the fifth information is configured to indicate a corresponding relationship between different temporary radio network identifiers and the independent deactivation information and the joint deactivation information, or the fifth information is configured to indicate a corresponding relationship between different temporary radio network identifiers and the independent activation information and the joint activation information.

In an embodiment, the apparatus further includes a determining module configured to determine a state of a first preset domain in the first information, where the first preset domain includes at least one of the following indication domains: a hybrid automatic repeat request process number indication domain, a redundancy version indication domain, a modulation and coding strategy indication domain and a frequency domain resource allocation indication domain, wherein the state of the first preset domain is set to indicate that the first information is joint deactivation information or independent deactivation information; or the state of the first preset domain is set to indicate that the first information is joint activation or independent activation information.

In an embodiment, the determining module is specifically configured to: determining the state of an indication domain included in a first preset domain in the first information, including: determining the reserved state of the indication domain containing the reserved domain as the state of the corresponding indication domain; or, determining the state of the corresponding indication domain according to the occurrence probability of the state of the indication domain included in the first preset domain in the first information.

In an embodiment, the determining module, in a case that the first predetermined field includes a modulation and coding strategy indication field, sets the modulation and coding strategy indication field in the state of the first predetermined field to include at least one of: 11111. 11110, 11101, and 11100.

In an embodiment, the determining module, in a case that the first preset domain includes a frequency domain resource allocation indication domain, includes at least one of the following: all set 1 or all set 0.

In an embodiment, the sending module is configured to send sixth information, and the sixth information is configured to indicate carrier grouping information.

In an embodiment, the sending module is configured to send activation information when the first information is set as a scheduling-free transmission resource indicating that the plurality of sets of scheduling-free transmission resources are deactivated, where the activation information is information for activating the plurality of sets of scheduling-free transmission resources.

Fig. 3 is a schematic structural diagram of the scheduling-free transmission resource configuration apparatus provided in the present application, which may be integrated on a receiving device, as shown in fig. 3, where the apparatus includes: a receiving module 31, configured to receive configuration information of a plurality of sets of scheduling-free transmission resources, and further configured to receive first information, where the configuration information includes parameters of the plurality of sets of scheduling-free transmission resources that are allocated, and the first information is information that activates or deactivates the plurality of sets of scheduling-free transmission resources; and the processor 32 is configured to process the corresponding scheduling-free transmission resource according to the first information.

The device for configuring scheduling-free transmission resources provided in this embodiment is used to implement the method for configuring scheduling-free transmission resources in the embodiment shown in fig. 2, and the implementation principle and technical effect of the device for configuring scheduling-free transmission resources provided in this embodiment are similar to those of the method for configuring scheduling-free transmission resources in the embodiment shown in fig. 2, and are not described herein again.

In an embodiment, the processor 32 is configured to determine resource grouping information of the plurality of scheduling free transmission resources, where the resource grouping information indicates a grouping condition of the plurality of scheduling free transmission resources.

In an embodiment, the processor 32 is configured to receive second information, and determine resource grouping information of the plurality of sets of scheduling-free transmission resources based on the second information, wherein the second information is configured to indicate the resource grouping information of the plurality of sets of scheduling-free transmission resources; or extracting resource grouping information of the plurality of sets of scheduling-free transmission resources included in the configuration information.

In an embodiment, the processor 32 is configured to determine, in a bitmap manner, scheduling-free transmission resources activated in the multiple sets of scheduling-free transmission resources according to a state of a bit field for activation in the first information and the resource grouping information, where each bit in the bit field for activation is set to simultaneously activate a set of scheduling-free transmission resources in the resource grouping information, if the first information is information that activates the multiple sets of scheduling-free transmission resources;

and under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources, determining the scheduling-free transmission resources for deactivating in the multiple sets of scheduling-free transmission resources in a bitmap mode according to the state of a bit field for deactivating in the first information and the resource grouping information, wherein each bit in the bit field for deactivating is set to simultaneously deactivate a set of scheduling-free transmission resources in the resource grouping information.

