CN106162734B - Resource configuration method and device - Google Patents
Resource configuration method and device Download PDFInfo
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- CN106162734B CN106162734B CN201510208496.6A CN201510208496A CN106162734B CN 106162734 B CN106162734 B CN 106162734B CN 201510208496 A CN201510208496 A CN 201510208496A CN 106162734 B CN106162734 B CN 106162734B
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Abstract
The invention provides a resource configuration method and a resource configuration device, wherein the method comprises the following steps: a terminal receives resource configuration information transmitted by one or more air interfaces from a control unit, wherein the resource configuration information is used for indicating air interface transmission resources from equipment D2D; and the terminal continuously sends one or more message data according to one or more air interface transmission resources. The invention solves the problem that the related D2D discovery mechanism can not carry the discovery message of R13 when the terminal needs to send the discovery message of R13 continuously and periodically in the related art.
Description
Technical Field
The present invention relates to the field of communications, and in particular, to a resource configuration method and apparatus.
Background
With the development of wireless multimedia services, on one hand, the demands of people for high data rate and user experience are increasing; on the other hand, application scenarios such as public safety, social networking, near field data sharing, local advertising and the like have increased the demand for Proximity Services (PS) or Services called single edge connectivity (Sidelink) Services, which are Services that know and communicate with nearby people or things. As such, high demands are placed on the system capacity and coverage of conventional cellular networks.
However, conventional base station-centric cellular networks have significant limitations in terms of high data rate and proximity service support, and against this demand, Device-to-Device (D2D) technology has emerged as a new direction for future communication technology. The application of the D2D technology can reduce the burden of the cellular network, reduce the battery power consumption of the user equipment, increase the data rate, and improve the robustness of the network infrastructure, and well meet the requirements of the high data rate service and the proximity service.
Fig. 1 is a schematic diagram of direct discovery/communication performed by a D2D UE in the related art, and as shown in fig. 1, the D2D technology may operate in a licensed frequency band or an unlicensed frequency band, and allows a plurality of User equipments supporting D2D, i.e., D2D User equipments (D2D User Equipment, referred to as D2D UE), to perform direct discovery/direct communication with or without network infrastructure. Currently, there are three main application scenarios of D2D: one is that the UE1 and the UE2 interact with data under the coverage of a cellular network, and the user plane data does not pass through the network infrastructure, as shown in mode 1 in fig. 1; alternatively, as shown in mode 2 in fig. 1, for the UE4 under the first terminal transmission of the UE in the weak/no coverage area, the UE4 with poor signal quality is allowed to communicate with the network through the UE3 with network coverage nearby, which can help the operator to expand coverage and increase capacity; also, as shown in mode 3 of fig. 1, in case of earthquake or emergency, the cellular network cannot work normally, and direct communication between devices is allowed, and the control plane and the user plane between the UE5, UE6 and UE7 do not go through the network infrastructure and perform one-hop or multi-hop data communication.
The D2D technology generally includes D2D discovery technology and D2D communication technology. The D2D discovery technology is a technology for determining whether a first user equipment is adjacent to a second user equipment, and generally, a D2D UE can discover each other by transmitting or receiving a discovery signal; the D2D communication technology refers to a technology in which some or all of communication data between D2D user devices may be communicated directly without passing through a network infrastructure. The interface used by the terminal to directly communicate with the terminal using the D2D technology is a PC5 interface, and the interface used by the terminal to communicate with the serving base station is referred to as a Uu interface.
Before D2D discovery or D2D communication is performed by a D2D UE, first, corresponding radio resources need to be acquired respectively, and according to the progress of a related 3GPP standard conference, no matter the radio resources are acquired in D2D discovery or D2D communication, there are two resource allocation manners, that is, resources are acquired based on a manner that the UE selects to acquire resource allocation (herein, referred to as a first resource allocation manner for short) or dedicated resources are scheduled and allocated by a base station for the UE (herein, referred to as a second resource allocation manner for short) to perform D2D discovery or D2D communication. The first resource allocation method generally pre-allocates a D2D resource pool by a base station or a system, monitors the resource pool by a UE participating in D2D discovery or D2D communication, or a Proximity Service based UE (ProSe UE for short), and acquires radio resources by selecting a resource allocation method by the UE; and the base station allocates the appropriate wireless resources to the ProSe UE according to the request of the ProSe UE in the second resource allocation mode.
From the perspective of public security, the public safety network system needs to provide multimedia and other service means for the first responder to complete the task, and has the functions of single-point communication and intra-group communication. Specifically, the D2D communication of the public safety scenario includes the following types: unicast, multicast, broadcast. Unicast refers to a one-to-one communication mode between D2D user devices, whereas multicast and broadcast are one-to-many communication modes for D2D user devices. Unicast communication can be regarded as a special form of multicast communication, e.g. only two user equipments are included in a D2D communication group, in which case D2D multicast communication is equivalent to unicast communication. Meanwhile, the communication requirement of the public safety scene has strong robustness, and the service can still be provided to the maximum extent under the condition that the current communication resources are in shortage or are congested or the network infrastructure is paralyzed. Public safety therefore requires that D2D communication not only operate in a network coverage scenario, but also in a partial coverage and non-network coverage scenario. In the non-network coverage scenario, the D2D ues may operate in a self-organizing manner, or in the non-coverage environment, some D2D ues may be selected as Central nodes (referred to as "CN"), and the Central nodes provide functions similar to those of the base station. In order to make D2D communication better performable, the terminal often needs to discover the existence of other terminals first before performing D2D communication, so that the D2D discovery in public safety scenarios also requires support for working in partial coverage and no network coverage scenarios. In the related art, only one discovery message for advertisement is defined in R12, and a fixed-size resource block is used to carry a discovery message no larger than 232 bits. Since a new discovery message is defined in R13, and the message may be larger than 232bits, the related mechanism cannot carry the discovery message defined by R13.
In the related art, an effective solution has not been proposed so far to solve the problem that the related D2D discovery mechanism cannot carry the discovery message of R13 when the terminal needs to send the discovery message of R13 for a continuous period.
Disclosure of Invention
The main objective of the present invention is to provide a resource configuration method and apparatus, so as to at least solve the problem in the related art that when a terminal needs to send a discovery message of R13 for a continuous period, a related D2D discovery mechanism cannot carry the discovery message of R13.
According to an aspect of the present invention, there is provided a resource configuration method, including: a terminal receives resource configuration information transmitted by one or more air interfaces from a control unit, wherein the resource configuration information is used for indicating air interface transmission resources from equipment D2D; and the terminal continuously sends one or more message data according to the one or more air interface transmission resources.
Further, the resource configuration information is semi-persistent scheduling configuration information, where the configuration information of the semi-persistent scheduling resource includes: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
Further, the resource configuration information includes: indication information of resource type, indication information of resource identification, indication information of resource period, indication information of resource size, and indication information of power level of resource.
Further, the terminal continuously sending one or more message data according to the one or more air interface transmission resources includes: the terminal continuously transmits one or more D2D messages through a D2D discovery channel or a D2D communication channel, wherein the D2D messages include: D2D communication message, D2D discovery message.
Further, before the terminal receives resource configuration information transmitted over one or more air interfaces from the control unit, the method further includes: the terminal sends indication information to the control unit, wherein the indication information is used for indicating that the terminal needs to send the D2D message.
Further, the indication information includes: first indication information indicating an interest in transmitting the D2D message, or second indication information indicating a resource requesting scheduling of transmission of the D2D message, or third indication information indicating the D2D message type.
Further, the first indication information or the second indication information includes: indication information of the D2D message type, indication information of the D2D message identification, indication information of the D2D message index, indication information of the D2D message period index, indication information of the D2D message size, indication information of the power level of the D2D message, and discovery range level information of the D2D message.
Further, the D2D message includes: a relay UE-to-network relay discovery message from a terminal to a network, a relay UE-to-UE relay discovery message from a terminal to a terminal, a group member discovery message, a temporary mobile group identity TMGI discovery message, a cell ID identification message, a type R12 discovery message, a type R13 discovery message.
