WO2017000624A1 - 基站与车联网应用服务器通信的控制方法、设备及系统 - Google Patents

基站与车联网应用服务器通信的控制方法、设备及系统 Download PDF

Info

Publication number
WO2017000624A1
WO2017000624A1 PCT/CN2016/079072 CN2016079072W WO2017000624A1 WO 2017000624 A1 WO2017000624 A1 WO 2017000624A1 CN 2016079072 W CN2016079072 W CN 2016079072W WO 2017000624 A1 WO2017000624 A1 WO 2017000624A1
Authority
WO
WIPO (PCT)
Prior art keywords
identifier
transmission channel
service
vfm
base station
Prior art date
Application number
PCT/CN2016/079072
Other languages
English (en)
French (fr)
Inventor
林琳
房家奕
张娟
李凤
Original Assignee
电信科学技术研究院
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 电信科学技术研究院 filed Critical 电信科学技术研究院
Publication of WO2017000624A1 publication Critical patent/WO2017000624A1/zh

Links

Images

Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L65/00Network arrangements, protocols or services for supporting real-time applications in data packet communication
    • H04L65/40Support for services or applications
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/12Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks

Definitions

  • the present application relates to the field of communications technologies, and in particular, to a method, device, and system for controlling communication between a base station and a vehicle networking application server.
  • Vehicle communication is an important part of the Internet of Vehicles.
  • the existing DSRC (Dedicated Short Range Communications) technology supports vehicle communication systems including vehicle terminals, RSU (Road Side Unit) and vehicle networking applications.
  • the server (hereinafter referred to as Server), as shown in Figure 1, the server implements localization services for the vehicle terminal through the RSU.
  • the base station can be used as an RSU to provide application services to vehicle terminals and implement application services. Localization.
  • the base station is used for the sending node that the server provides the service to the vehicle, and the reporting node for the vehicle to provide information to the server, and the base station needs to interact with the server.
  • the base station acts as the internal network element of the carrier network.
  • the operator does not want the server to know the information of the base station.
  • the carrier as the service provider of the infrastructure needs to perform the interaction between the base station and the server. Management control.
  • the embodiment of the present invention provides a control method, device, and system for communicating between a base station and a vehicle networking application server, which is used to implement communication control between the base station and the vehicle networking application server when the base station is used as a roadside unit.
  • a method for controlling communication between a base station and a vehicle networking application server including:
  • the vehicle network service function management VFM entity receives the service data information of the vehicle networking application server, where the service data information carries the service data and the identifier of the first transmission channel, and the first transmission channel is used for the service of the vehicle networking application server. Communication with the VFM entity;
  • the vehicle network service function management VFM entity receives the service data information of the base station, where the service data information carries the service data and the identifier of the second transmission channel, where the second transmission channel is used between the VFM and the service of the base station Communication;
  • the VFM entity Determining, by the VFM entity, an identifier of the first transmission channel corresponding to the identifier of the second transmission channel according to the correspondence between the identifier of the second transmission channel and the identifier of the first transmission channel, where the first transmission channel is used for the vehicle network Communication between the service of the application server and the VFM entity;
  • the VFM entity sends the service data to a corresponding car network application server according to the determined identifier of the first transmission channel.
  • the method before the VFM entity receives the service data information of the car network application server, or before the VFM entity receives the service data information of the base station, the method further includes:
  • the VFM entity according to the correspondence between the identifier of the saved base station and the feature information of the base station, the feature information includes at least the coverage of the base station, determining a base station that satisfies the requirement information, and establishing the vehicle networking application server. Generating a first transmission channel between the service and the VFM entity, and establishing a second transmission channel between the determined base station and the VFM entity, generating an identifier of the first transmission channel and an identifier of the second transmission channel And storing a correspondence between the identifier of the first transmission channel and the identifier of the second transmission channel;
  • the VFM entity sends the identifier of the first transmission channel to the vehicle networking application server, and sends the identifier of the second transmission channel and the service identifier to the determined base station.
  • the method before the VFM entity obtains the service identifier of the IoT application server and the corresponding requirement information, the method further includes:
  • the VFM entity determines that the identity information of the car network application server is legal, and registers the car network application server.
  • the method further includes:
  • VFM entity determines to receive a trigger message for interrupting communication between the base station and the service of the Internet of Things application server, interrupting service data information between the base station and the vehicle networking application server for the service Transmission.
  • the method further includes:
  • the VFM entity counts the length of time for transmitting the service data information of the service between the base station and the car network application server, and/or the data traffic generated by transmitting the service data information of the service, and/or the transmission station The spectrum resource information occupied by the service data information of the service.
  • the method further includes:
  • the VFM entity receives a logout request of the car network application server, where the logout request carries an identifier of the first transmission channel;
  • the VFM entity deregisters the first transmission channel indicated by the identifier of the first transmission channel and the second transmission channel indicated by the identifier of the second transmission channel corresponding to the identifier of the first transmission channel.