In an embodiment, the processor 32 is configured to determine correspondence between the plurality of sets of scheduling free transmission resources and different radio network temporary identities.

In an embodiment, the processor 32 is configured to receive third information, and determine a correspondence relationship between the plurality of sets of scheduling-free transmission resources and different radio network temporary identifications based on the third information, where the third information is configured to indicate a correspondence relationship between the plurality of sets of scheduling-free transmission resources and different radio network temporary identifications; or, extracting the corresponding relation between the multiple sets of scheduling-free transmission resources and the different wireless network temporary identifications included in the configuration information.

In an embodiment, the processor 32 is configured to, in a case that the first information is information for activating the multiple sets of scheduling-free transmission resources, adopt a bit map manner, where each bit information bit corresponds to one or more sets of scheduling-free transmission resources, determine, according to the radio network temporary identifier scrambled by the first information and a correspondence between the multiple sets of scheduling-free transmission resources and different radio network temporary identifiers, the scheduling-free transmission resource corresponding to the first information, and activate, according to a state of a bit field used for activation in the first information, the corresponding scheduling-free transmission resource;

and under the condition that the first information is the information for deactivating the multiple sets of scheduling-free transmission resources, adopting a bit map mode, wherein each bit information bit corresponds to one or more sets of scheduling-free transmission resources, determining the scheduling-free transmission resources corresponding to the first information according to the wireless network temporary identification scrambled by the first information and the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications, and deactivating the corresponding scheduling-free transmission resources according to the state of a bit field for deactivation in the first information.

In an embodiment, the receiving module 31 is configured to receive fourth information, where the fourth information is set to indicate that the first information is information for performing joint deactivation or independent deactivation, or the fourth information is set to indicate that the first information is information for performing joint activation or independent activation; or, extracting the information which indicates that the first information included in the configuration information is the information for performing joint deactivation or independent deactivation; or, the information which indicates that the first information included in the configuration information is independently activated or jointly activated is extracted.

In an embodiment, the processor 32 is configured to determine a correspondence between different radio network temporary identities and the independent deactivation information and the joint deactivation information or a correspondence between different radio network temporary identities and the joint activation information and the independent activation information.

In an embodiment, the processor 32 is configured to receive fifth information, and determine, based on the fifth information, a corresponding relationship between different temporary radio network identifiers and the independent deactivation information and the independent activation information or a corresponding relationship between different temporary radio network identifiers and the joint activation information and the independent activation information, where the fifth information is configured to indicate a corresponding relationship between different temporary radio network identifiers and the independent deactivation information and the joint deactivation information, or the fifth information is configured to indicate a corresponding relationship between different temporary radio network identifiers and the independent activation information and the joint activation information; or extracting the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information or the corresponding relation between different wireless network temporary identifications and the independent activation information and the joint activation information included in the configuration information.

In an embodiment, the processor 32 is configured to determine, when determining the correspondence between different wireless network temporary identifiers and the independent deactivation information and the joint deactivation information, that the first information is the independently deactivated information or the joint deactivation information according to the correspondence between the wireless network temporary identifier scrambled by the first information and the different wireless network temporary identifiers and the independent deactivation information and the joint deactivation information;

and under the condition of determining the corresponding relation between the different wireless network temporary identifications and the joint activation information and the independent activation information, determining that the first information is the independently activated information or the joint activation information according to the wireless network temporary identification scrambled by the first information and the corresponding relation between the different wireless network temporary identifications and the joint activation information and the independent activation information.

In an embodiment, the processor 32 is configured to determine, according to a state of a first preset domain in the first information, that the first information is independently deactivated information or jointly deactivated information, or that the first information is independently activated information or jointly activated information, where the first preset domain includes at least one of the following indication domains: a hybrid automatic repeat request process number indication domain, a redundancy version indication domain, a modulation and coding strategy indication domain and a frequency domain resource allocation indication domain.