Further, after the terminal continuously transmits one or more message data according to the resources transmitted over the one or more air interfaces, the method further includes: the terminal sends fourth indication information which is not interested in sending the D2D message to the control unit; the terminal receives first resource release information of the control unit responding to the fourth indication information; the terminal releases the resources indicated by the first resource release information; wherein the first resource release information includes: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
Further, after the terminal continuously transmits data according to the transmission resources of the one or more air interfaces, the method further includes: the terminal receives second resource release information sent by the control unit; the terminal releases the resources indicated by the second resource release information; wherein the second resource release information includes: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
Further, before the terminal sends the indication information to the control unit, the method further includes: the terminal receives resource information sent by the control unit through broadcast signaling or radio link control (RRC) dedicated signaling, wherein the resource information comprises at least one of the following: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
Further, the terminal sending the indication information to the control unit includes: and the terminal sends discovery message index indication information corresponding to the discovery message resource information characteristics to the control unit.
Further, before the terminal sends the indication information to the control unit, the method includes: the terminal pre-configures configuration information of a plurality of discovery messages, wherein the configuration information comprises: the message comprises type indication information of the message, index indication information of the message, size indication information of the message, period indication information of the message, power level indication information of the message and discovery range level indication information of the message.
According to another aspect of the present invention, there is provided a resource configuration method, including: the control unit sends resource configuration information of one or more air interface transmissions to the terminal, where the resource configuration information is used to indicate an air interface transmission resource from the device to the device D2D, and the air interface transmission resource is used to continuously send one or more message data that needs to be sent.
Further, the resource configuration information is semi-persistent scheduling configuration information, where the configuration information of the semi-persistent scheduling resource includes: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
Further, the resource configuration information includes: indication information of resource type, indication information of resource identification, indication information of resource period, indication information of resource size, and indication information of power level of resource.
Further, before the control unit sends the resource configuration information transmitted over one or more air interfaces to the terminal, the method includes: the control unit receives indication information sent by the terminal, wherein the indication information is used for indicating that the terminal needs to send a D2D message, and the D2D message comprises: D2D communication information, D2D discovery message.
Further, the indication information includes: first indication information indicating an interest in transmitting the D2D message, or second indication information indicating a resource requesting scheduling of transmission of the D2D message, or third indication information indicating the D2D message type.
Further, the first indication information or the second indication information includes: indication information of the D2D message type, indication information of the D2D message identification, indication information of the D2D message index, indication information of the D2D message period index, indication information of the D2D message size, indication information of the power level of the D2D message, and discovery range level information of the D2D message.
Further, after the terminal continuously transmits one or more message data according to the one or more air interface transmission resources, the method further includes: the control unit receives fifth indication information which is sent by the terminal and is not interested in sending the specified discovery message; and the control unit sends third resource release information responding to the fifth indication information to the terminal, wherein the third resource release information is used for indicating the terminal to release the resources indicated by the third resource release information.
Further, after the terminal continuously transmits one or more message data according to the one or more air interface transmission resources, the method further includes: and the control unit sends fourth resource release information to the terminal, wherein the fourth resource release information is used for indicating the terminal to release the resource indicated by the fourth resource release information.
Further, before receiving the indication information sent by the terminal, the method further includes: the control unit sends resource information to the terminal through broadcast signaling or radio link control (RRC) dedicated signaling, wherein the resource information comprises at least one of the following: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
According to another aspect of the present invention, there is provided an apparatus for configuring a resource, located at a terminal side, including: a first receiving module, configured to receive resource configuration information transmitted over one or more air interfaces from a control unit, where the resource configuration information is used to indicate air interface transmission resources from a device to a device D2D; a first sending module, configured to continuously send one or more message data according to the one or more air interface transmission resources.
Further, the resource configuration information is semi-persistent scheduling configuration information, where the configuration information of the semi-persistent scheduling resource includes: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
Further, the resource configuration information includes: indication information of resource type, indication information of resource identification, indication information of resource period, indication information of resource size, and indication information of power level of resource.
Further, the first sending module is further configured to continuously send one or more D2D messages by the terminal through a D2D discovery channel or a D2D communication channel, wherein the D2D message includes: D2D communication message, D2D discovery message.
Further, before the terminal receives the resource configuration information transmitted over one or more air interfaces from the control unit, the apparatus further includes: a second sending module, configured to send indication information to the control unit, where the indication information is used to indicate that the terminal needs to send the D2D message.
Further, the indication information includes: first indication information indicating an interest in transmitting the D2D message, or second indication information indicating a resource requesting scheduling of transmission of the D2D message, or third indication information indicating the D2D message type.
Further, the first indication information or the second indication information includes: indication information of the D2D message type, indication information of the D2D message identification, indication information of the D2D message index, indication information of the D2D message period index, indication information of the D2D message size, indication information of the power level of the D2D message, and discovery range level information of the D2D message.
Further, the D2D message includes: a relay UE-to-network relay discovery message from a terminal to a network, a relay UE-to-UE relay discovery message from a terminal to a terminal, a group member discovery message, a temporary mobile group identity TMGI discovery message, a cell ID identification message, a type R12 discovery message, a type R13 discovery message.
Further, after the terminal continuously transmits one or more message data according to the resource transmitted over the one or more air interfaces, the apparatus further includes: a third sending module, configured to send, to the control unit, fourth indication information that is not interested in sending the D2D message; a second receiving module, configured to receive first resource release information of the control unit in response to the fourth indication information; a first release module, configured to release the resource indicated by the first resource release information; wherein the first resource release information includes: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
Further, after the terminal continuously transmits data according to the transmission resources of the one or more air interfaces, the apparatus further includes: a third receiving module, configured to receive second resource release information sent by the control unit; a second release module, configured to release the resource indicated by the second resource release information; wherein the second resource release information includes: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
Further, before the terminal sends the indication information to the control unit, the apparatus further includes: a fourth receiving module, configured to receive resource information sent by the control unit through a broadcast signaling or a radio link control RRC dedicated signaling, where the resource information includes at least one of: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
Further, the second sending module is further configured to send, by the terminal to the control unit, discovery message index indication information corresponding to the discovery message resource information feature.
Further, before the terminal sends the indication information to the control unit, the apparatus further includes: a provisioning module, configured to provision configuration information of a plurality of discovery messages to the terminal, wherein the configuration information includes: the message comprises type indication information of the message, index indication information of the message, size indication information of the message, period indication information of the message, power level indication information of the message and discovery range level indication information of the message.
According to still another aspect of the present invention, there is provided a resource configuration apparatus, located on a control unit side, including: a fourth sending module, configured to send resource configuration information of one or more air interface transmissions to the terminal, where the resource configuration information is used to indicate an air interface transmission resource from the device to the device D2D, and the air interface transmission resource is used to continuously send one or more message data that needs to be sent.
Further, the resource configuration information is semi-persistent scheduling configuration information, where the configuration information of the semi-persistent scheduling resource includes: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
Further, the resource configuration information includes: indication information of resource type, indication information of resource identification, indication information of resource period, indication information of resource size, and indication information of power level of resource.
Further, before sending resource configuration information transmitted over one or more air interfaces to the terminal, the apparatus further includes: a fifth receiving module, configured to receive indication information sent by the terminal, where the indication message is used to indicate that the terminal needs to send a D2D message, and the D2D message includes: D2D communication information, D2D discovery message.
Further, the indication information includes: first indication information indicating an interest in transmitting the D2D message, or second indication information indicating a resource requesting scheduling of transmission of the D2D message, or third indication information indicating the D2D message type.
Further, the first indication information or the second indication information includes: indication information of the D2D message type, indication information of the D2D message identification, indication information of the D2D message index, indication information of the D2D message period index, indication information of the D2D message size, indication information of the power level of the D2D message, and discovery range level information of the D2D message.
Further, after the terminal continuously transmits one or more message data according to the one or more air interface transmission resources, the apparatus further includes: a sixth receiving module, configured to receive fifth indication information that is sent by the terminal and is not interested in sending the specific discovery message; a fifth sending module, configured to send third resource release information in response to the fifth indication information, where the third resource release information is used to instruct the terminal to release the resource indicated by the third resource release information.
Further, after the terminal continuously transmits one or more message data according to the one or more air interface transmission resources, the apparatus further includes: a sixth sending module, configured to send fourth resource release information to the terminal, where the fourth resource release information is used to instruct the terminal to release the resource indicated by the fourth resource release information.
