CN110536260B - Communication control method, device, system, terminal, base station and storage medium - Google Patents

Abstract

The embodiment of the invention provides a communication control method, a device, a system, a terminal, a base station and a storage medium, wherein the communication control method is used for configuring resources for a local terminal by sending a resource configuration request to the base station; wherein the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports; and receiving the resource information distributed by the base station to realize the resource distribution when the multiple systems coexist.

Description

Communication control method, device, system, terminal, base station and storage medium

Technical Field

The embodiment of the invention relates to the technical field of communication, in particular to a communication control method, a device, a system, a terminal, a base station and a storage medium.

Background

The 3GPP (3 rd Generation Partnership Project) has set aside research on internet of vehicles communication based on the fifth generation mobile communication technology (5G,5th Generation), including internet of vehicles communication based on a 5G air interface and internet of vehicles communication based on a 5G direct link (sidelink). However, LTE (Long Term Evolution ) is currently widely used as a technology, and is not immediately replaced, but coexists with NR (New Radio Access Technology ) technology for a considerable period of time, so that terminals supporting NR capability and LTE capability coexist in the future, and how to allocate resources to ensure reasonable communication between them is a current urgent problem to be solved. The invention provides a communication resource allocation scheme of the Internet of vehicles based on multi-system coexistence.

Disclosure of Invention

The communication control method, the device, the system, the terminal, the base station and the storage medium provided by the embodiment of the invention mainly solve the technical problem of how to realize V2X resource allocation when multiple systems coexist.

In order to solve the above technical problems, an embodiment of the present invention provides a communication control method, including:

a resource allocation request is sent to a base station, and the base station is used for allocating resources for a local terminal; the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports;

and receiving the resource information allocated by the base station.

The embodiment of the invention also provides a communication control method, which comprises the following steps:

receiving one or more resource pool information sent by a base station;

selecting resources to send and/or receive the Internet of vehicles message according to the resource pool information;

wherein the resource pool information includes at least one of: system information, frequency point information, time slot information and beam indication information.

The embodiment of the invention also provides a communication control method, which comprises the following steps:

receiving indication information of a base station, wherein the indication information comprises at least one of the following: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; the third indication information is used for indicating the terminal to read broadcast messages of other NR frequency points and report the broadcast messages to the service base station;

When the indication information is the first indication information, the terminal reads broadcast messages of other cells on the other carrier frequencies or the other systems;

when the indication information is the second indication information, reporting a resource allocation request by the terminal to request resources of other modes;

and when the indication information is the third indication information, the terminal reads the broadcast information of the other NR frequency points and reports the broadcast information to the base station.

The embodiment of the invention also provides a communication control method, which comprises the following steps:

receiving a resource configuration request sent by a terminal, wherein the resource configuration request comprises at least one of the following: auxiliary messages, direct link messages, buffer status reports;

and configuring resources for the terminal according to the resource configuration request, and sending resource information to the terminal.

The embodiment of the invention also provides a communication control method, which comprises the following steps:

one or more resource pool information is issued to the terminal; the terminal is used for selecting resources to send and/or receive the Internet of vehicles message according to the resource pool information;

wherein the resource pool information includes at least one of: system information, frequency point information, time slot information and beam indication information.

The embodiment of the invention also provides a communication control method, which comprises the following steps:

transmitting indication information to a terminal, wherein the indication information comprises at least one of the following components: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; and the third indication information is used for indicating the terminal to read the broadcast messages of other NR frequency points and report the broadcast messages to the service base station.

The embodiment of the invention also provides a communication control method, which comprises the following steps:

the terminal sends a resource allocation request for the base station to allocate resources for the local terminal; the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports;

the base station receives the resource allocation request, allocates resources for the terminal according to the resource allocation request, and sends resource information to the terminal;

and the terminal receives the resource information distributed by the base station.

The embodiment of the invention also provides a communication control method, which comprises the following steps:

the base station issues one or more resource pool information, wherein the resource pool information comprises at least one of the following: system information, frequency point information, time slot information and beam indication information;

And the terminal receives the one or more resource pool information, and selects resources to send and/or receive the Internet of vehicles message according to the resource pool information.

The embodiment of the invention also provides a communication control method, which comprises the following steps:

the base station transmits indication information, wherein the indication information comprises at least one of the following components: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; the third indication information is used for indicating the terminal to read broadcast messages of other NR frequency points and report the broadcast messages to the service base station;

the terminal receives the indication information, and when the indication information is the first indication information, the terminal reads broadcast messages of other cells on the other carrier frequencies or the other systems; when the indication information is the second indication information, reporting a resource allocation request by the terminal to request resources of other modes; and when the indication information is the third indication information, the terminal reads the broadcast information of the other NR frequency points and reports the broadcast information to the base station.

The embodiment of the invention also provides a communication control device, which comprises:

The first sending module is used for sending a resource configuration request to the base station so that the base station configures resources for the local terminal; the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports;

and the first receiving module is used for receiving the resource information distributed by the base station.

The embodiment of the invention also provides a communication control device, which comprises:

the second receiving module is used for receiving one or more pieces of resource pool information sent by the base station; the resource pool information includes at least one of: system information, frequency point information, time slot information and beam indication information;

and the selection module is used for selecting resources to send and/or receive the Internet of vehicles message according to the resource pool information.

The embodiment of the invention also provides a communication control device, which comprises:

the third receiving module is used for receiving indication information issued by the base station, and the indication information comprises at least one of the following: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; the third indication information is used for indicating the terminal to read broadcast messages of other NR frequency points and report the broadcast messages to the service base station;

The first processing module is used for reading broadcast messages of other cells on the other carrier frequencies or the other systems when the indication information is the first indication information;

the second processing module is used for reporting a resource configuration request for requesting resources of other systems when the indication information is the second indication information;

and the third processing module is used for reading the broadcast messages of the other NR frequency points and reporting the broadcast messages to the base station when the indication information is the third indication information.

The embodiment of the invention also provides a communication control device, which comprises:

a fourth receiving module, configured to receive a resource configuration request sent by a terminal, where the resource configuration request includes at least one of the following: auxiliary messages, direct link messages, buffer status reports;

and the resource allocation module is used for allocating resources for the terminal according to the resource allocation request and sending the resource information to the terminal.

The embodiment of the invention also provides a communication control device, which comprises:

the second sending module is used for sending one or more pieces of resource pool information to the terminal; the terminal is used for selecting resources to send and/or receive the Internet of vehicles message according to the resource pool information; wherein the resource pool information includes at least one of: system information, frequency point information, time slot information and beam indication information.