  • the method further includes:
  • the VFM entity receives the configuration information of the IoT application server, where the configuration information includes an identifier of the first transmission channel and a configuration policy;
  • the method further includes:
  • the VFM entity sends the configuration policy to the corresponding base station according to the determined identifier of the second transmission channel.
  • a method for controlling communication between a base station and a vehicle networking application server including:
  • the base station acquires service data information, where the service data information carries service identifiers and service data;
  • the base station processes the service data according to the determined service indicated by the service identifier.
  • the method before the base station acquires the service data information, or before the base station receives the service data information of the VFM entity, the method further includes:
  • the base station receives the correspondence between the service identifier sent by the VFM entity and the identifier of the second transmission channel, and saves the correspondence.
  • the method further includes:
  • the base station receives configuration policy information sent by the VFM entity, where the configuration policy information carries a configuration policy and an identifier of the second transmission channel;
  • the base station is configured according to the configuration policy.
  • a method for controlling communication between a base station and a vehicle networking application server including:
  • the vehicle networking application server obtains service data and service identifiers
  • the vehicle networking application server sends the service data and the determined identifier of the first transmission channel to the vehicle network service function management VFM entity;
  • the vehicle networking application server processes the service data according to the service indicated by the determined service identifier.
  • the method further includes:
  • the vehicle networking application server acquires the demand information of the service, where the demand information includes at least a coverage area, and sends the demand information and the service identifier of the service to the VFM entity;
  • the vehicle networking application server receives the identifier of the first transmission channel that is returned by the VFM entity according to the requirement information, and saves the correspondence between the identifier of the first transmission channel and the service identifier.
  • the method further includes:
  • the vehicle networking application server sends a registration request to the VFM entity, where the registration request carries identity information of the vehicle networking application server.
  • the method further includes:
  • the vehicle networking application server sends a logout request to the VFM entity, where the logout request carries an identifier of the first transport channel.
  • the method further includes:
  • the vehicle networking application server acquires a configuration policy and a service identifier of the service
  • the method further includes:
  • the vehicle networking application server sends the configuration policy and the identifier of the first transmission channel to the VFM entity.
  • the fourth aspect provides a car navigation service function management VFM entity device, including:
  • a receiving module configured to receive service data information of the vehicle networking application server, where the service data information carries service data and an identifier of a first transmission channel, where the first transmission channel is used for a service and a service of the vehicle networking application server Said communication between VFM entities;
  • a processing module configured to determine, according to a correspondence between an identifier of the first transmission channel and an identifier of the second transmission channel, a second transmission channel identifier corresponding to the identifier of the first transmission channel, where the second transmission channel is used for Communication between the VFM entity and the service of the base station;
  • a sending module configured to send the service data to a corresponding base station according to the determined identifier of the second transmission channel
  • a receiving module configured to receive service data information of the base station, where the service data information carries service data and an identifier of a second transmission channel, where the second transmission channel is used for communication between the VFM and the service of the base station ;
  • a processing module configured to determine, according to a correspondence between an identifier of the second transmission channel and an identifier of the first transmission channel, an identifier of the first transmission channel corresponding to the identifier of the second transmission channel, where the first transmission channel is used for a vehicle Communication between the services of the networked application server and the VFM entity;
  • a sending module configured to send the service data to the corresponding car network application server according to the determined identifier of the first transmission channel.
  • the receiving module is further configured to:
  • the processing module is further configured to:
  • the feature information includes at least a coverage of the base station, determining a base station that satisfies the requirement information, and establishing a service of the vehicle networking application server and the a first transmission channel between the VFM entities, and a second transmission channel between the determined base station and the VFM entity, generating an identifier of the first transmission channel and an identifier of the second transmission channel, and saving the Corresponding relationship between the identifier of the first transmission channel and the identifier of the second transmission channel;
  • the sending module is further configured to:
  • the receiving module is further configured to:
  • the processing module is further configured to:
  • the receiving module is further configured to:
  • the processing module is further configured to:
  • processing module is further configured to:
  • the receiving module is further configured to:
  • the processing module is further configured to:
  • the receiving module is further configured to:
  • configuration information of the IoT application server where the configuration information includes an identifier of the first transmission channel and a configuration policy
  • the sending module is further configured to:
  • a base station including:
  • An obtaining module configured to obtain service data information, where the service data information carries a service identifier and service data;