In an embodiment, the processor 32 is configured to, in a case that the first predetermined field includes a modulation and coding strategy indication field, a state of the modulation and coding strategy indication field in the first predetermined field includes at least one of: 11111. 11110, 11101, and 11100.

In an embodiment, the processor 32 is configured to, in a case that the first predetermined domain includes a frequency domain resource allocation indication domain, the state of the frequency domain resource allocation indication domain in the first predetermined domain includes at least one of: all set 1 or all set 0.

In an embodiment, the processor 32 is configured to determine carrier grouping information in case of a carrier aggregation scenario, wherein the carrier grouping information indicates a correspondence between different carriers and carrier group numbers.

In an embodiment, the processor 32 is configured to receive sixth information, and determine carrier grouping information based on the sixth information, wherein the sixth information is configured to indicate carrier grouping information; or, extracting carrier packet information in the configuration information.

In an embodiment, the processor 32 is configured to, when the first information is information for deactivating the sets of scheduling-free transmission resources and a format of the first information is a first type of format, determine, according to a state of a carrier indication field in the first information and the carrier grouping information, a first target carrier corresponding to the state of the carrier indication field in the first information, and deactivate the scheduling-free transmission resources on the first target carrier, where the first information in the first type of format includes the carrier indication field, and the state of the carrier indication field in the first information indicates a carrier group number;

under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources and the format of the first information is a first type of format, determining a second target carrier corresponding to the state of the carrier indication domain in the first information and the state of a second preset domain according to the state of the carrier indication domain in the first information, the state of the second preset domain and the carrier grouping information, and deactivating the scheduling-free transmission resources on the second target carrier, wherein the state of the carrier indication domain in the first information and the state of the second preset domain indicate a carrier group number;

under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources and the format of the first information is a second type of format, determining a third target carrier corresponding to the state of a third preset domain in the first information according to the state of the third preset domain in the first information and the carrier grouping information, and deactivating the scheduling-free transmission resources on the third target carrier, wherein the state of the third preset domain in the first information indicates the carrier group number;

and under the condition that the first information is information for activating the multiple sets of scheduling-free transmission resources and the format of the first information is a first type of format, determining a fourth target carrier corresponding to the state of a carrier indication domain in the first information according to the state of the carrier indication domain in the first information and the carrier grouping information, and deactivating the scheduling-free transmission resources on the fourth target carrier, wherein the first information in the first type of format comprises the carrier indication domain, and the state of the carrier indication domain in the first information indicates the carrier group number.

In an embodiment, the processor 32 is configured to, in a carrier aggregation scenario, extract joint grouping information of the carrier and the scheduling-free transmission resource included in the configuration information when the first information is information for deactivating the sets of scheduling-free transmission resources and a format of the first information is a second type of format, where the joint grouping information indicates a corresponding relationship between the carrier, the scheduling-free transmission resource and a joint group number, and the joint group number is indicated by a state of a bit field used for deactivation in the first information.

In an embodiment, the processor 32 is configured to, in a carrier aggregation scenario, where the first information is set to indicate a scheduling-free transmission resource that is activated in the sets of scheduling-free transmission resources, and a format of the first information is a second type of format, extract joint grouping information of the carrier and the scheduling-free transmission resource included in the configuration information, where the joint grouping information indicates a corresponding relationship between the carrier, the scheduling-free transmission resource, and a joint group number, and the joint group number is indicated by a state of a bit field used for activation in the first information. And the first information of the second type of format does not contain a carrier indication field.

In an embodiment, the processor 32 is configured to determine a fifth target carrier and a corresponding first scheduling-free transmission resource corresponding to the state of the bit field for deactivation in the first information according to the state of the bit field for deactivation in the first information and the joint grouping information, and deactivate the first scheduling-free transmission resource on the fifth target carrier.

In an embodiment, the processor 32 is configured to determine a sixth target carrier corresponding to the status of the bit field used for activation in the first information and a corresponding second scheduling-free transmission resource according to the status of the bit field used for activation in the first information and the joint packet information, and activate the second scheduling-free transmission resource on the sixth target carrier.