The embodiment of the invention also provides a communication control device, which comprises:

the third sending module is used for sending indication information to the terminal, wherein the indication information comprises at least one of the following components: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; and the third indication information is used for indicating the terminal to read the broadcast messages of other NR frequency points and report the broadcast messages to the service base station.

The embodiment of the invention also provides a communication control system, which comprises at least one of the following:

a first communication control device and a fourth communication control device among the six communication control devices;

a second communication control device and a fifth communication control device among the six communication control devices;

the third communication control device and the sixth communication control device among the six communication control devices described above.

The embodiment of the invention also provides a terminal which comprises a first processor, a first memory and a first communication bus;

the first communication bus is used for realizing connection communication between the first processor and the first memory;

The first processor is configured to execute one or more computer programs stored in the first memory to implement the steps of the communication control method as described in the first set of nine communication control methods above.

The embodiment of the invention also provides a terminal which comprises a second processor, a second memory and a second communication bus;

the second communication bus is used for realizing connection communication between the second processor and the second memory;

the second processor is configured to execute one or more computer programs stored in the second memory to implement the steps of the communication control method as described in the second set of nine communication control methods above.

The embodiment of the invention also provides a terminal which comprises a third processor, a third memory and a third communication bus;

the third communication bus is used for realizing connection communication between the third processor and the third memory;

the third processor is configured to execute one or more computer programs stored in the third memory to implement the steps of the communication control method described in the third set of nine communication control methods described above.

The embodiment of the invention also provides a base station which comprises a fourth processor, a fourth memory and a fourth communication bus;

The fourth communication bus is used for realizing connection communication between the fourth processor and the fourth memory;

the fourth processor is configured to execute one or more computer programs stored in the fourth memory to implement the steps of the communication control method described in the fourth set of nine communication control methods described above.

The embodiment of the invention also provides a base station which comprises a fifth processor, a fifth memory and a fifth communication bus;

the fifth communication bus is used for realizing connection communication between the fifth processor and the fifth memory;

the fifth processor is configured to execute one or more computer programs stored in the fifth memory to implement the steps of the communication control method described in the fifth group of the nine-group communication control methods described above.

The embodiment of the invention also provides a base station, which comprises a sixth processor, a sixth memory and a sixth communication bus;

the sixth communication bus is used for realizing connection communication between the sixth processor and the sixth memory;

the sixth processor is configured to execute one or more computer programs stored in the sixth memory to implement the steps of the communication control method described in the sixth set of the nine sets of communication control methods described above.

The embodiment of the present invention also provides a storage medium storing one or more programs executable by one or more processors to implement the steps of the communication control method according to any one of the above-described nine sets of communication control methods.

The beneficial effects of the invention are as follows:

according to the communication control method, the device, the system, the terminal, the base station and the storage medium provided by the embodiment of the invention, the communication control method is used for configuring resources for the local terminal by sending a resource configuration request to the base station; wherein the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports; and receiving the resource information distributed by the base station to realize the resource distribution when the multiple systems coexist. Technical effects including, but not limited to, those described above may be achieved in certain implementations.

Additional features and corresponding advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic flow chart of a communication control method according to a first embodiment of the present invention;

Fig. 2 is a schematic flow chart of a communication control method according to a third embodiment of the present invention;

fig. 3 is a schematic diagram of a communication control method according to a third embodiment of the present invention;

fig. 4 is a schematic flow chart of a communication control method according to a fourth embodiment of the present invention;

fig. 5 is a schematic diagram of a communication control method according to a fourth embodiment of the present invention;

fig. 6 is a schematic flow chart of a communication control method according to a fifth embodiment of the present invention;

fig. 7 is a schematic flow chart of a communication control method according to a sixth embodiment of the present invention;

fig. 8 is a schematic flow chart of a communication control method according to a seventh embodiment of the present invention;

fig. 9 is a schematic flow chart of a communication control method according to an eighth embodiment of the present invention;

fig. 10 is a schematic flow chart of a communication control method according to a ninth embodiment of the present invention;

fig. 11 is a schematic flow chart of a communication control method according to a tenth embodiment of the present invention;

fig. 12 is a schematic structural diagram of a communication control device according to an eleventh embodiment of the present invention;

fig. 13 is a schematic structural diagram of a communication control device according to a twelfth embodiment of the present invention;

fig. 14 is a schematic structural diagram of a communication control device according to a thirteenth embodiment of the present invention;

fig. 15 is a schematic structural diagram of a communication control device according to a fourteenth embodiment of the present invention;

fig. 16 is a schematic structural diagram of a communication control device according to a fifteenth embodiment of the present invention;

Fig. 17 is a schematic structural diagram of a communication control device according to a sixteenth embodiment of the present invention;

fig. 18 is a schematic diagram of a communication control system according to a seventeenth embodiment of the present invention;

fig. 19 is a schematic diagram of a communication control system according to a seventeenth embodiment of the present invention;

fig. 20 is a schematic diagram III of a communication control system according to a seventeenth embodiment of the present invention;

fig. 21 is a schematic diagram of a terminal structure according to an eighteenth embodiment of the present invention;

fig. 22 is a schematic diagram of a terminal structure according to a nineteenth embodiment of the present invention;

fig. 23 is a schematic diagram of a terminal structure according to a twenty-first embodiment of the present invention;

fig. 24 is a schematic diagram of a base station structure according to a twenty-first embodiment of the present invention;

fig. 25 is a schematic diagram of a base station structure according to twenty-second embodiment of the present invention;

fig. 26 is a schematic diagram of a base station structure according to a twenty-third embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following detailed description of the embodiments of the present invention is given with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Embodiment one:

the embodiment of the invention provides a communication control method, which is used for realizing V2X resource allocation when multiple systems coexist and ensuring reasonable communication among terminals supporting different systems. The embodiment of the invention mainly comprises a terminal side and two resource configuration modes, wherein the terminal requests a base station to schedule resources by sending a resource configuration request to realize resource configuration; and the other is that the terminal acquires the corresponding resource pool from the main selection resource to realize self-configuration.

The following techniques need to be described first:

the Internet of vehicles refers to a large system network for wireless communication and information exchange between vehicles-X (X: vehicles, pedestrians, roadside equipment, the Internet and the like) according to agreed communication protocols and data interaction standards. Through the communication of the internet of vehicles, the driving of vehicles can be ensured to be safer, the traffic efficiency is improved, and convenience (such as entertainment information) is obtained for users. Classified from objects of wireless communication, internet of vehicles communication includes three different types: vehicle-to-Vehicle (V2V for short), vehicle-to-Infrastructure/Vehicle-to-Network (V2I/V2N for short), and Vehicle-to-Pedestrian (V2P for short), collectively referred to as V2X communications.