Further, before the terminal sends the indication information to the control unit, the apparatus further includes: a seventh sending module, configured to send resource information to the terminal through broadcast signaling or radio link control RRC dedicated signaling, where the resource information includes at least one of: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
According to the invention, the control unit can send a plurality of resource configuration information to the terminal, and after the terminal acquires the resource configuration, each or a plurality of message data can be sent by using the configured resource blocks continuously according to the configured period, so that the problem that the related D2D discovery mechanism cannot bear the discovery message of R13 when the terminal needs to send the discovery message of R13 continuously for a period in the related art is solved, and the effect of improving the efficiency is further achieved.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:
fig. 1 is a diagram of direct discovery/communication by a D2D UE according to the related art;
FIG. 2 is a first flowchart of a resource configuration method according to an embodiment of the present invention;
FIG. 3 is a flow chart of a resource configuration method according to an embodiment of the invention;
FIG. 4 is a block diagram of a resource configuration apparatus according to an embodiment of the present invention;
FIG. 5 is a block diagram of a resource configuration apparatus according to an embodiment of the present invention;
FIG. 6 is a flow chart of a resource allocation method according to alternative embodiment 1 of the present invention;
FIG. 7 is a flowchart of a resource allocation method according to alternative embodiment 2 of the present invention;
FIG. 8 is a flowchart of a resource allocation method according to alternative embodiment 5 of the present invention;
FIG. 9 is a flowchart of a resource allocation method according to alternative embodiment 7 of the present invention;
FIG. 10 is a flowchart of a resource allocation method according to alternative embodiment 8 of the invention;
fig. 11 is a flowchart of a resource allocation method according to an alternative embodiment 11 of the present invention.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.
In order to realize the function of D2D discovery for public security in partial coverage and out-of-coverage scenarios, multiple discovery message types are added in R13, including UE-to-network relay discovery messages, UE-to-UE relay discovery messages, Group member discovery messages, Temporary Mobile Group Identity (TMGI) discovery messages, and the like, the sizes of these discovery messages are not uniform, and the amount of information required to be included in part of the discovery messages is greater than 232bits, but only one discovery message for advertisement is defined in the related D2D discovery technology, and a fixed-size resource block is used to carry discovery messages that are not greater than 232 bits. Therefore, the discovery message of R13 cannot be carried with the related D2D discovery mechanism. Another solution in the related art is to use a D2D communication channel to carry the discovery message of R13, when a terminal needs to send the discovery message each time, the terminal needs to apply for resources to a control unit, the control unit dynamically schedules resources for the terminal, if the terminal needs to send the discovery message in a continuous period, the terminal needs to send a resource application in a continuous period, the control unit also needs to send a resource in a continuous period, the control unit also needs to dynamically schedule resources for the terminal, and if the terminal needs to send N discovery messages, the above procedure also needs to be executed N times independently, which is very inefficient. In view of the above problems, the following describes how to solve the above problems in combination with embodiments and alternative embodiments of the present invention.
The present embodiment provides a resource allocation method, and fig. 2 is a first flowchart of a resource allocation method according to an embodiment of the present invention, as shown in fig. 2, the method includes the steps of:
step S202: a terminal receives resource configuration information transmitted by one or more air interfaces from a control unit, wherein the resource configuration information is used for indicating air interface transmission resources from equipment D2D;
step S204: and the terminal continuously sends one or more message data according to one or more air interface transmission resources.
Through step S202 and step S204 in this embodiment, the control unit may send a plurality of resource configuration information to the terminal, and after the terminal acquires the resource configuration, the terminal may continuously use the configured resource blocks to send each or a plurality of message data according to the configured period, thereby solving the problem that, in the related art, when the terminal needs to continuously send the discovery message of R13 periodically, the related D2D discovery mechanism cannot carry the discovery message of R13, and further achieving the effect of improving efficiency.
For the resource configuration information related in this embodiment, in an optional implementation manner of this embodiment, the resource configuration information may be semi-persistent scheduling configuration information, where the configuration information of the semi-persistent scheduling resource includes: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
In another optional implementation manner of this embodiment, the resource configuration information may also include: indication information of resource type, indication information of resource identification, indication information of resource period, indication information of resource size, and indication information of power level of resource.
In this embodiment, the manner in which the terminal in step S204 continuously transmits one or more message data according to one or more air interface transmission resources may be implemented by the following manner: the terminal continuously transmits one or more D2D messages through a D2D discovery channel or a D2D communication channel, wherein the D2D messages include: D2D communication message, D2D discovery message.
In addition, in another optional implementation manner of this embodiment, that is, before the terminal receives the resource configuration information transmitted over one or more air interfaces from the control unit, the method of this embodiment may further include:
step S206: the terminal sends indication information to the control unit, wherein the indication information is used for indicating that the terminal needs to send the D2D message.
And for the above mentioned indication information may be: the D2 message sending method comprises first indication information used for indicating that the D2D message is interested to be sent, or second indication information used for indicating that D2D message resources are requested to be scheduled to be sent, or third indication information used for indicating the type of the D2D message.
Wherein the first indication information or the second indication information includes: indication information of a D2D message type, indication information of a D2D message identification, indication information of a D2D message index, indication information of a D2D message period index, indication information of a D2D message size, indication information of a power level of a D2D message, and discovery range level information of a D2D message.
The discovery message in the present embodiment includes but is not limited to: a relay UE-to-network relay discovery message from a terminal to a network, a relay UE-to-UE relay discovery message from a terminal to a terminal, a group member discovery message, a temporary mobile group identity TMGI discovery message, a cell ID identification message, a type R12 discovery message, a type R13 discovery message.
As can be seen from the above, in the method of this embodiment, one or more data messages may be continuously transmitted to the air interface transmission resource configured by the terminal through the control unit; when the message for transmitting one or more data messages needs to be released, that is, after the terminal continuously transmits one or more message data according to the resource transmitted by one or more air interfaces, the method of this embodiment further includes:
step S11: the terminal sends fourth indication information to the control unit, which is not interested in sending the D2D message;
step S12: the terminal receives first resource release information of the control unit responding to the fourth indication information;
step S13: and the terminal releases the resources indicated by the first resource release information.
In another optionally implemented manner of releasing resources in this embodiment, after the terminal continuously transmits data according to the transmission resources of one or more air interfaces, the method further includes:
step S22: the terminal receives second resource release information sent by the control unit;
step S23: the terminal releases the resource indicated by the second resource release information
Wherein the first resource release information and the second resource release information include: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
As can be seen from the foregoing manner of this embodiment, the indication information is sent to the control unit by the terminal, and then the control unit sends the configuration information to the terminal, where the configuration information is used to configure one or more air interface transmission resources for the terminal. In order to make the indication function of the indication information more clear, before the terminal sends the indication information to the control unit, the following two methods are adopted in the optional implementation of this embodiment:
the first method is as follows: the terminal receives resource information sent by a control unit through broadcast signaling or radio link control RRC dedicated signaling, wherein the resource information comprises at least one of the following: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
Based on the foregoing control unit sending the resource information to the terminal, the sending, by the terminal in this embodiment, the indication information to the control unit includes: the terminal transmits discovery message index indication information corresponding to the discovery message resource information characteristic to the control unit. That is, the terminal may directly transmit the index information to the control unit, and the control unit may know the attribute of the discovery message that the terminal needs to transmit according to the index information.
The second method comprises the following steps: the terminal pre-configures configuration information of a plurality of discovery messages, wherein the configuration information comprises: the message comprises type indication information of the message, index indication information of the message, size indication information of the message, period indication information of the message, power level indication information of the message and discovery range level indication information of the message.
That is, the terminal is configured with the configuration information of the discovery message in advance, and the control unit can be directly informed of which type the discovery message is of interest to the terminal.
Fig. 3 is a flowchart ii of a resource configuration method according to an embodiment of the present invention, and as shown in fig. 3, the method includes the steps of:
step S304: the control unit sends resource configuration information of one or more air interface transmissions to the terminal, where the resource configuration information is used to indicate an air interface transmission resource from the device to the device D2D, and the air interface transmission resource is used to continuously send one or more message data to be sent.
The resource configuration information related to this embodiment may be semi-persistent scheduling configuration information, where the configuration information of the semi-persistent scheduling resource includes: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
In addition, the resource configuration information may also include: indication information of resource type, indication information of resource identification, indication information of resource period, indication information of resource size, and indication information of power level of resource.