In an embodiment, the receiving module 31 is configured to receive activation information when the first information is set as a scheduling-free transmission resource indicating that the plurality of sets of scheduling-free transmission resources are deactivated, where the activation information is information for activating the plurality of sets of scheduling-free transmission resources.

The embodiment of the application also provides the sending equipment. Fig. 4 is a schematic structural diagram of a sending device provided in the present application. As shown in fig. 4, the present application provides a transmitting device comprising one or more processors 41 and storage 42; the processor 41 in the sending device may be one or more, and one processor 41 is taken as an example in fig. 4; storage 42 is used to store one or more programs; the one or more programs are executed by the one or more processors 41, so that the one or more processors 41 implement the configuration method of the scheduling-free transmission resource as described in the embodiment of the present invention.

The processor 41 and the storage device 42 in the sending device may be connected by a bus or other means, and fig. 4 illustrates the connection by the bus as an example.

The storage device 42, as a computer-readable storage medium, may be configured to store a software program, a computer-executable program, and modules, such as program instructions/modules corresponding to the method for configuring a scheduling-free transmission resource according to the embodiments of the present application (for example, a sending module in a scheduling-free transmission resource configuring device). The storage device 42 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to use of the device, and the like. Further, the storage 42 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some examples, storage 42 may further include memory located remotely from processor 41, which may be connected to the sending device over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

An embodiment of the present application further provides a receiving device, and fig. 5 is a schematic structural diagram of the receiving device provided in the present application. As shown in fig. 5, the receiving apparatus provided by the present application includes one or more processors 51 and a storage device 52; the processor 51 in the terminal may be one or more, and one processor 51 is taken as an example in fig. 5; storage 52 is used to store one or more programs; the one or more programs are executed by the one or more processors 51, so that the one or more processors 51 implement the configuration method of the scheduling-free transmission resource as described in the embodiment of the present invention.

The processor 51 and the storage 52 in the terminal may be connected by a bus or other means, and fig. 5 illustrates the connection by a bus as an example.

The storage device 52, as a computer-readable storage medium, may be configured to store software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the method for configuring the scheduling-free transmission resource according to the embodiment of the present application (for example, the receiving module 31 and the processor 32 in the configuration of the scheduling-free transmission resource). The storage device 52 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to use of the device, and the like. Further, the storage 52 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some examples, the storage 52 may further include memory located remotely from the processor 51, which may be connected to the receiving device over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The present application further provides a storage medium, where the storage medium stores a computer program, and the computer program, when executed by a processor, implements the method for configuring scheduling-free transmission resources according to any of the embodiments of the present application. As applied to a method for configuring scheduling-free transmission resources of a transmitting device and a method for configuring scheduling-free transmission resources of a receiving device, the method for configuring scheduling-free transmission resources of a transmitting device includes: sending configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources; and sending first information, wherein the first information is information for activating or deactivating the multiple sets of scheduling-free transmission resources.

The method for configuring the scheduling-free transmission resource applied to the receiving equipment comprises the following steps: receiving configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources; and receiving first information, and processing corresponding scheduling-free transmission resources according to the first information, wherein the first information is information for activating or deactivating the sets of scheduling-free transmission resources.

The above description is only exemplary embodiments of the present application, and is not intended to limit the scope of the present application.

It will be clear to a person skilled in the art that the term receiving device covers any suitable type of wireless user equipment, such as a mobile phone, a portable data processing apparatus, a portable web browser or a vehicle mobile station.

In general, the various embodiments of the application may be implemented in hardware or special purpose circuits, software, logic or any combination thereof. For example, some aspects may be implemented in hardware, while other aspects may be implemented in firmware or software which may be executed by a controller, microprocessor or other computing device, although the application is not limited thereto.

Embodiments of the application may be implemented by a data processor of a mobile device executing computer program instructions, for example in a processor entity, or by hardware, or by a combination of software and hardware. The computer program instructions may be assembly instructions, Instruction Set Architecture (ISA) instructions, machine-related instructions, microcode, firmware instructions, state setting data, or source code or object code written in any combination of one or more programming languages.