In the V2X communication research based on LTE of 3GPP organization, a V2X communication method based on a direct/side link (Sidelink) between User Equipments (UE) is one of the modes of implementing V2X standards, that is, service data is directly transmitted to a target UE through an air interface by a source UE without being forwarded by a base station and a core network. Such V2X communication modes are abbreviated as PC5-based V2X (V2X-based through link interface) communication or V2X sidelink communication.

With technological advances and the development of automation industry, V2X communication scenarios are further extended and have higher performance requirements. Advanced V2X services are mainly divided into 4 main categories: vehicle team (vehicle platooning), extended sensors (extended sensors), advanced driving (semi-automated driving, full automated driving (semi-automated or full-automated driving)), and remote driving (remote driving). The performance requirements required to be achieved: the packet size supports 50 to 12000 bytes, the transmission rate is 2 to 50 messages per second, the maximum end-to-end delay is 3-500 milliseconds, the reliability is 90% -99.999%, the data rate is 0.5-1000Mbps, and the transmission range supports 50-1000 meters.

For the communication control method provided by the embodiment of the present invention, please refer to fig. 1, which includes:

s101, sending a resource allocation request to a base station, wherein the resource allocation request is used for allocating resources for a local terminal by the base station; wherein the resource configuration request includes at least one of: auxiliary messages, through link messages (Sidelink Information), buffer status reports (Buffer Status Report, BSR for short).

S102, receiving the resource information distributed by the base station.

And when the resource allocation request information is a cache state report, carrying the standard indication information or the configuration file index information in the cache state report.

If the NR UE supports the transceiving of multiple V2X services, the higher layer configures the corresponding relation between the service type and the Destination identification Destination ID, and further, each Destination ID has a corresponding relation with the carrier set and also has a corresponding relation with the LTE and NR systems. For example, destination ID 1 corresponds to LTE, destination ID 2 corresponds to NR, destination ID 3 corresponds to LTE and NR. When the terminal applies for the resources to the base station, the base station needs to know which standard of resources the UE applies for. The method specifically comprises the following steps:

mode 1: and when the UE has data to send, reporting the standard information in the BSR. Thus, when the network side receives the BSR, the network side can confirm which system can be allocated to the UE.

Mode 2: the UE reports UE auxiliary information firstly, wherein the UE auxiliary information comprises a corresponding relation set of a target identification index (Destination index), a target identification (Destination ID) and an available format. When a service arrives at the UE, namely data needs to be sent, a target identification index is reported in the BSR according to a target identification corresponding to the service type, and the network side acquires the type of the Internet of vehicles service supported by the UE and the system information available for the service type according to the UE auxiliary information (comprising the corresponding relation set of the target identification index, the target identification and the available system) reported by the UE. Thus, after the network side receives the index carrying the target identifier, the network system of the resources applied by the UE can be judged, so that the resources are allocated to the UE on the corresponding system.

When the resource configuration request information is an auxiliary message or a pass-through link message, the auxiliary message or the pass-through link message includes at least one of: the corresponding relation set of the target identification index and the target identification and the available modes; and the corresponding relation set of the target identification index and the target identification and the profile index is set.

Optionally, when the NR (New Radio Access Technology, new radio transmission technology) UE cannot detect a cell of an NR frequency point, but when detecting a cell of an LTE frequency point, the UE may access the cell with the identity of the LTE UE, after knowing that the accessed LTE cell supports the NR system, may report NR sidelink information or UE assistance information by using LTE resources, indicate a service type (destination id) of interest of the UE itself or indicate that the UE supports transmitting and receiving NR V2X in the capability information, and the network side determines whether the UE needs to configure a receiving resource pool of NR based on the destination id, and then allocates V2X resources for its cross-carrier system after receiving V2X BSR.

Wherein, the system includes at least one of the following: LTE, NR,4G,5G,R-x; wherein X is an integer, and the R-X identifies version numbers of different protocols. Or R-X identifies a different version number of the protocol.

The network side allocates resources for the UE including at least one of:

1. semi-persistent scheduling (SPS) configuration information is transmitted, the SPS configuration information including: LTE resources and NR resources.

2. Transmitting configuration scheduling CS (Configuration scheduling, configuration schedule) configuration information, the CS configuration information comprising: LTE resources and NR resources.

3. If the configured LTE resource and NR resource are in the same frequency point, DCI (Downlink Control Indication ) information is sent, and the DCI carries system indication information.

4. The protocol defines index corresponding to CIF (Carrier Indicator Field, carrier indication field), and indicates which system is allocated through the index, that is, different index not only represents frequency point information, but also includes RAT information (that is, system).

Optionally, the terminal receiving the resource information allocated by the base station includes at least one of:

1. receiving semi-persistent scheduling, SPS, configuration information, the SPS configuration information comprising: LTE resources and NR resources.

2. Receiving configuration scheduling, CS, configuration information, the CS configuration information comprising: LTE resources and NR resources.

3. And receiving Downlink Control Indication (DCI) information, wherein the DCI carries system indication information.

Before the terminal sends the resource allocation request to the base station, the method further comprises: and receiving second indication information issued by the base station, wherein the second indication information is used for indicating the terminal to acquire resource information of other systems from the base station in a resource request mode.

Embodiment two:

the embodiment provides a communication control method, which is mainly applied to a terminal and mainly requests resources by sending a resource configuration request. The difference between this embodiment and the first embodiment is mainly that: the auxiliary information or the through link message comprises a corresponding relation set of the target identification index and the target identification and the profile index. The base station acquires a corresponding relation between profile index and a transmission parameter set profile, wherein the transmission parameter set profile comprises at least one of the following: transmission system, transmission power level, coverage, etc.

Optionally, the base station may obtain a correspondence between the profile index and the transmission parameter set from the core network.

And then, the base station allocates resources for the terminal according to the profile sending parameter set corresponding to the profile index. Alternatively, the following two methods are included:

mode 1: when the UE has data to send, the configuration file index is reported in the BSR. Thus, after receiving the BSR, the network side selects the corresponding profile according to the corresponding relation between the profile index and the sending parameter set, and can confirm which system can be allocated to the UE.

Mode 2: the UE reports the UE auxiliary information, wherein the UE auxiliary information comprises a corresponding relation set of a target address index, a target id and a profile index, and then, when the UE has data to send, the target address index is reported in a BSR. When the network side receives the BSR, the profile is determined according to the index carrying the target identifier, so that the network system of the resources applied by the UE can be judged, and the resources are allocated to the UE on the corresponding system.

Further, if for a packet of a certain type of traffic, the UE indicates that transmission by NR or LTE is possible, the base station decides which system to use for transmission.