Before step S304 in this embodiment, that is, before the control unit sends resource configuration information transmitted over one or more air interfaces to the terminal, this embodiment may further include:
step S302: the control unit receives indication information sent by the terminal, wherein the indication information is used for indicating that the terminal needs to send a D2D message, and the D2D message comprises: D2D communication information, D2D discovery message.
Wherein the indication information includes: the D2 message sending method comprises first indication information used for indicating that the D2D message is interested to be sent, or second indication information used for indicating that D2D message resources are requested to be scheduled to be sent, or third indication information used for indicating the type of the D2D message.
And the first indication information or the second indication information comprises: indication information of a D2D message type, indication information of a D2D message identification, indication information of a D2D message index, indication information of a D2D message period index, indication information of a D2D message size, indication information of a power level of a D2D message, and discovery range level information of a D2D message.
When the air interface resources for transmitting one or more data messages need to be released, the following two manners may be adopted in this embodiment, that is, after the terminal continuously transmits one or more message data according to one or more air interface transmission resources, the first manner includes:
step S31: the control unit receives fifth indication information which is sent by the terminal and is not interested in sending the specified discovery message;
step S32: and the control unit sends third resource release information responding to the fifth indication information to the terminal, wherein the third resource release information is used for indicating the terminal to release the resources indicated by the third resource release information.
The step of the second mode comprises:
step S41: and the control unit sends fourth resource release information to the terminal, wherein the fourth resource release information is used for indicating the terminal to release the resource indicated by the fourth resource release information.
Before receiving the indication information sent by the terminal, the method of this embodiment may further include:
the control unit sends resource information to the terminal through broadcast signaling or radio link control (RRC) dedicated signaling, wherein the resource information comprises at least one of the following: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
In this embodiment, a resource configuration device is further provided, and the device is used to implement the foregoing embodiments and optional embodiments, which have already been described and are not described again. As used below, the term "module" may be a combination of software and/or hardware that implements a predetermined function. Although the means described in the embodiments below are preferably implemented in software, an implementation in hardware, or a combination of software and hardware is also possible and contemplated.
Fig. 4 is a block diagram of a resource allocation apparatus according to an embodiment of the present invention, which is located on a terminal side, as shown in fig. 4, the apparatus includes: a first receiving module 42, configured to receive resource configuration information transmitted over one or more air interfaces from a control unit, where the resource configuration information is used to indicate air interface transmission resources from a device to a device D2D; a first sending module 44, coupled to the first receiving module 42, configured to continuously send one or more message data according to one or more air interface transmission resources.
Optionally, the resource configuration information is semi-persistent scheduling configuration information, where the configuration information of the semi-persistent scheduling resource includes: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource. Or, the resource configuration information may also include: indication information of resource type, indication information of resource identification, indication information of resource period, indication information of resource size, and indication information of power level of resource.
Optionally, the first sending module is further configured to continuously send, by the terminal, one or more D2D messages through the D2D discovery channel or the D2D communication channel, where the D2D message includes: D2D communication message, D2D discovery message.
Optionally, before the terminal receives the resource configuration information transmitted over one or more air interfaces from the control unit, the apparatus further includes: the second sending module is coupled with the first receiving module and used for sending indication information to the control unit, wherein the indication information is used for indicating that the terminal needs to send a D2D message; wherein, the indication information may include: the D2 message sending method comprises first indication information used for indicating that the D2D message is interested to be sent, or second indication information used for indicating that D2D message resources are requested to be scheduled to be sent, or third indication information used for indicating the type of the D2D message.
The first indication information or the second indication information includes: indication information of a D2D message type, indication information of a D2D message identification, indication information of a D2D message index, indication information of a D2D message period index, indication information of a D2D message size, indication information of a power level of a D2D message, and discovery range level information of a D2D message.
Optionally, the discovery message comprises: a relay UE-to-network relay discovery message from a terminal to a network, a relay UE-to-UE relay discovery message from a terminal to a terminal, a group member discovery message, a temporary mobile group identity TMGI discovery message, a cell ID identification message, a type R12 discovery message, a type R13 discovery message.
Optionally, after the terminal continuously sends the one or more message data according to the resource transmitted by the one or more air interfaces, the apparatus further includes: a third sending module, coupled to the first sending module, configured to send, to the control unit, fourth indication information that is not interested in sending the D2D message; the second receiving module is coupled with the third sending module and used for receiving first resource release information of the control unit responding to the fourth indication information; and the first releasing module is coupled with the second receiving module and used for releasing the resources indicated by the first resource releasing information.
Optionally, after the terminal continuously transmits data according to the transmission resources of one or more air interfaces, the apparatus further includes: the third receiving module is coupled with the first sending module and used for receiving second resource release information sent by the control unit; and the second releasing module is coupled with the third receiving module and is used for releasing the resources indicated by the second resource releasing information.
Optionally, before the terminal sends the indication information to the control unit, the apparatus further includes: a fourth receiving module, coupled to the second sending module, configured to receive resource information sent by the control unit through a broadcast signaling or a radio link control RRC dedicated signaling, where the resource information includes at least one of: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
Based on the fourth receiving module receiving the resource information sent by the control unit through the broadcast signaling or the radio link control RRC dedicated signaling, optionally, the second sending module is further configured to send, by the terminal, discovery message index indication information corresponding to the discovery message resource information feature to the control unit.
Optionally, before the terminal sends the indication information to the control unit, the apparatus further includes: a provisioning module, coupled to the second sending module, configured to provision configuration information of a plurality of discovery messages to the terminal, where the configuration information includes: the message comprises type indication information of the message, index indication information of the message, size indication information of the message, period indication information of the message, power level indication information of the message and discovery range level indication information of the message.
Fig. 5 is a block diagram of a configuration apparatus of resources according to an embodiment of the present invention, which is located on the control unit side, and as shown in fig. 5, the apparatus includes: a fourth sending module 52, configured to send resource configuration information of one or more air interface transmissions to the terminal, where the resource configuration information is used to indicate an air interface transmission resource from the device to the device D2D, and the air interface transmission resource is used to continuously send one or more message data that needs to be sent.
Optionally, the resource configuration information related in this embodiment is semi-persistent scheduling configuration information, where the configuration information of the semi-persistent scheduling resource includes: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource. Or, the resource configuration information includes: indication information of resource type, indication information of resource identification, indication information of resource period, indication information of resource size, and indication information of power level of resource.
Optionally, before sending the resource configuration information transmitted over one or more air interfaces to the terminal, the apparatus further includes: a fifth receiving module 54, coupled to the fourth sending module 52, configured to receive indication information sent by the terminal, where the indication message is used to indicate that the terminal needs to send a D2D message, and the D2D message includes: D2D communication information, D2D discovery message.
And the indication information includes: the D2 message sending method comprises first indication information used for indicating that the D2D message is interested to be sent, or second indication information used for indicating that D2D message resources are requested to be scheduled to be sent, or third indication information used for indicating the type of the D2D message.
Optionally, the first indication information or the second indication information includes: indication information of a D2D message type, indication information of a D2D message identification, indication information of a D2D message index, indication information of a D2D message period index, indication information of a D2D message size, indication information of a power level of a D2D message, and discovery range level information of a D2D message.
Optionally, after the terminal continuously sends the one or more message data according to the one or more air interface transmission resources, the apparatus further includes: a sixth receiving module, coupled to the fourth sending module, configured to receive fifth indication information that is sent by the terminal and is not interested in sending the specified discovery message; and a fifth sending module, coupled to the sixth receiving module, configured to send third resource release information in response to the fifth indication information, where the third resource release information is used to instruct the terminal to release the resource indicated by the third resource release information.
Optionally, after the terminal continuously sends the one or more message data according to the one or more air interface transmission resources, the apparatus further includes: and a sixth sending module, configured to send fourth resource release information to the terminal, where the fourth resource release information is used to instruct the terminal to release the resource indicated by the fourth resource release information.
Optionally, before the terminal sends the indication information to the control unit, the apparatus further includes: a seventh sending module, configured to send resource information to the terminal through a broadcast signaling or a radio link control RRC dedicated signaling, where the resource information includes at least one of: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
The invention will now be illustrated with reference to an alternative embodiment thereof;
it should be noted that, in the following optional embodiments 1 to 5, the resource applied by the terminal (corresponding to the D2D device in this embodiment) is used to send a D2D air interface message through the D2D discovery channel. In optional embodiments 6 to 12, the resource requested by the terminal is used to send a D2D air interface message through a D2D communication channel. The base station referred to in the following optional example corresponds to the control unit in the present embodiment, and the control unit may also be a relay or a terminal.