Any logic flow block diagrams in the figures of this application may represent program steps, or may represent interconnected logic circuits, modules, and functions, or may represent a combination of program steps and logic circuits, modules, and functions. The computer program may be stored on a memory. The Memory may be of any type suitable to the local technical environment and may be implemented using any suitable data storage technology, such as, but not limited to, Read-Only Memory (ROM), Random Access Memory (RAM), optical storage devices and systems (Digital Video Disc (DVD) or Compact Disc (CD)), etc. The computer readable medium may include a non-transitory storage medium. The data processor may be of any type suitable to the local technical environment, such as but not limited to general purpose computers, special purpose computers, microprocessors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Programmable logic devices (FGPAs), and processors based on a multi-core processor architecture.

Claims (39)

1. A method for configuring scheduling-free transmission resources, comprising:

sending configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources;

and sending first information, wherein the first information is information for activating or deactivating the multiple sets of scheduling-free transmission resources.

2. The method of claim 1, wherein the configuration information further comprises at least one of: the resource grouping information of the plurality of sets of scheduling-free transmission resources, the corresponding relation between the plurality of sets of scheduling-free transmission resources and different wireless network temporary identifications, information indicating that the first information is jointly deactivated or independently deactivated, information indicating that the first information is jointly activated or independently activated, the corresponding relation between different wireless network temporary identifications and the independently deactivated information and the jointly deactivated information, the corresponding relation between different wireless network temporary identifications and the independently activated information and the jointly activated information, and carrier grouping information or the combined grouping information of the carrier and the scheduling-free transmission resources.

3. The method of claim 1, further comprising:

and sending second information which is set as resource grouping information indicating the plurality of sets of scheduling-free transmission resources.

4. The method of claim 1, further comprising:

and sending third information, wherein the third information is set to indicate the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications.

5. The method of claim 1, further comprising:

and sending fourth information, wherein the fourth information is set as information for indicating that the first information is joint deactivation or independent deactivation, or the fourth information is set as information for indicating that the first information is joint activation or independent activation.

6. The method of claim 1, further comprising:

and sending fifth information, wherein the fifth information is set to indicate the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information, or the fifth information is set to indicate the corresponding relation between different wireless network temporary identifications and the independent activation information and the joint activation information.

7. The method of claim 1, further comprising:

determining the state of a first preset domain in the first information, wherein the first preset domain comprises at least one of the following indication domains: a hybrid automatic repeat request process number indication domain, a redundancy version indication domain, a modulation and coding strategy indication domain and a frequency domain resource allocation indication domain, wherein the state of the first preset domain is set to indicate that the first information is joint deactivation information or independent deactivation information; or the state of the first preset domain is set to indicate that the first information is joint activation or independent activation information.

8. The method of claim 7, wherein determining that the first predetermined field in the first message includes the status of the indication field comprises:

determining the reserved state of the indication domain containing the reserved domain as the state of the corresponding indication domain; or the like, or, alternatively,

and determining the state of the corresponding indication domain according to the occurrence probability of the state of the indication domain included in the first preset domain in the first information.

9. The method of claim 7, wherein in the case that the first predetermined field comprises a modulation and coding strategy indication field, the state of the modulation and coding strategy indication field in the first predetermined field comprises at least one of: 11111. 11110, 11101, and 11100.

10. The method according to claim 7, wherein in case that the first predetermined domain comprises a frequency domain resource allocation indication domain, the state of the frequency domain resource allocation indication domain in the first predetermined domain comprises at least one of: all set 1 or all set 0.

11. The method of claim 1, further comprising:

and sending sixth information which is set as indication carrier grouping information.

12. The method according to claim 1, wherein in case that the first information is set as a scheduling-free transmission resource indicating deactivation among the plurality of sets of scheduling-free transmission resources, further comprising:

and sending activation information, wherein the activation information is information for activating the plurality of sets of scheduling-free transmission resources.