Embodiment III:

the embodiment of the invention provides a communication control method, a terminal realizes a process of autonomously configuring resources by receiving resource pool information issued by a base station, please refer to fig. 2, which comprises the following steps:

s201, receiving one or more pieces of resource pool information sent by a base station; wherein the resource pool information includes at least one of: system information, frequency point information, time slot information and beam indication information.

S202, selecting resources to send and/or receive the Internet of vehicles message according to the resource pool information.

Considering that the LTE coverage is better than the NR, if a certain NR UE is not under the NR coverage, but under the LTE coverage, and the base station supports both LTE and NR, the base station can allocate resources for the NR UE by using the LTE system and instruct the NR UE to carry out the Internet of vehicles communication by using the NR system.

For example: if a certain cell supports both LTE and NR system V2X, the NR resource pool configuration of mode 4 can be broadcasted through the system message of LTE, and after the UE supporting the NR system receives the configuration information, the NR system can be used for sending and receiving NR V2X according to the configuration.

Optionally, referring to fig. 3, the method includes:

s301, a base station sends V2X resource pool information of an NR system through RRC (Radio Resource Control ) proprietary signaling or system information; the V2X resource pool information includes: frequency point information, time slot information and frequency domain information.

S302, after receiving the configuration information, the UE can send and/or receive NR V2X by using an NR system according to the configuration.

For the process of sending NR V2X LTE, in LTE, a network side configures a relationship between PPPP (ProSe Per-Packet Priority) and a Logical Channel (Logical Channel), and a data Packet from a terminal application layer maps the data Packet to a corresponding Logical Channel according to PPPP for transmission. In the NR system, when the data packet of the V2X application layer arrives, the data packet of the application layer is mapped into a QoS flow according to QoS (Quality of Service ) criteria, and then the SDAP (Service Data Adaptation Protocol ) performs mapping between the QoS flow and the DRB (Data Radio bearer ), and one or more QoS flows may be mapped into one DRB. Therefore, the UE needs to know the mapping rule between QoS flows and DRBs. In either way, for a UE supporting multiple formats, it is necessary to determine whether to transmit through an NR frequency point or an LTE frequency point in addition to determining the correspondence between a data packet and a DRB.

Optionally, the application layer data packet may carry format information, and the AS layer may determine, according to the format indication information sent by the application layer, through which RAT the data packet is transmitted. Further, for some V2X applications, the data packets may be configured as LTE or RAT, in which case the UE needs to refer to some other factors to decide whether to transmit through LTE or NR, and the network side configures multiple resource pools for the UE, where each resource pool is associated with one network system, such as LTE or NR.

Further, for some V2X applications, the data packet may be configured as LTE or NR, and the network side sends multiple resource pools, including, for example: one or more V2X resource pools for communications with LTE standard and one or more V2X resource pools for communications with NR standard. In this case, the UE needs to refer to some other factor to decide whether to transmit over LTE or NR. If the NR and LTE configure different frequency domain resources at the same time, the receiving UE can only receive one of the resource pools, and therefore, in this case, priority information needs to be configured. The method specifically comprises the following two modes:

mode 1: and the network side sends the system priority indication information.

Mode 2: and sending the resource pool priority indication information.

And selecting a standard corresponding to the resource pool with high priority for transmitting the data packet supporting the transmission of multiple standards. For example, a system with a high priority or a system corresponding to a resource pool with a high priority.

Further, for unicast and multicast applications, where both NR and LTE can support, after the UE interacts capability information, the UE decides which system to use for transmission. If the UEs in the group find out that all UEs in the group support NR capability after capability negotiation, then the V2X message may be sent using NR format. Optionally, when some UEs in the group support NR capability and another part of UEs support LTE only, the V2X message may be sent in LTE format.

In other examples of the invention, the resource pool information may further include: channel busyness CBR and threshold value set information corresponding to a system. The threshold value sets comprise threshold value sets corresponding to different CBRs, wherein the threshold value sets corresponding to the CBRs comprise: threshold values corresponding to different modes under the same CRB. For example, the set of threshold values includes: a threshold value set corresponding to a threshold value set A, CBR2 corresponding to CBR1, and a threshold value set C corresponding to CBR 3; wherein the threshold value set A (equivalent to the subset) comprises a threshold value a1 corresponding to LTE and a threshold value a2 under NR; similarly, the threshold value set B comprises a threshold value B1 corresponding to LTE and a threshold value B2 corresponding to NR; the threshold set C includes a threshold C1 corresponding to LTE and a threshold C2 corresponding to NR.

Or the threshold value set comprises a threshold value set corresponding to different modes, wherein the threshold value set corresponding to different modes comprises: threshold values corresponding to different CBRs in the same system. For example, the set of threshold values includes: a threshold set N corresponding to the LTE system and a threshold set M corresponding to the NR system, wherein the threshold set N comprises a threshold N1 corresponding to the CBR4 and a threshold N2 corresponding to the CBR 5; the threshold set M includes a threshold value M1 corresponding to CBR6 and a threshold value M2 corresponding to CBR 7.

And selecting resources to send and/or receive the internet of vehicles message according to the resource pool information. Optionally, when there are multiple available resource pool information, the terminal respectively acquires (or refers to as measuring) CBR values of each available resource pool, and respectively compares each CBR value with a target threshold value configured by the base station and determined according to CBR and a standard; if the CBR measured value is smaller than the target threshold value, the UE puts the currently measured available resource pool into a candidate resource pool set; if the CBR value is larger than the target threshold value, the UE does not select the current measured resource pool; in the screening process, or after the screening of all available resource pools is completed, if the number of the resource pools in the candidate resource pool set is greater than or equal to one, sequencing all the candidate resource pools according to the CBR value from low to high, and selecting the resource pool with the lowest CBR value for sending and/or receiving the Internet of vehicles message; in other examples of the invention, one of the candidate resource pools is also randomly selected for use in transmitting and/or receiving the internet of vehicles message.

Optionally, in the screening process, when the number of candidate resource pools reaches a preset number, for example, 3, if there are currently non-screened resource pools, screening may be stopped, and one candidate resource pool is directly selected from the three candidate resource pools in the current candidate resource pool set.

Optionally, the resource pool information is divided into a resource pool of LTE system and a resource pool of NR system. For service data which can only be transmitted through the NR system, the resource pool of the NR system can be used as an available resource pool, and the resource pool of the LTE system can be used as an unavailable resource pool. Similarly, for service data that can be transmitted by both LTE and NR, both the LTE and NR resource pools can be used as the available resource pools.

Embodiment four:

the embodiment of the invention provides a communication control method, which is mainly different from the above embodiment in that: the terminal receives the indication information issued by the base station to acquire the resource. Referring to fig. 4, the method includes:

s401, receiving indication information of a base station, wherein the indication information comprises at least one of the following: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; and the third indication information is used for indicating the terminal to read the broadcast messages of other NR frequency points and report the broadcast messages to the service base station.