  • a determining module configured to determine the service identifier according to the correspondence between the service identifier and the identifier of the second transmission channel Corresponding second transmission channel identifier;
  • a sending module configured to send the service data and the determined second transmission channel identifier to the car network service function management VFM entity;
  • An acquiring module configured to receive service data information sent by the VFM entity, where the service data information carries service data and an identifier of a second transmission channel;
  • a determining module configured to determine, according to a correspondence between the identifier of the second transmission channel and the service identifier, a service identifier corresponding to the identifier of the second transmission channel;
  • a processing module configured to process the service data according to the determined service indicated by the service identifier.
  • the obtaining module is further configured to:
  • the obtaining module is further configured to:
  • configuration policy information sent by the VFM entity, where the configuration policy information carries a configuration policy and an identifier of the second transmission channel;
  • the processing module is further configured to:
  • a vehicle networking application server including:
  • An obtaining module configured to obtain service data and a service identifier
  • a determining module configured to determine, according to a correspondence between the service identifier and the identifier of the first transmission channel, an identifier of the first transmission channel corresponding to the service identifier;
  • a sending module configured to send the service data and the determined identifier of the first transmission channel to the car network service function management VFM entity;
  • An acquiring module configured to receive service data sent by the VFM entity and an identifier of the first transmission channel
  • a determining module configured to determine, according to a correspondence between the identifier of the first transmission channel and the service identifier, a service identifier corresponding to the identifier of the first transmission channel;
  • a processing module configured to process the service data according to the service indicated by the determined service identifier.
  • the obtaining module is further configured to:
  • the demand information includes at least a coverage, and sending the demand information and the service identifier of the service to the VFM entity;
  • the sending module is further configured to:
  • the sending module is further configured to:
  • the obtaining module is further configured to:
  • the sending module is further configured to:
  • a control system for communication between a base station and a vehicle networking application server including:
  • the vehicle networking application server is configured to obtain the service data and the service identifier, and determine the identifier of the first transmission channel corresponding to the service identifier according to the correspondence between the service identifier and the identifier of the first transmission channel, and the service data and the determined
  • the identifier of the first transmission channel is sent to the car network service function management VFM entity;
  • the vehicle network service function management VFM entity is configured to receive the service data sent by the vehicle networking application server and the determined identifier of the first transmission channel, where the first transmission channel is used for the service of the vehicle networking application server
  • the communication between the VFM entities determines the second transmission channel identifier corresponding to the identifier of the first transmission channel according to the correspondence between the identifier of the first transmission channel and the identifier of the second transmission channel, and the second transmission channel
  • the communication between the service of the VFM entity and the base station is sent to the corresponding base station according to the determined identifier of the second transmission channel;
  • the base station is configured to receive the service data sent by the VFM entity and the identifier of the second transmission channel, and determine the service identifier corresponding to the identifier of the second transmission channel according to the correspondence between the identifier of the second transmission channel and the service identifier, according to Determining, by the service indicated by the service identifier, the service data;
  • a base station configured to obtain service data information, where the service data information carries a service identifier and service data, and determines a second transmission channel identifier corresponding to the service identifier according to the correspondence between the service identifier and the second transmission channel identifier, where Transmitting the service data and the determined second transmission channel identifier to the vehicle network service function management VFM entity;
  • the vehicle network service function management VFM entity is configured to receive service data information of the base station, where the service data information carries service data and an identifier of a second transmission channel, where the second transmission channel is used by the VFM and the base station
  • the communication between the services is determined according to the correspondence between the identifier of the second transmission channel and the identifier of the first transmission channel. Determining, by the identifier of the second transmission channel, an identifier of the first transmission channel, where the first transmission channel is used for communication between the service of the vehicle networking application server and the VFM entity, according to the determined identifier of the first transmission channel Transmitting the service data to a corresponding car network application server;
  • the vehicle network application server is configured to receive the service data sent by the VFM entity and the identifier of the first transmission channel, and determine the service corresponding to the identifier of the first transmission channel according to the correspondence between the identifier of the first transmission channel and the service identifier. Identifying, processing the service data according to the service indicated by the determined service identifier.
  • the VFM entity is managed by setting a car networking service function between the base station and the vehicle networking application server, and the transmission channel between the base station and the vehicle networking application server is established by the VFM entity to implement the base station and Control of communication between the Internet of Vehicles application servers to avoid the impact of the Internet of Vehicles application server directly communicating with the base station on the security of the base station.