Alternative embodiment 1
This alternative embodiment 1 includes: when the terminal indicates interest in the discovery message defined by R13 and also interest in the discovery message defined by R12, the terminal and the base station within the coverage of the base station may send two types of interest indications to the base station, respectively, and the base station allocates resources for sending the discovery message defined by R13 and the discovery message defined by R12, respectively. Fig. 6 is a flowchart of a resource allocation method according to an alternative embodiment 1 of the present invention, and as shown in fig. 6, the method includes the steps of:
step S602a, the terminal sending an indication of interest in the discovery message defined by R12; wherein, the discovery message defined by R12 includes but is not limited to: a commercial message;
step S602b, the terminal sending an indication of interest in the discovery message defined by R13; the discovery message defined by R13 includes: UE-to-network relay discovery message, UE-to-UE relay discovery message, group member discovery message, temporary mobile group identity TMGI discovery message, cell ID identification message.
It should be noted that steps S602a and S6021b are not consecutive.
The terminal can send the indication information interested in the discovery message through a Media Access Control (MAC) layer; or the terminal sends the indication information interested in the discovery message through a Radio Resource Control (RRC) message.
Step S604a, after receiving the interested indication information from the terminal, the base station configures a first discovery message resource for the terminal and sends the resource configuration information to the terminal;
step S604b, after receiving the indication information of interest in the discovery message defined by R13 from the terminal, the base station configures a second discovery message resource for the terminal and sends the resource configuration information to the terminal; further, the resource configuration information is sent to the terminal through an RRC reconfiguration message or physical layer signaling, where the resource configuration information includes, but is not limited to: the information includes period indication information, time indication information, frequency domain indication information, time frequency index indication information, size information of resources, MCS mode used by UE during transmission, and the like.
The steps S604a and S604b are also not consecutive.
A base station or a system pre-allocates a D2D resource pool, and a UE participating in D2D discovery or D2D communication, or a Proximity Service based UE (ProSe UE for short) monitors the resource pool, and acquires radio resources by selecting to acquire resource allocation by the UE; and the base station allocates the appropriate wireless resources to the ProSe UE according to the request of the ProSe UE in the second resource allocation mode.
In step S606, after receiving the resource configuration information, the terminal continuously or periodically transmits the discovery message defined by R12 on the allocated first resource, and continuously or periodically transmits the discovery message defined by R13 on the allocated second resource.
It should be noted that, in this embodiment, only step S602a, step S604a and step S606 may be included.
Alternative embodiment 2
In this alternative embodiment 2, when the terminal indicates that the discovery message defined by R13 is interested, it needs to tell the base station in detail which type of discovery message is specifically interested. The discovery message defined by R13 includes: UE-to-network relay discovery message, UE-to-UE relay discovery message, group member discovery message, TMGI discovery message, cell ID identification message, and the like. And the network side allocates resources for sending the discovery messages for the periods and the resource block sizes of the discovery messages according to the different types of the discovery messages. Fig. 7 is a flowchart of a resource allocation method according to an alternative embodiment 2 of the present invention, and as shown in fig. 7, the method includes the steps of:
step S702, after determining the type of the discovery message that is interested, the terminal reports the type of the discovery message to the base station, for example, the terminal is interested in serving as a UE-to-network relay, and reports the interest indication to the base station.
The terminal can send the indication information interested in the discovery message through the uplink MAC layer; or, the terminal sends the indication information interested in the discovery message through the uplink RRC message.
Step S704, after receiving the indication information from the terminal, the base station configures the discovery message resource for the terminal and sends the resource configuration information to the terminal;
wherein, the resource configuration information is sent to the terminal through an RRC reconfiguration message or a physical layer signaling, where the resource configuration information includes but is not limited to: the method comprises the following steps of period indication information, time indication information, frequency domain indication information, time frequency index indication information, size information of resources, MCS mode used during UE transmission, power level indication, discovery range level indication and other information.
Step S706, after receiving the resource configuration information, the terminal sends a discovery message on the allocated resource.
Wherein the terminal continuously transmits a D2D discovery signal through a D2D discovery channel on the allocated resources; or a D2D discovery signal of a discovery channel period through D2D on the allocated resources;
alternative embodiment 3
In this alternative embodiment 3, the discovery message defined by R13 includes: UE-to-network relay discovery message, UE-to-UE relay discovery message, group member discovery message, TMGI discovery message, cell ID identification message, and the like. When the terminal indicates interest in the discovery message defined by R13, it is not necessary to tell the base station in detail which type of discovery message is of interest. The network side is divided into several types according to different requirements of different types of discovery messages on the period and the size of the resource block, for example, the types include: first type discovery messages, second type discovery messages, etc., that is, the UE only needs to inform the base station which type the discovery message of interest belongs to. The above-mentioned manner can be realized by the following steps:
step S11: after determining the discovery message of interest, the terminal determines which type of message the terminal belongs to, and reports the type of message to the base station, for example, the terminal is interested in serving as a UE-to-network relay, and the type of message belongs to a first type of discovery message, and the terminal reports an indication that the terminal is interested in the first type of discovery message to the base station;
the terminal sends indication information interested in the discovery message through an uplink MAC layer; or, the terminal sends the indication information interested in the discovery message through the uplink RRC message.
The uplink RRC message includes, but is not limited to: UE Assistant Information, UL Information Transfer, mbms Interest Indication, and the like.
Step S12: after receiving the indication information from the terminal, the base station determines the type of the discovery message of the terminal, configures discovery message resources for the terminal, and sends the resource configuration information to the terminal;
wherein, the resource configuration information is sent to the terminal through an RRC reconfiguration message or a physical layer signaling, where the resource configuration information includes but is not limited to: the information includes period indication information, time indication information, frequency domain indication information, time frequency index indication information, size information of resources, MCS mode used by UE during transmission, and the like.
In step S13, after receiving the resource configuration information, the terminal sends a discovery message on the allocated resource.
Wherein the terminal continuously transmits a D2D discovery signal through a D2D discovery channel on the allocated resources; or a D2D discovery signal of a discovery channel period through D2D on the allocated resources;
alternative embodiment 4
In this optional embodiment 4, the base station sends configuration information of multiple discovery messages through broadcast signaling or RRC dedicated signaling.
Step S21: the base station sends configuration information of various discovery messages through broadcast signaling or RRC (radio resource control) special signaling;
wherein the configuration information of the discovery message includes: discovering configuration information of a sending resource pool and/or a receiving resource pool of a message; the configuration information of the sending resource pool and/or the receiving resource pool of the discovery message includes but is not limited to: the resource allocation information comprises period indication information, resource block size indication information, resource type indication information, discovery message type indication information, power level indication, discovery range level indication and the like.
Step S22, the terminal receives the configuration information of the various discovery messages broadcasted by the base station; the terminal determines the type of the discovery message to be sent, selects the corresponding sending resource pool and/or receiving resource pool, and sends and/or receives the discovery message.
Alternative embodiment 5
Fig. 8 is a flowchart of a resource allocation method according to an alternative embodiment 5 of the present invention, and as shown in fig. 8, the method includes the steps of:
step S802: the base station sends configuration information of various discovery messages through broadcast signaling or RRC (radio resource control) special signaling;
the configuration information of the discovery message includes configuration information of a transmission resource pool and/or a reception resource pool of the discovery message. Further, the configuration information of the sending resource pool and/or the receiving resource pool of the discovery message includes, but is not limited to: the resource allocation information comprises period indication information, resource block size indication information, resource type indication information, discovery message type indication information and the like.
Step S804, the terminal receives the configuration information of various discovery messages broadcasted by the base station; the terminal determines the type of the discovery message to be sent, and determines the size of a resource block required by the discovery message and/or a discovery message sending period.
Step S806: the terminal sends the size and/or the period indication information of the discovery message to the base station;
the terminal may send the index information corresponding to the size and/or the period of the discovery message to the base station;
the terminal sends discovery message size and/or period indication information through an uplink MAC layer; or, the terminal sends the size and/or the period indication information of the discovery message through the uplink RRC message; the uplink RRC message includes but is not limited to: UEAsistanceInformation, ULInformationTransfer, mbmsInterestInformation, and the like.