S402, when the indication information is first indication information, the terminal reads broadcast messages of other cells on other carrier frequencies or other systems; when the indication information is the second indication information, the terminal reports a resource allocation request for requesting resources of other systems; and when the indication information is the third indication information, the terminal reads the broadcast information of other NR frequency points and reports the broadcast information to the base station.

When the indication information is the first indication information, the terminal reads broadcast messages of other cells on other carrier frequencies or other systems. Optionally, receiving operator information (Public Land Mobile Network ) sent by the base station and allowing the terminal to send the internet of vehicles message by using an NR system and corresponding frequency information; after receiving the operator information and the frequency information, monitoring a system message on a corresponding frequency according to the frequency information, thereby acquiring the vehicle network resource configuration information of NR; and according to the NR vehicle network resource configuration information, sending and/or receiving NR vehicle networking information by using an NR system.

Optionally, referring to fig. 5, including:

s501, the serving base station broadcasts operator information allowing the terminal to send V2X messages using NR format and corresponding frequency information.

S502, after the terminal reads the information broadcast by the service base station, the corresponding frequency information is obtained, and the system information can be read on the frequency, so that the V2X transmission resource configuration information of NR is obtained.

S503, the UE can send and receive NR V2X by using an NR system according to the NR V2X sending resource configuration information.

Further, the terminal decides which PLMN resource pools can be used according to the higher-layer authorization information, so that V2X communication is performed in the NR resource pool corresponding to the corresponding PLMN.

Other examples of the present invention may further include, after the UE reads the broadcast message of the other cell on the other carrier frequency or other system:

the terminal sends a request message to the base station to apply for a time slot for sending and/or receiving the NR Internet of vehicles message; the request message carries subframe information and frequency point indication information of a time slot which is indicated to the base station by the terminal.

The base station receives the request message sent by the terminal, configures a time slot and a frequency point for the terminal according to the request message, and sends the time slot information and the frequency point indication information to the terminal.

The terminal receives the time slot information and the frequency point indication information configured by the base station, and sends and/or receives the NR Internet of vehicles message by utilizing a target time slot corresponding to the time slot information and a target frequency point corresponding to the frequency point indication information.

In other examples of the present invention, if the base station does not provide specific resource information of NR format in the broadcast, the serving base station needs to further indicate whether the terminal autonomously reads a system broadcast message of other carrier frequencies or obtain NR resource information from the serving base station by requesting resources.

If the base station indicates that the terminal is a system broadcast message for autonomously reading other carrier frequencies, the UE reads broadcast messages of other cells on the carrier frequencies.

If the base station indicates to acquire the resources in a mode of requesting the resources, the UE reports the UE auxiliary information or the resource request information.

The LTE base station may instruct the UE supporting NR V2X to read the broadcast message of other NR frequency points and report the broadcast message to the serving base station, where the UE is used to configure the resource pool information of the NR frequency points.

Optionally, the base station sends the indication information through RRC dedicated signaling or system message; the indication information is used for indicating the UE supporting NR V2X to read the broadcast information of other NR frequency points and report the broadcast information to the service base station. And the UE reads the broadcast messages of other NR frequency points and reports the broadcast messages to the service base station.

Fifth embodiment:

the embodiment of the present invention mainly provides a communication control method, based on the first embodiment, where the primary station is on the base station side, and referring to fig. 6, including:

S601, receiving a resource configuration request sent by a terminal, wherein the resource configuration request comprises at least one of the following: auxiliary messages, direct link messages, buffer status reports.

S602, configuring resources for the terminal according to the resource configuration request, and sending the resource information to the terminal.

When the resource allocation request is a buffer status report, allocating resources for the terminal according to the resources includes: acquiring system indication information or configuration file index information in a buffer status report; and configuring resources for the terminal according to the system indication information or the configuration file index information.

When the resource allocation request is an auxiliary message or a direct link message, allocating resources for the terminal according to the resources comprises: acquiring at least one of the following auxiliary message or the through link message: the corresponding relation set of the target identification index and the target identification and the available modes; a corresponding relation set of the target identification index and the target identification and configuration file index;

and configuring resources for the terminal according to the corresponding relation set of the target identification index and the target identification and the available modes and/or the corresponding relation set of the target identification index and the target identification and the profile index.

The system comprises at least one of the following: LTE, NR,4G,5G,R-x; wherein X is an integer and R-X identifies the version numbers of the different protocols.

The manner in which the base station configures the resources includes at least one of:

1. generating SPS configuration information by semi-persistent scheduling, the SPS configuration information comprising: LTE resources and NR resources;

2. generating CS configuration information through configuration scheduling, wherein the CS configuration information comprises the following steps: LTE resources and NR resources;

3. and carrying the system indication information in the downlink control indication DCI information.

Other examples of the present invention may further include, prior to receiving the resource configuration request: the base station transmits second indication information to the terminal, wherein the second indication information is used for indicating the terminal to acquire resource information of other systems from the base station in a resource request mode.

Example six:

the embodiment of the present invention mainly provides a communication control method, based on the above embodiment, where the primary station is on the base station side, and referring to fig. 7, including:

s701, one or more pieces of resource pool information are issued to a terminal; the terminal selects resources to send and/or receive the Internet of vehicles message according to the resource pool information; wherein the resource pool information includes at least one of: system information, frequency point information, time slot information and beam indication information.

In other examples of the present invention, the resource pool information may further include: channel busyness (Channel Busy Ratio, CBR for short) and threshold value set information corresponding to the system; the threshold value sets comprise threshold value sets corresponding to different CBRs, wherein the threshold value sets corresponding to the CBRs comprise: threshold values corresponding to different modes under the same CRB; or, the threshold value set includes threshold value sets corresponding to different systems, where the threshold value sets corresponding to different systems include: threshold values corresponding to different CBRs in the same system.

In other examples of the invention, the resource pool information may further include: system priority indication information and/or resource pool priority indication information.

Embodiment seven:

the embodiment of the present invention mainly provides a communication control method, based on the above embodiment, where the primary station is on the base station side, and referring to fig. 8, including:

s801, transmitting indication information to a terminal, wherein the indication information comprises at least one of the following components: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; and the third indication information is used for indicating the terminal to read the broadcast messages of other NR frequency points and report the broadcast messages to the service base station.

In other examples of the present invention, when the issued indication message is the first indication message, the method further includes: and transmitting the operator information and the corresponding frequency information which allow the terminal to transmit the Internet of vehicles message by using an NR system.