13. A method for configuring scheduling-free transmission resources, comprising:

receiving configuration information of a plurality of sets of scheduling-free transmission resources, wherein the configuration information comprises parameters of the plurality of sets of allocated scheduling-free transmission resources;

and receiving first information, and processing corresponding scheduling-free transmission resources according to the first information, wherein the first information is information for activating or deactivating a plurality of sets of scheduling-free transmission resources.

14. The method of claim 13, further comprising:

and determining resource grouping information of the plurality of sets of scheduling-free transmission resources, wherein the resource grouping information indicates grouping conditions of the plurality of sets of scheduling-free transmission resources.

15. The method of claim 14, wherein the determining resource grouping information for the plurality of sets of scheduling-free transmission resources comprises:

receiving second information, and determining resource grouping information of the plurality of sets of scheduling-free transmission resources based on the second information, wherein the second information is set as the resource grouping information indicating the plurality of sets of scheduling-free transmission resources; or the like, or, alternatively,

and extracting resource grouping information of the plurality of sets of scheduling-free transmission resources included in the configuration information.

16. The method of claim 14, wherein processing the corresponding scheduling-free transmission resource according to the first information comprises:

under the condition that the first information is information for activating the multiple sets of scheduling-free transmission resources, determining the scheduling-free transmission resources activated in the multiple sets of scheduling-free transmission resources in a bitmap mode according to the state of a bit field for activation in the first information and the resource grouping information, wherein each bit in the bit field for activation is set to simultaneously activate a group of scheduling-free transmission resources in the resource grouping information;

and under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources, determining the scheduling-free transmission resources for deactivating in the multiple sets of scheduling-free transmission resources in a bitmap mode according to the state of a bit field for deactivating in the first information and the resource grouping information, wherein each bit in the bit field for deactivating is set to simultaneously deactivate a set of scheduling-free transmission resources in the resource grouping information.

17. The method of claim 13, further comprising:

and determining the corresponding relation between the multiple sets of scheduling-free transmission resources and the different wireless network temporary identifications.

18. The method of claim 17, wherein the determining the correspondence between the plurality of sets of scheduling-free transmission resources and the different radio network temporary identities comprises:

receiving third information, and determining the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications based on the third information, wherein the third information is set to indicate the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications; or the like, or, alternatively,

and extracting the corresponding relation between the plurality of sets of scheduling-free transmission resources included in the configuration information and the different wireless network temporary identifications.

19. The method of claim 17, wherein processing the corresponding scheduling-free transmission resource according to the first information comprises:

under the condition that the first information is information for activating the multiple sets of scheduling-free transmission resources, adopting a bit map mode, wherein each bit information bit corresponds to one or more sets of scheduling-free transmission resources, determining the scheduling-free transmission resources corresponding to the first information according to the wireless network temporary identification scrambled by the first information and the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications, and activating the corresponding scheduling-free transmission resources according to the state of a bit field used for activation in the first information;

and under the condition that the first information is the information for deactivating the multiple sets of scheduling-free transmission resources, adopting a bit map mode, wherein each bit information bit corresponds to one or more sets of scheduling-free transmission resources, determining the scheduling-free transmission resources corresponding to the first information according to the wireless network temporary identification scrambled by the first information and the corresponding relation between the multiple sets of scheduling-free transmission resources and different wireless network temporary identifications, and deactivating the corresponding scheduling-free transmission resources according to the state of a bit field for deactivation in the first information.

20. The method of claim 13, further comprising:

receiving fourth information, wherein the fourth information is set as information for indicating that the first information is joint deactivation or independent deactivation, or the fourth information is set as information for indicating that the first information is joint activation or independent activation; or the like, or, alternatively,

extracting information which indicates that the first information included in the configuration information is joint deactivation or independent deactivation; or the like, or, alternatively,

and extracting information which indicates that the first information included in the configuration information is independently activated or jointly activated.

21. The method of claim 13, further comprising:

and determining the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information or the corresponding relation between different wireless network temporary identifications and the joint activation information and the independent activation information.