Step S808: the base station configures discovery message resources for the terminal according to the indication information reported by the terminal, and sends the resource configuration information to the terminal;
wherein, the resource configuration information is sent to the terminal through an RRC reconfiguration message or a physical layer signaling, and the resource configuration information includes but is not limited to: the information includes period indication information, time indication information, frequency domain indication information, time frequency index indication information, size information of resources, MCS mode used by UE during transmission, and the like.
Step S810, after receiving the resource configuration information, the terminal sends a discovery message on the allocated resource.
Wherein the terminal continuously transmits a D2D discovery signal through a D2D discovery channel on the allocated resources; or a D2D discovery signal of a discovery channel period through D2D on the allocated resources.
Alternative embodiment 6
In this optional embodiment 6, a protocol defines multiple types of discovery messages, different message types allocate different message identifiers or message index numbers, different types of discovery messages are different in the size of the message or different in the period in which the message needs to be sent, and when a terminal needs to send a discovery message, the terminal applies for scheduling resources to a base station, which may be implemented in the following manner:
in step S31, the terminal transmits a D2D scheduling request to the base station.
Wherein, the resource applied for by the D2D scheduling request may be used for transmitting the D2D discovery message and/or the D2D communication message, and the D2D scheduling request may include, but is not limited to: the method comprises the following steps of message type indication, message identification indication, message index indication, message period index indication and message size indication; the message includes a discovery message, and the terminal may transmit a D2D scheduling request to the base station through the MAC layer.
And step S32, after receiving the D2D scheduling request message, the base station allocates the D2D air interface resource according to the indication of the scheduling request message.
Step S33, after completing resource allocation, the base station sends resource allocation information to the terminal;
the base station sends a physical layer control signaling to the terminal, or the base station sends an RRC (radio resource control) special signaling to the terminal;
the control signaling or RRC-specific signaling includes, but is not limited to: indication information or index information of D2D resources, cycle indication information of D2D resources, resource identifier indication information, temporary identifier of air interface network, power level indication, discovery range level indication, resource allocation establishment indication, and D2D sending semi-persistent configuration information, where the semi-persistent configuration information includes: D2D semi-persistent scheduling air interface network temporary identification, D2D semi-persistent scheduling establishment indication, semi-persistent scheduling resource configuration and semi-persistent scheduling configuration period.
The resource configuration information includes: information such as the position of the D2D resource, the size of the resource, and the MCS scheme used for UE transmission; the D2D resource allocation information may be carried by physical layer signaling or RRC signaling;
wherein the D2D resources include D2D communication control channel resources and/or D2D communication data resources;
step S44, after receiving the resource configuration information, the terminal sends a discovery message on the allocated resource;
wherein the terminal continuously or periodically transmits the D2D discovery message on the D2D communication channel.
Alternative embodiment 7
In this optional embodiment 7, a protocol defines multiple types of discovery messages, different message types allocate different message identifiers or message index numbers, different types of discovery messages are different in the size of the message or different in the period in which the message needs to be sent, and when a terminal needs to send a discovery message, an indication message is sent to a base station, fig. 9 is a flowchart of a resource allocation method according to the optional embodiment 7 of the present invention, and as shown in fig. 9, the method includes the steps of:
in step S902, the terminal transmits indication information of interest in the D2D discovery message. Further, the indication of interest in the D2D discovery message may include, but is not limited to: the method comprises the following steps of message type indication, message identification indication, message index indication, message period index indication, message size indication, power level indication and discovery range level indication. Further, the terminal sends indication information of interest to the D2D discovery message through RRC dedicated signaling.
Step S904, after the base station receives the indication information that the terminal is interested in the D2D discovery message, allocates a D2D air interface resource to the terminal.
Step S906, after completing the resource allocation, the base station sends resource allocation information to the terminal.
Wherein, the step S706 may be that the base station sends a physical layer control signaling to the terminal; or the base station sends RRC-specific signaling to the terminal.
Control signaling or RRC-specific signaling includes, but is not limited to: indicating information or index information of D2D resources, period indicating information of D2D resources, resource identification indicating information, temporary identifiers of air interface networks, power level indication, discovery range level indication, resource allocation establishment indication, and D2D sending semi-persistent configuration information; the semi-persistent configuration information includes: D2D semi-persistent scheduling air interface network temporary identification, D2D semi-persistent scheduling establishment indication, semi-persistent scheduling resource configuration and semi-persistent scheduling configuration period.
Wherein the resource configuration information includes: location of D2D resource, size of resource, MCS scheme used for UE transmission, and the like. The D2D resource allocation information may be carried by physical layer signaling or RRC signaling; the D2D resources include: D2D communication control channel resources, D2D communication data resources.
Step 908, after receiving the resource configuration information, the terminal sends a discovery message on the allocated resource;
wherein the terminal continuously or periodically transmits the D2D discovery message on the D2D communication channel.
Alternative embodiment 8 (Release resources)
In this optional embodiment 8, a protocol defines types of multiple discovery messages, different message types allocate different message identifiers or message index numbers, different types of discovery messages are different in the size of the message or different in the period in which the message needs to be sent, when a terminal no longer needs to send a discovery message, an indication that sending the discovery message is no longer interested is sent to a base station, and then the base station releases resources, fig. 10 is a flowchart of a resource allocation method according to the optional embodiment 8 of the present invention, as shown in fig. 10, the method includes the steps of:
step S1002, the terminal sends the indication information which is not interested to the base station if the terminal is no longer interested in sending some discovery messages.
The uninteresting indication information may include, but is not limited to: the message comprises a message type indication, a message identification indication, a message index indication, a message period index indication and a message size indication. The message may be a discovery message.
And the terminal can send some type of discovery message no-more-interested indication information through an uplink MAC layer or an uplink RRC message. The uplink RRC message includes, but is not limited to: UEAsistanceInformation, ULInformationTransfer, mbmsInterestInformation, and the like.
Step S1004, after receiving the indication that the terminal is no longer interested in sending some discovery messages, the base station sends resource release information to the terminal;
the step S1004 may be that the base station sends a physical layer control signaling to the terminal or the base station sends an RRC dedicated signaling to the terminal, where the physical layer control signaling or the RRC dedicated signaling includes release information of the D2D resource;
the D2D resource release information includes, but is not limited to, any of the following: resource release indication identification, resource identification indication information, air interface network temporary identification, resource cycle identification and resource size identification.
In step S1006, after receiving the resource release message sent by the base station, the terminal determines the released resource, and does not send D2D data by using the resource any more.
Alternative embodiment 9 (Release resources)
In this optional embodiment 9, after allocating a semi-persistently usable D2D air interface resource to the terminal, the base station does not receive indication information fed back by the terminal that the D2D air interface resource is no longer required to be continuously used or is no longer interested, but based on other reasons such as insufficient current system resources or resource conflict, the base station may directly release the D2D air interface resource allocated to the terminal. This approach can be implemented by:
step S41, the base station sends resource release information to the terminal;
in step S41, the base station may send a physical layer control signaling to the terminal or the base station may send an RRC dedicated signaling to the terminal, where the physical layer control signaling or the RRC dedicated signaling includes release information of the D2D resource;
the D2D resource release information includes, but is not limited to, any of the following: resource release indication identification, resource identification indication information, air interface network temporary identification, resource cycle identification and resource size identification.
In step S42, after receiving the resource release message sent by the base station, the terminal determines the released resource and does not send D2D data by using the resource any more.
Alternative embodiment 10
The difference between this optional embodiment 10 and embodiments 5 to 8 is that the base station broadcasts multiple types of discovery messages, different message types are assigned with different message identifiers or message index numbers, and the different types of discovery messages are different in the size of the message or the period in which the message needs to be sent.
Step S51: the base station broadcasts various D2D message resource configuration information;
the D2D resource configuration information includes, but is not limited to: a message type indication, a message identification indication, a message period indication, a message resource size indication, a power level indication for a message, a discovery range level indication for a message, etc. Further, the message comprises a discovery message.
It should be noted that the subsequent steps of this alternative embodiment 10 are similar to those of embodiments 5 to 7.