In other examples of the present invention, the base station may also receive a request message sent by the terminal, where the request message is used to apply for a time slot for sending and/or receiving an NR internet of vehicles message; and configuring time slots and frequency points for the terminal according to the request message, and sending the time slot information and the frequency point indication information to the terminal.

Example eight:

the embodiment of the present invention mainly provides a communication control method, based on the above embodiment, where the main station is on the system side, and referring to fig. 9, including:

s901, a terminal sends a resource allocation request, which is used for the base station to allocate resources for a local terminal; the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports.

S902, the base station receives the resource allocation request, allocates resources for the terminal according to the resource allocation request, and sends the resource information to the terminal.

S903, the terminal connects the resource information distributed by the base station.

Example nine:

the embodiment of the present invention mainly provides a communication control method, based on the above embodiment, where the main station is on the system side, and referring to fig. 10, including:

S10a, the base station issues one or more pieces of resource pool information, wherein the resource pool information comprises at least one of the following steps: system information, frequency point information, time slot information and beam indication information.

And S10b, the terminal receives one or more pieces of resource pool information, and selects resources to send and/or receive the Internet of vehicles message according to the resource pool information.

Example ten:

the embodiment of the present invention mainly provides a communication control method, based on the above embodiment, where the main station is on the system side, and referring to fig. 11, including:

s111, the base station transmits indication information, wherein the indication information comprises at least one of the following components: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; the third indication information is used for indicating the terminal to read broadcast messages of other NR frequency points and report the broadcast messages to the service base station;

s112, the terminal receives the indication information, and when the indication information is the first indication information, the terminal reads broadcast messages of other cells on other carrier frequencies or other systems; when the indication information is the second indication information, the terminal reports a resource allocation request for requesting resources of other systems; and when the indication information is the third indication information, the terminal reads the broadcast information of other NR frequency points and reports the broadcast information to the base station.

Example eleven:

the embodiment of the present invention mainly includes, based on the first and/or second embodiments, a communication control device provided on a terminal side for implementing at least the steps of the communication control method described in the first and/or second embodiments, and referring to fig. 12, the communication control device 120 includes:

a first sending module 121, configured to send a resource allocation request to a base station, so that the base station allocates resources for a home terminal; the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports;

the first receiving module 122 is configured to receive resource information allocated by a base station.

Please refer to the description of the first embodiment and/or the second embodiment for specific steps of the communication control method, which are not described herein.

Embodiment twelve:

the embodiment of the present invention mainly includes, based on the third embodiment, a communication control device provided on a terminal side for implementing at least the steps of the communication control method described in the third embodiment, and referring to fig. 13, the communication control device 130 includes:

a second receiving module 131, configured to receive one or more resource pool information sent by the base station; the resource pool information includes at least one of: system information, frequency point information, time slot information and beam indication information;

The selection module 132 is configured to select a resource to send and/or receive the internet of vehicles message according to the resource pool information.

The specific steps of the communication control method flow are described in the third embodiment, and are not described herein.

Embodiment thirteen:

the embodiment of the present invention mainly includes, based on the fourth embodiment, a communication control device provided on a terminal side for implementing at least the steps of the communication control method described in the fourth embodiment, and referring to fig. 14, the communication control device 140 includes:

the third receiving module 141 is configured to receive indication information of a base station, where the indication information includes at least one of the following: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; the third indication information is used for indicating the terminal to read broadcast messages of other NR frequency points and report the broadcast messages to the service base station;

a first processing module 142, configured to read broadcast messages of other cells on the other carrier frequencies or the other systems when the indication information is the first indication information;

The second processing module 143 is configured to report a resource configuration request for requesting resources of other systems when the indication information is the second indication information;

and a third processing module 144, configured to read the broadcast message of the other NR frequency points and report the broadcast message to the base station when the indication information is the third indication information.

The specific steps of the communication control method flow are described in the fourth embodiment, and are not described herein.

Fourteen examples:

the embodiment of the present invention mainly provides a communication control device, based on the fifth embodiment, where the main station is on the base station side, for implementing at least the steps of the communication control method described in the fifth embodiment, and referring to fig. 15, the communication control device 150 includes:

a fourth receiving module 151, configured to receive a resource configuration request sent by a terminal, where the resource configuration request includes at least one of the following: auxiliary messages, direct link messages, buffer status reports;

the resource allocation module 152 is configured to allocate resources for the terminal according to the resource allocation request, and send the resource information to the terminal.

The specific steps of the communication control method flow are described in the fifth embodiment, and are not repeated here.

Example fifteen:

the embodiment of the present invention mainly provides, based on the sixth embodiment, a communication control device provided at a base station side for implementing at least the steps of the communication control method described in the sixth embodiment, and referring to fig. 16, the communication control device 160 includes:

a second sending module 161, configured to send one or more resource pool information to the terminal; the terminal is used for selecting resources to send and/or receive the Internet of vehicles message according to the resource pool information; wherein the resource pool information includes at least one of: system information, frequency point information, time slot information and beam indication information.

The specific steps of the communication control method flow are described in the sixth embodiment, and are not described herein.

Example sixteen:

the embodiment of the present invention mainly provides, on the base station side, a communication control device for implementing at least the steps of the communication control method described in the seventh embodiment, referring to fig. 17, where the communication control device 170 includes:

the third sending module 171 is configured to send indication information to the terminal, where the indication information includes at least one of the following: the first indication information is used for indicating the terminal to autonomously read system broadcast messages of other carrier frequencies or other systems; the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode; and the third indication information is used for indicating the terminal to read the broadcast messages of other NR frequency points and report the broadcast messages to the service base station.

The specific steps of the communication control method flow are described in the seventh embodiment, and are not described herein.

Example seventeenth:

the embodiment of the present invention mainly provides a communication control system, based on the eighth, ninth and tenth embodiments, where the main station is on the system side, for implementing at least the steps of the communication control method in the corresponding embodiment, and referring to fig. 18, the communication control system 180 includes:

the communication control device 181 according to embodiment 11 and the communication control device 182 according to embodiment 14.

Please refer to the descriptions in embodiment 11 and embodiment 14, and the descriptions are omitted here.

The present embodiment also provides a communication control system, referring to fig. 19, the communication control system 190 includes:

the communication control device 191 according to embodiment 12, and the communication control device 192 according to embodiment 15.

Please refer to the descriptions in embodiment 12 and embodiment 15, and the descriptions are omitted here.

The present embodiment also provides a communication control system, referring to fig. 20, the communication control system 200 includes:

the communication control device 201 according to embodiment 13, and the communication control device 202 according to embodiment 16.

Please refer to the descriptions in embodiment 13 and embodiment 16, and the descriptions are omitted here.