22. The method of claim 21, wherein the determining the correspondence between different radio network temporary identities and independent deactivation information and independent activation information or the correspondence between different radio network temporary identities and joint activation information and independent activation information comprises:

receiving fifth information, and determining the corresponding relation between different wireless network temporary identifications and independent deactivation information or the corresponding relation between different wireless network temporary identifications and joint activation information or independent activation information based on the fifth information, wherein the fifth information is set to indicate the corresponding relation between different wireless network temporary identifications and independent deactivation information or the corresponding relation between different wireless network temporary identifications and independent activation information or the corresponding relation between different wireless network temporary identifications and joint activation information; or the like, or, alternatively,

and extracting the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information or the corresponding relation between different wireless network temporary identifications and the independent activation information and the joint activation information included in the configuration information.

23. The method of claim 21, further comprising:

under the condition that the corresponding relation between different wireless network temporary identifications and the independent deactivation information and the joint deactivation information is determined, determining that the first information is the independent deactivation information or the joint deactivation information according to the wireless network temporary identifications scrambled by the first information and the corresponding relation between the different wireless network temporary identifications and the independent deactivation information and the joint deactivation information;

and under the condition of determining the corresponding relation between the different wireless network temporary identifications and the joint activation information and the independent activation information, determining that the first information is the independently activated information or the joint activation information according to the wireless network temporary identification scrambled by the first information and the corresponding relation between the different wireless network temporary identifications and the joint activation information and the independent activation information.

24. The method of claim 13, further comprising:

according to the state of a first preset domain in the first information, determining that the first information is independently deactivated information or jointly deactivated information, or determining that the first information is independently activated information or jointly activated information, wherein the first preset domain comprises at least one of the following indication domains: a hybrid automatic repeat request process number indication domain, a redundancy version indication domain, a modulation and coding strategy indication domain and a frequency domain resource allocation indication domain.

25. The method of claim 24, wherein in case that the first predetermined field comprises a modulation and coding strategy indication field, a state of the modulation and coding strategy indication field in the first predetermined field comprises at least one of: 11111. 11110, 11101, and 11100.

26. The method according to claim 24, wherein in case that the first predetermined domain comprises a frequency domain resource allocation indication domain, the state of the frequency domain resource allocation indication domain in the first predetermined domain comprises at least one of: all set 1 or all set 0.

27. The method of claim 13, further comprising:

and under the condition of a carrier aggregation scene, determining carrier grouping information, wherein the carrier grouping information indicates the corresponding relation between different carriers and carrier group serial numbers.

28. The method of claim 27, wherein the determining carrier grouping information comprises:

receiving sixth information, and determining carrier grouping information based on the sixth information, wherein the sixth information is set to indicate the carrier grouping information; or the like, or, alternatively,

and extracting carrier packet information in the configuration information.

29. The method of claim 27, wherein processing the corresponding scheduling-free transmission resource according to the first information comprises:

under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources and the format of the first information is a first type of format, determining a first target carrier corresponding to the state of a carrier indication domain in the first information according to the state of the carrier indication domain in the first information and the carrier grouping information, and deactivating the scheduling-free transmission resources on the first target carrier, wherein the first information in the first type of format comprises the carrier indication domain, and the state of the carrier indication domain in the first information indicates the carrier group number;

under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources and the format of the first information is a first type of format, determining a second target carrier corresponding to the state of the carrier indication domain in the first information and the state of a second preset domain according to the state of the carrier indication domain in the first information, the state of the second preset domain and the carrier grouping information, and deactivating the scheduling-free transmission resources on the second target carrier, wherein the state of the carrier indication domain in the first information and the state of the second preset domain indicate a carrier group number;

under the condition that the first information is information for deactivating the multiple sets of scheduling-free transmission resources and the format of the first information is a second type of format, determining a third target carrier corresponding to the state of a third preset domain in the first information according to the state of the third preset domain in the first information and the carrier grouping information, and deactivating the scheduling-free transmission resources on the third target carrier, wherein the state of the third preset domain in the first information indicates the carrier group number;

and under the condition that the first information is information for activating the multiple sets of scheduling-free transmission resources and the format of the first information is a first type of format, determining a fourth target carrier corresponding to the state of a carrier indication domain in the first information according to the state of the carrier indication domain in the first information and the carrier grouping information, and activating the scheduling-free transmission resources on the fourth target carrier, wherein the first information in the first type of format comprises the carrier indication domain, and the state of the carrier indication domain in the first information indicates the carrier group number.