Alternative embodiment 11
In this optional embodiment 11, the terminal needs to send multiple discovery messages, for example, the terminal is interested in a relay as a UE-to-network, wants to send the discovery message as the relay, and at the same time, the terminal also wants to send an advertisement message, and then the terminal needs to apply for multiple resources for sending a D2D signal, fig. 11 is a flowchart of a resource allocation method according to the optional embodiment 11 of the present invention, as shown in fig. 11, the method includes the steps of:
in step S1102a, the terminal transmits indication information interested in transmitting the D2D advertisement message.
In step S1102b, the terminal transmits indication information that is of interest as a relay.
The indication information interested in the D2D advertisement message or interested in being a relay may include, but is not limited to: a message type indication, a message identification indication, a discovery message index indication, a message period index indication, a message size indication. The terminal may send indication information of interest in the D2D discovery message via RRC proprietary signaling.
In step S1104, after receiving the indication information of interest in the D2D advertisement message and interest in relay sent by the terminal, the base station allocates D2D air interface resources to the terminal, respectively.
Step S1106, after completing resource allocation, the base station sends resource allocation information to the terminal;
wherein, in the step S1106, the base station may send a physical layer control signaling to the terminal; or the base station sends RRC special signaling to the terminal;
the base station sends two sets of D2D resource allocation information, including first resource allocation information and second resource allocation information, and the base station may send the two types of D2D resource allocation information through one RRC signaling or through two RRC signaling.
The first resource allocation information and the second resource allocation information include, but are not limited to: indication information or index information of D2D resources, cycle indication information of D2D resources, resource identification indication information, and air interface network temporary identifications; and/or a power level indication, a discovery range level indication, a resource allocation establishment indication, D2D sending semi-persistent configuration information; the semi-persistent configuration information includes: D2D semi-persistent scheduling air interface network temporary identification, D2D semi-persistent scheduling establishment indication, semi-persistent scheduling resource configuration and semi-persistent scheduling configuration period.
The resource configuration information includes: location of D2D resource, size of resource, MCS scheme used for UE transmission, and the like. The D2D resource allocation information may be carried by physical layer signaling or RRC signaling.
The D2D resources include: the D2D communication control channel resources and/or D2D data resources.
Step S1108, after receiving the resource configuration information, the terminal sends a corresponding discovery message on the allocated resource.
Wherein the terminal transmits the D2D advertisement message on the resource indicated by the first resource configuration information, and the terminal transmits the relay discovery message on the resource indicated by the second resource configuration information.
Alternative embodiment 12
In this optional embodiment 12, the terminal needs to send multiple discovery messages, for example, the terminal is interested in a relay as a UE-to-network, and wants to send the discovery message as the relay, and at the same time, the terminal also wants to send an advertisement message, and then the terminal needs to apply for multiple semi-persistent scheduling resources for sending a D2D signal, which may be implemented by the following steps:
step S61, the base station sends a plurality of pieces of semi-persistent scheduling resource allocation information to the terminal;
the base station sends RRC reconfiguration information to the terminal; the RRC reconfiguration message includes indication information of a plurality of D2D semi-persistent scheduling resources, and the indication information of each D2D semi-persistent scheduling resource includes, but is not limited to: index information of D2D semi-persistent scheduling resources, cycle indication information of D2D semi-persistent scheduling resources, identification indication information of D2D semi-persistent scheduling resources, air interface network temporary identification of D2D semi-persistent scheduling resources, D2D semi-persistent scheduling resource allocation establishment indication, and D2D semi-persistent scheduling resource configuration.
The resource allocation information includes information such as the location of the D2D resource, the size of the resource, and the MCS scheme used by the UE for transmission. The D2D resource allocation information may be carried by physical layer signaling or RRC signaling.
Wherein the D2D resources include D2D communication control channel resources and/or D2D data resources.
In step S62, the terminal transmits a D2D scheduling request to the base station. Wherein, the resource applied for by the D2D scheduling request may be used for transmitting the D2D discovery message and/or the D2D communication message, and the D2D scheduling request may include, but is not limited to: the method comprises the following steps of message type indication, message identification indication, discovery message index indication, message period index indication and message size indication. Further, the message comprises a discovery message. Further, the terminal transmits a D2D scheduling request to the base station through the MAC layer.
Step S63, after receiving the D2D scheduling request message, the base station determines the semi-static resource to be activated and sends resource allocation and/or resource activation information to the terminal;
wherein, the step S63 may be to transmit the resource semi-persistent scheduling activation signaling through physical layer control signaling or RRC dedicated signaling, and the semi-persistent scheduling activation signaling includes: scrambling control signaling is temporarily identified by an air interface network of D2D semi-persistently scheduled resources.
Step S64, after receiving the resource configuration information, the terminal determines the activated semi-static resource and sends D2D message on the resource. And the terminal may transmit a D2D discovery message over the D2D communication channel.
According to the novel resource allocation and indication method for transmitting the D2D message provided by the optional embodiment of the present invention, when the terminal needs to transmit the D2D message, the control unit transmits one resource configuration information according to the characteristics of the discovery message, and when the terminal needs to transmit a plurality of discovery messages, the control unit transmits a plurality of resource configuration information according to different characteristics of each discovery message, and each resource configuration may correspond to a different resource block size or a different transmission cycle, etc. After the terminal acquires the resource configuration, each D2D message can be sent by using the configured resource block continuously according to the configured period, which improves the efficiency.
In another embodiment, a software is provided, which is used to execute the technical solutions described in the above embodiments and preferred embodiments.
In another embodiment, a storage medium is provided, in which the software is stored, and the storage medium includes but is not limited to: optical disks, floppy disks, hard disks, erasable memory, etc.
It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.
The above description is only an alternative embodiment of the present invention and is not intended to limit the present invention, and various modifications and variations of the present invention may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (30)
1. A method for configuring resources, comprising:
a terminal receives resource configuration information transmitted over one or more air interfaces from a control unit, where the resource configuration information is used to indicate air interface transmission resources from a device to a device D2D, and the resource configuration information includes: indicating information of resource type, indicating information of resource identification, indicating information of resource period, indicating information of resource size and indicating information of power level of resource;
the terminal sends indication information to the control unit, wherein the indication information is used for indicating that the terminal needs to send a D2D message;
the terminal continuously transmits one or more D2D messages through a D2D discovery channel or a D2D communication channel, wherein the D2D messages include: D2D communication message, D2D discovery message;
wherein after the terminal continuously transmits one or more D2D messages through the D2D discovery channel or the D2D communication channel, the method further comprises: the terminal sends fourth indication information to the control unit, which is not interested in sending D2D messages; the terminal receives first resource release information of the control unit responding to the fourth indication information; the terminal releases the resources indicated by the first resource release information;
wherein the first resource release information includes: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
2. The method of claim 1, wherein the resource configuration information is semi-persistent scheduling resource configuration information, and wherein the semi-persistent scheduling resource configuration information comprises: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
3. The method of claim 1, wherein the indication information comprises: first indication information indicating an interest in transmitting the D2D message, or second indication information indicating a resource requesting scheduling of transmission of the D2D message, or third indication information indicating the D2D message type.
4. The method of claim 3, wherein the first indication information or the second indication information comprises: indication information of the D2D message type, indication information of the D2D message identification, indication information of the D2D message index, indication information of the D2D message period index, indication information of the D2D message size, indication information of the power level of the D2D message, and discovery range level information of the D2D message.
5. The method of claim 1, wherein the D2D message comprises: a relay UE-to-network relay discovery message from a terminal to a network, a relay UE-to-UE relay discovery message from a terminal to a terminal, a group member discovery message, a temporary mobile group identity TMGI discovery message, a cell ID identification message, a type R12 discovery message, a type R13 discovery message.
6. The method of claim 1, wherein after the terminal continuously transmits one or more D2D messages through a D2D discovery channel or a D2D communication channel, the method further comprises:
the terminal receives second resource release information sent by the control unit;
the terminal releases the resources indicated by the second resource release information;
wherein the second resource release information includes: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
7. The method according to claim 1, wherein before the terminal sends the indication information to the control unit, the method further comprises:
the terminal receives resource information sent by the control unit through broadcast signaling or radio link control (RRC) dedicated signaling, wherein the resource information comprises at least one of the following: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
8. The method of claim 7, wherein the terminal sending the indication information to the control unit comprises:
and the terminal sends discovery message index indication information corresponding to the discovery message resource information characteristics to the control unit.