Example eighteenth:

the embodiment of the present invention provides, based on the first and/or second embodiments, a terminal for implementing at least the steps of the communication control method described in the first and/or second embodiments, and referring to fig. 21, the terminal 210 includes: a first processor 211, a first memory 212, and a first communication bus 213;

the first communication bus 213 is used to implement connection communication between the first processor 211 and the first memory 212;

the first processor 211 is configured to execute one or more computer programs stored in the first memory 212 to implement at least the steps of the communication control method as described in the first and/or second embodiments.

Example nineteenth:

the embodiment of the present invention provides, based on the third embodiment, a terminal for implementing at least the steps of the communication control method described in the third embodiment, referring to fig. 22, where the terminal 220 includes: a second processor 221, a second memory 222, and a second communication bus 223;

the second communication bus 223 is used to implement connection communication between the second processor 221 and the second memory 222;

The second processor 221 is configured to execute one or more computer programs stored in the second memory 222 to implement at least the steps of the communication control method described in the third embodiment.

Example twenty:

the embodiment of the present invention provides, based on the fourth embodiment, a terminal for implementing at least the steps of the communication control method described in the fourth embodiment, referring to fig. 23, where the terminal 230 includes: a third processor 231, a third memory 232, and a third communication bus 233;

the third communication bus 233 is used to implement connection communication between the third processor 231 and the third memory 232;

the third processor 231 is configured to execute one or more computer programs stored in the third memory 232 to implement at least the steps of the communication control method according to the fourth embodiment.

Example twenty-one:

the embodiment of the present invention provides a base station, based on the fifth embodiment, for implementing at least the steps of the communication control method described in the fifth embodiment, referring to fig. 24, where the terminal 240 includes: fourth processor 241, fourth memory 242, and fourth communication bus 243;

the fourth communication bus 243 is used for implementing connection communication between the fourth processor 241 and the fourth memory 242;

The fourth processor 241 is configured to execute one or more computer programs stored in the fourth memory 242 to implement at least the steps of the communication control method according to the fifth embodiment.

Example twenty two:

an embodiment of the present invention provides, based on the sixth embodiment, a base station for implementing at least the steps of the communication control method described in the sixth embodiment, referring to fig. 25, where the base station 250 includes: a fifth processor 251, a fifth memory 252, and a fifth communication bus 253;

the fifth communication bus 253 is used for realizing connection communication between the fifth processor 251 and the fifth memory 252;

the fifth processor 251 is configured to execute one or more computer programs stored in the fifth memory 252 to implement at least the steps of the communication control method according to the sixth embodiment.

Example twenty-three:

the embodiment of the present invention provides a base station, based on the seventh embodiment, for implementing at least the steps of the communication control method described in the sixth embodiment, referring to fig. 26, where the base station 260 includes: a sixth processor 261, a sixth memory 262, and a sixth communication bus 263;

the sixth communication bus 263 is used to implement a connection communication between the sixth processor 261 and the sixth memory 262;

The sixth processor 261 is configured to execute one or more computer programs stored in the sixth memory 262 to implement at least the steps of the communication control method according to the sixth embodiment.

Example twenty-four:

the present embodiments provide a storage medium including volatile or nonvolatile, removable or non-removable media implemented in any method or technology for storage of information, such as computer readable instructions, data structures, computer program modules or other data. Storage media includes, but is not limited to, RAM (Random Access Memory ), ROM (Read-Only Memory), EEPROM (Electrically Erasable Programmable Read Only Memory, charged erasable programmable Read-Only Memory), flash Memory or other Memory technology, CD-ROM (Compact Disc Read-Only Memory), digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can be accessed by a computer.

The storage medium stores one or more computer programs executable by one or more processors to implement the steps of the communication control method in any of the embodiments described above.

The present embodiment also provides a computer program (or computer software) which can be distributed on a computer readable medium and executed by a computable device to realize at least one step of the communication control methods in the above-described embodiment X and embodiment XX; and in some cases at least one of the steps shown or described may be performed in a different order than that described in the above embodiments.

It should be understood that in some cases, at least one of the steps shown or described may be performed in a different order than that described in the above embodiments.

The present embodiment also provides a computer program product comprising computer readable means having stored thereon a computer program as shown above. The computer readable means in this embodiment may include a storage medium as shown above.

It will be apparent to one skilled in the art that all or some of the steps of the methods, systems, functional modules/units in the apparatus disclosed above may be implemented as software (which may be implemented in computer program code executable by a computing apparatus), firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between the functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed cooperatively by several physical components. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit.

Furthermore, as is well known to those of ordinary skill in the art, communication media typically embodies computer readable instructions, data structures, computer program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and may include any information delivery media. Therefore, the present invention is not limited to any specific combination of hardware and software.

The foregoing is a further detailed description of embodiments of the invention in connection with the specific embodiments, and it is not intended that the invention be limited to the specific embodiments described. It will be apparent to those skilled in the art that several simple deductions or substitutions may be made without departing from the spirit of the invention, and these should be considered to be within the scope of the invention.

Claims (22)

1. A communication control method, comprising:

a resource allocation request is sent to a base station, and the base station is used for allocating resources for the terminal; the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports;

receiving resource information distributed by a base station;

the resource information allocated by the receiving base station includes at least one of the following:

Receiving semi-persistent scheduling, SPS, configuration information, the SPS configuration information comprising: LTE resources and NR resources;

receiving configuration scheduling, CS, configuration information, the CS configuration information comprising: LTE resources and NR resources;

receiving Downlink Control Indication (DCI) information, wherein the DCI carries system indication information;

before the resource allocation request is sent to the base station, the method further comprises: and receiving second indication information issued by the base station, wherein the second indication information is used for indicating the terminal to acquire resource information of other systems from the base station in a resource request mode.

2. The communication control method according to claim 1, wherein,

and when the resource allocation request is the cache state report, carrying system indication information or a configuration file index in the cache state report.

3. The communication control method according to claim 1, wherein when the resource configuration request is the auxiliary message or the through link message, the auxiliary message or the through link message includes at least one of: the corresponding relation set of the target identification index and the target identification and the available modes; and the corresponding relation set of the target identification index and the target identification and the configuration file index.

4. A communication control method according to claim 2 or 3, wherein the system includes at least one of: LTE, NR,4G,5G,R-X; wherein X is an integer, and the R-X identifies version numbers of different protocols.

5. A communication control method, comprising:

receiving indication information of a base station, wherein the indication information comprises: the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode;

and when the indication information is the second indication information, reporting a resource allocation request by the terminal to request resources of other modes.