30. The method of claim 13, further comprising:

under the condition that a carrier aggregation scene, the first information are information for deactivating the multiple sets of scheduling-free transmission resources, and the format of the first information is a second type of format, extracting joint grouping information of the carriers and the scheduling-free transmission resources included in the configuration information, wherein the joint grouping information indicates the corresponding relation among the carriers, the scheduling-free transmission resources and a joint group sequence number, and the joint group sequence number is indicated by the state of a bit field for deactivation in the first information.

31. The method of claim 30, wherein processing the corresponding scheduling-free transmission resource according to the first information comprises:

according to the state of the bit field for deactivation in the first information and the joint grouping information, determining a fifth target carrier corresponding to the state of the bit field for deactivation in the first information and a corresponding first scheduling-free transmission resource, and deactivating the first scheduling-free transmission resource on the fifth target carrier.

32. The method of claim 13, further comprising:

and under the condition that a carrier aggregation scene and the first information are set to indicate scheduling-free transmission resources activated in the multiple sets of scheduling-free transmission resources, and the format of the first information is a second type of format, extracting joint grouping information of the carriers and the scheduling-free transmission resources included in the configuration information, wherein the joint grouping information indicates the corresponding relation among the carriers, the scheduling-free transmission resources and a joint group sequence number, and the joint group sequence number is indicated by the state of a bit field used for activation in the first information.

33. The method of claim 32, wherein processing the corresponding scheduling-free transmission resource according to the first information comprises:

according to the state of the bit field used for activation in the first information and the joint grouping information, determining a sixth target carrier corresponding to the state of the bit field used for activation in the first information and a corresponding second scheduling-free transmission resource, and activating the second scheduling-free transmission resource on the sixth target carrier.

34. The method according to claim 13, wherein in case that the first information is set as a scheduling-free transmission resource indicating deactivation among the plurality of sets of scheduling-free transmission resources, further comprising:

and receiving activation information, wherein the activation information is information for activating the plurality of sets of scheduling-free transmission resources.

35. An apparatus for scheduling-free transmission resource configuration, comprising:

the system comprises a sending module and a receiving module, wherein the sending module is set to send configuration information of a plurality of sets of scheduling-free transmission resources, the configuration information comprises parameters of the distributed plurality of sets of scheduling-free transmission resources, and the sending module is also set to send first information, and the first information is information for activating or deactivating the plurality of sets of scheduling-free transmission resources.

36. An apparatus for scheduling-free transmission resource configuration, comprising:

a receiving module, configured to receive configuration information of a plurality of sets of scheduling-free transmission resources, and further configured to receive first information, where the configuration information includes parameters of the plurality of sets of scheduling-free transmission resources that are allocated, and the first information is information that activates or deactivates the plurality of sets of scheduling-free transmission resources;

and the processor is configured to process the corresponding scheduling-free transmission resource according to the first information.

37. A transmitting device, comprising:

one or more processors;

storage means for storing one or more programs;

when executed by the one or more processors, cause the one or more processors to implement the method of configuring scheduling free transmission resources of any of claims 1-12.

38. A receiving device, comprising:

one or more processors;

storage means for storing one or more programs;

when executed by the one or more processors, cause the one or more processors to implement the method of configuring scheduling free transmission resources of any of claims 13-35.

39. A storage medium, characterized in that the storage medium stores a computer program which, when executed by a processor, implements the method of configuring scheduling-free transmission resources of any of claims 1-35.

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