9. The method according to claim 5, before the terminal sends the indication information to the control unit, comprising:
the terminal pre-configures configuration information of a plurality of discovery messages, wherein the configuration information comprises: the message comprises type indication information of the message, index indication information of the message, size indication information of the message, period indication information of the message, power level indication information of the message and discovery range level indication information of the message.
10. A method for configuring resources, comprising:
the control unit receives indication information sent by a terminal, wherein the indication information is used for indicating that the terminal needs to send a D2D message, and the D2D message comprises: D2D communication information, D2D discovery message
The control unit sends resource configuration information of one or more air interface transmissions to the terminal, where the resource configuration information is used to indicate air interface transmission resources from a device to a device D2D, the terminal continuously sends one or more D2D messages through a D2D discovery channel or a D2D communication channel, and the resource configuration information includes: indicating information of resource type, indicating information of resource identification, indicating information of resource period, indicating information of resource size and indicating information of power level of resource;
after the terminal continuously transmits one or more message data according to the one or more air interface transmission resources, the method further includes:
the control unit receives fifth indication information which is sent by the terminal and is not interested in sending the specified discovery message; and the control unit sends third resource release information responding to the fifth indication information to the terminal, wherein the third resource release information is used for indicating the terminal to release the resources indicated by the third resource release information.
11. The method of claim 10, wherein the resource configuration information is semi-persistent scheduling resource configuration information, and wherein the semi-persistent scheduling resource configuration information comprises: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
12. The method of claim 10, wherein the indication information comprises: first indication information indicating an interest in transmitting the D2D message, or second indication information indicating a resource requesting scheduling of transmission of the D2D message, or third indication information indicating the D2D message type.
13. The method of claim 12, wherein the first indication information or the second indication information comprises: indication information of the D2D message type, indication information of the D2D message identification, indication information of the D2D message index, indication information of the D2D message period index, indication information of the D2D message size, indication information of the power level of the D2D message, and discovery range level information of the D2D message.
14. The method according to claim 10, wherein after the terminal continuously transmits one or more message data according to the one or more air interface transmission resources, the method further comprises:
and the control unit sends fourth resource release information to the terminal, wherein the fourth resource release information is used for indicating the terminal to release the resource indicated by the fourth resource release information.
15. The method according to claim 10, wherein before receiving the indication information sent by the terminal, the method further comprises:
the control unit sends resource information to the terminal through broadcast signaling or radio link control (RRC) dedicated signaling, wherein the resource information comprises at least one of the following: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
16. An apparatus for configuring resources, located on a terminal side, includes:
a second sending module, configured to send indication information to a control unit, where the indication information is used to indicate that the terminal needs to send a D2D message;
a first receiving module, configured to receive resource configuration information transmitted over one or more air interfaces from a control unit, where the resource configuration information is used to indicate air interface transmission resources from a device to a device D2D, and the resource configuration information includes: indicating information of resource type, indicating information of resource identification, indicating information of resource period, indicating information of resource size and indicating information of power level of resource;
a first transmitting module, configured to continuously transmit one or more D2D messages by the terminal through a D2D discovery channel or a D2D communication channel, wherein the D2D message includes: D2D communication message, D2D discovery message;
the device further comprises: a third transmitting module for transmitting fourth indication information uninteresting to transmit the D2D message to the control unit after the terminal continuously transmits one or more D2D messages through the D2D discovery channel or the D2D communication channel; a second receiving module, configured to receive first resource release information of the control unit in response to the fourth indication information; a first release module, configured to release the resource indicated by the first resource release information;
wherein the first resource release information includes: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
17. The apparatus of claim 16, wherein the resource configuration information is semi-persistent scheduling resource configuration information, and wherein the semi-persistent scheduling resource configuration information comprises: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
18. The apparatus of claim 16, wherein the indication information comprises: first indication information indicating an interest in transmitting the D2D message, or second indication information indicating a resource requesting scheduling of transmission of the D2D message, or third indication information indicating the D2D message type.
19. The apparatus of claim 18, wherein the first indication information or the second indication information comprises: indication information of the D2D message type, indication information of the D2D message identification, indication information of the D2D message index, indication information of the D2D message period index, indication information of the D2D message size, indication information of the power level of the D2D message, and discovery range level information of the D2D message.
20. The apparatus of claim 16, wherein the D2D message comprises: a relay UE-to-network relay discovery message from a terminal to a network, a relay UE-to-UE relay discovery message from a terminal to a terminal, a group member discovery message, a temporary mobile group identity TMGI discovery message, a cell ID identification message, a type R12 discovery message, a type R13 discovery message.
21. The apparatus of claim 16, further comprising:
a third receiving module, configured to receive second resource release information sent by the control unit after the terminal continuously sends one or more D2D messages through a D2D discovery channel or a D2D communication channel;
a second release module, configured to release the resource indicated by the second resource release information;
wherein the second resource release information includes: the temporary identifier of the air interface network corresponding to the resource, the indication information of the resource type, the indication information of the resource identifier, and the indication information of the resource index.
22. The apparatus of claim 16, further comprising:
a fourth receiving module, configured to receive resource information sent by the control unit through a broadcast signaling or a radio link control RRC dedicated signaling before the terminal sends the indication information to the control unit, where the resource information includes at least one of: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
23. The apparatus of claim 22,
the second sending module is further configured to send, by the terminal, discovery message index indication information corresponding to the discovery message resource information feature to the control unit.
24. The apparatus of claim 20, further comprising:
a pre-configuration module, configured to pre-configure configuration information of a plurality of discovery messages to the terminal before the terminal sends indication information to the control unit, where the configuration information includes: the message comprises type indication information of the message, index indication information of the message, size indication information of the message, period indication information of the message, power level indication information of the message and discovery range level indication information of the message.
25. An apparatus for configuring a resource, located on a control unit side, includes:
a fifth receiving module, configured to receive indication information sent by a terminal, where the indication information is used to indicate that the terminal needs to send a D2D message, and the D2D message includes: D2D communication information, D2D discovery message;
a fourth sending module, configured to send resource configuration information of one or more air interface transmissions to a terminal, where the resource configuration information is used to indicate air interface transmission resources from a device to a device D2D, and the terminal continuously sends one or more D2D messages through a D2D discovery channel or a D2D communication channel, where the resource configuration information includes: indicating information of resource type, indicating information of resource identification, indicating information of resource period, indicating information of resource size and indicating information of power level of resource;
the device further comprises: a sixth receiving module, configured to receive, after the terminal continuously sends one or more message data according to the one or more air interface transmission resources, fifth indication information that is sent by the terminal and is not interested in sending a specified discovery message;
a fifth sending module, configured to send third resource release information in response to the fifth indication information, where the third resource release information is used to instruct the terminal to release the resource indicated by the third resource release information.
26. The apparatus of claim 25, wherein the resource configuration information is semi-persistent scheduling resource configuration information, and wherein the semi-persistent scheduling resource configuration information comprises: the method comprises the steps of an air interface network temporary identifier of the semi-persistent scheduling resource, a semi-persistent scheduling resource establishment indication, the configuration of the semi-persistent scheduling resource, the period of the semi-persistent scheduling resource and the power level of the semi-persistent scheduling resource.
27. The apparatus of claim 25, wherein the indication information comprises: first indication information indicating an interest in transmitting the D2D message, or second indication information indicating a resource requesting scheduling of transmission of the D2D message, or third indication information indicating the D2D message type.
28. The apparatus of claim 27, wherein the first indication information or the second indication information comprises: indication information of the D2D message type, indication information of the D2D message identification, indication information of the D2D message index, indication information of the D2D message period index, indication information of the D2D message size, indication information of the power level of the D2D message, and discovery range level information of the D2D message.
29. The apparatus of claim 25, further comprising:
a sixth sending module, configured to send, to the terminal, fourth resource release information after the terminal continuously sends one or more message data according to the one or more air interface transmission resources, where the fourth resource release information is used to instruct the terminal to release a resource indicated by the fourth resource release information.
30. The apparatus of claim 25, further comprising:
a seventh sending module, configured to send, before the terminal sends the indication information to the control unit, resource information to the terminal through broadcast signaling or radio link control RRC dedicated signaling, where the resource information includes at least one of: multiple discovery message cycle information, indication information of multiple discovery message resource block sizes, indexes of multiple discovery messages, power level indication information of multiple discovery messages, and discovery range level information of multiple discovery messages.
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