6. A communication control method, comprising:

receiving a resource configuration request sent by a terminal, wherein the resource configuration request comprises at least one of the following: auxiliary messages, direct link messages, buffer status reports;

configuring resources for the terminal according to the resource configuration request, and sending resource information to the terminal;

the resource configuration mode comprises at least one of the following steps:

generating SPS configuration information by semi-persistent scheduling, the SPS configuration information comprising: LTE resources and NR resources;

generating CS configuration information through configuration scheduling, wherein the CS configuration information comprises the following steps: LTE resources and NR resources;

Carrying system indication information in downlink control indication DCI information;

before the resource configuration request sent by the receiving terminal, the method further comprises:

and transmitting second indication information to the terminal, wherein the second indication information is used for indicating the terminal to acquire resource information of other systems from the base station in a resource request mode.

7. The communication control method according to claim 6, wherein configuring resources for the terminal according to the resource configuration request when the resource configuration request is the buffer status report comprises:

acquiring system indication information or a configuration file index in the buffer status report; and configuring resources for the terminal according to the standard indication information or the configuration file index.

8. The communication control method according to claim 6, wherein when the resource configuration request is the auxiliary message or the through link message, configuring resources for the terminal according to the resource configuration request comprises:

acquiring at least one of the auxiliary message or the cut-through link message: the corresponding relation set of the target identification index and the target identification and the available modes; the corresponding relation set of the target identification index and the target identification and the configuration file index;

And configuring resources for the terminal according to the corresponding relation set of the target identification index and the target identification and the available modes and/or the corresponding relation set of the target identification index and the target identification and the configuration file index.

9. The communication control method according to claim 7 or 8, wherein the system includes at least one of: LTE, NR,4G,5G,R-X; wherein X is an integer, and the R-X identifies version numbers of different protocols.

10. A communication control method, comprising:

transmitting indication information to a terminal, wherein the indication information comprises: the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode;

and when the indication information is the second indication information, reporting a resource allocation request by the terminal to request resources of other modes.

11. A communication control method, comprising:

the terminal sends a resource allocation request, which is used for the base station to allocate resources for the terminal; the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports;

the base station receives the resource allocation request, allocates resources for the terminal according to the resource allocation request, and sends resource information to the terminal;

The terminal receives the resource information distributed by the base station;

the terminal receiving the resource information allocated by the base station includes at least one of:

receiving semi-persistent scheduling, SPS, configuration information, the SPS configuration information comprising: LTE resources and NR resources;

receiving configuration scheduling, CS, configuration information, the CS configuration information comprising: LTE resources and NR resources;

receiving Downlink Control Indication (DCI) information, wherein the DCI carries system indication information;

before the terminal sends the resource allocation request to the base station, the method further comprises: the terminal receives second indication information issued by the base station, wherein the second indication information is used for indicating the terminal to obtain resource information of other systems from the base station in a resource request mode.

12. A communication control method, comprising:

the base station transmits indication information, wherein the indication information comprises: the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode;

and the terminal receives the indication information, and when the indication information is the second indication information, the terminal reports a resource allocation request for requesting resources of other systems.

13. A communication control apparatus comprising:

The first sending module is used for sending a resource allocation request to the base station so that the base station allocates resources for the terminal; the resource configuration request includes at least one of: auxiliary messages, direct link messages, buffer status reports;

the first receiving module is used for receiving the resource information distributed by the base station;

the resource information allocated by the receiving base station includes at least one of the following:

receiving semi-persistent scheduling, SPS, configuration information, the SPS configuration information comprising: LTE resources and NR resources;

receiving configuration scheduling, CS, configuration information, the CS configuration information comprising: LTE resources and NR resources;

receiving Downlink Control Indication (DCI) information, wherein the DCI carries system indication information;

before the resource allocation request is sent to the base station, the method further comprises: and receiving second indication information issued by the base station, wherein the second indication information is used for indicating the terminal to acquire resource information of other systems from the base station in a resource request mode.

14. A communication control apparatus comprising:

the third receiving module is configured to receive indication information sent by the base station, where the indication information includes: the second indication information is used for indicating the terminal to obtain the resource information of other systems from the base station in a resource request mode;

And the second processing module is used for reporting a resource configuration request for requesting resources of other systems when the indication information is the second indication information.

15. A communication control apparatus comprising:

a fourth receiving module, configured to receive a resource configuration request sent by a terminal, where the resource configuration request includes at least one of the following: auxiliary messages, direct link messages, buffer status reports;

the resource allocation module is used for allocating resources for the terminal according to the resource allocation request and sending the resource information to the terminal;

the resource configuration mode comprises at least one of the following steps:

generating SPS configuration information by semi-persistent scheduling, the SPS configuration information comprising: LTE resources and NR resources;

generating CS configuration information through configuration scheduling, wherein the CS configuration information comprises the following steps: LTE resources and NR resources;

carrying system indication information in downlink control indication DCI information;

the communication control device further includes, before the resource allocation request sent by the receiving terminal:

and transmitting second indication information to the terminal, wherein the second indication information is used for indicating the terminal to acquire resource information of other systems from the base station in a resource request mode.

16. A communication control apparatus comprising:

the third sending module is used for sending indication information to the terminal, wherein the indication information comprises second indication information and is used for indicating the terminal to obtain resource information of other systems from the base station in a resource request mode;

and when the indication information is the second indication information, reporting a resource allocation request by the terminal to request resources of other modes.

17. A communication control system comprising at least one of:

the communication control apparatus according to claim 13, and the communication control apparatus according to claim 15;

the communication control device according to claim 14, and the communication control device according to claim 16.

18. A terminal comprising a first processor, a first memory and a first communication bus;

the first communication bus is used for realizing connection communication between the first processor and the first memory;

the first processor is configured to execute one or more computer programs stored in the first memory to implement the steps of the communication control method according to any one of claims 1 to 4.

19. A terminal comprises a third processor, a third memory and a third communication bus;

The third communication bus is used for realizing connection communication between the third processor and the third memory;

the third processor is configured to execute one or more computer programs stored in the third memory to implement the steps of the communication control method as claimed in claim 5.

20. A base station comprises a fourth processor, a fourth memory and a fourth communication bus;

the fourth communication bus is used for realizing connection communication between the fourth processor and the fourth memory;

the fourth processor is configured to execute one or more computer programs stored in the fourth memory to implement the steps of the communication control method according to any one of claims 6 to 9.

21. A base station comprising a sixth processor, a sixth memory and a sixth communication bus;

the sixth communication bus is used for realizing connection communication between the sixth processor and the sixth memory;

the sixth processor is configured to execute one or more computer programs stored in the sixth memory to implement the steps of the communication control method as claimed in claim 10.

22. A storage medium storing one or more computer programs executable by one or more processors to implement the steps of the communication control method of any one of claims 1 to 4, or claim 5, or any one of claims 6 to 9, or claim 10.

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