  • FIG. 1 is a schematic structural diagram of a server implementing localization services for an in-vehicle terminal through an RSU;
  • FIG. 2 is a schematic structural diagram of communication between a base station as an RSU and a vehicle networking application server according to an embodiment of the present application;
  • FIG. 3 is a schematic flowchart of a method for controlling communication between a base station and a car network application server by a VFM entity according to an embodiment of the present application;
  • FIG. 4 is a schematic flowchart of a method for controlling communication between a base station and a car network application server by another VFM entity in the embodiment of the present application;
  • FIG. 5 is a schematic flowchart of a method for communication between a base station and a VFM entity in the embodiment of the present application
  • FIG. 6 is a schematic flowchart of a method for communication between another base station and a VFM entity in the embodiment of the present application
  • FIG. 7 is a schematic flowchart of a method for communication between a vehicle networking application server and a VFM entity according to an embodiment of the present application
  • FIG. 8 is a schematic flowchart of a method for communication between another vehicle networking application server and a VFM entity in the embodiment of the present application;
  • FIG. 9 is a schematic diagram of a connection between a VFM entity and a vehicle networking application server according to an embodiment of the present application.
  • FIG. 10 is a schematic diagram of a connection between a VFM entity and a base station according to an embodiment of the present application.
  • FIG. 11 is a schematic flowchart of a method for selecting a base station for a vehicle networking application server according to an embodiment of the present application
  • FIG. 12 is a schematic flowchart of another method for selecting a base station for an Internet of Vehicle Application Server according to an embodiment of the present application
  • FIG. 13 is a schematic flowchart of data transmission between a base station and a vehicle networking application server according to an embodiment of the present application
  • FIG. 14 is a schematic flowchart of data transmission between another base station and a vehicle networking application server according to an embodiment of the present application
  • FIG. 15 is a schematic structural diagram of a VFM physical device according to an embodiment of the present application.
  • FIG. 16 is a schematic structural diagram of another VFM entity device according to an embodiment of the present application.
  • FIG. 17 is a schematic structural diagram of a base station according to an embodiment of the present application.
  • FIG. 18 is a schematic structural diagram of another base station according to an embodiment of the present application.
  • FIG. 19 is a schematic structural diagram of another base station according to an embodiment of the present application.
  • FIG. 20 is a schematic structural diagram of a vehicle networking application server according to an embodiment of the present application.
  • FIG. 21 is a schematic structural diagram of another vehicle networking application server according to an embodiment of the present application.
  • FIG. 22 is a schematic structural diagram of another vehicle networking application server according to an embodiment of the present application.
  • FIG. 23 is a schematic structural diagram of a control system for communication between a base station and a vehicle networking application server according to an embodiment of the present application.
  • VFM Vehicle Networking Application Function Management
  • the VFM entity is a logical function entity, and the VFM entity described in the following embodiments may be a single entity that is responsible for both control plane and data plane transmission, or multiple entities responsible for control plane and data plane transmission respectively. .
  • the VFM entity has multiples depending on the carrier network to which it belongs.
  • the VFM entity can be added to the mobile communication system as a new network device, or it can be attached to the existing network device.
  • the control plane function of the VFM entity is integrated on the MME (Mobility Management Entity), and the data plane function Integrated on the PGW (Packet Data Gateway).
  • the base station involved in the embodiment of the present application may be an eNB, an RNC, a BTS, or the like, and may also be a third-party entity, such as an RSU.
  • the identifier of the first transmission channel may be the same as or different from the identifier of the second transmission channel for a certain service.
  • the detailed method for controlling the communication between the base station and the vehicle networking application server by the VFM entity is as follows:
  • Step 301 The VFM entity receives the service data information of the vehicle networking application server, where the service data information carries the service data and the identifier of the first transmission channel, and the first transmission channel is used for communication between the service of the vehicle networking application server and the VFM entity.
  • Step 302 The VFM entity determines, according to the correspondence between the identifier of the first transmission channel and the identifier of the second transmission channel, the second transmission channel identifier corresponding to the identifier of the first transmission channel, where the second transmission channel is used for the service of the VFM entity and the base station. Communication between.
  • Step 303 The VFM entity sends the service data to the corresponding base station according to the determined identifier of the second transmission channel.
  • the detailed method for controlling the communication between the base station and the vehicle networking application server by the VFM entity is as follows:
  • Step 401 The VFM entity receives service data information of the base station, where the service data information carries the service data and the identifier of the second transmission channel, and the second transmission channel is used for communication between the service of the VFM and the base station.
  • Step 402 The VFM entity determines, according to the correspondence between the identifier of the second transmission channel and the identifier of the first transmission channel, the identifier of the first transmission channel corresponding to the identifier of the second transmission channel, where the first transmission channel is used by the vehicle networking application server. Communication between the service and the VFM entity.
  • Step 403 The VFM entity sends the service data to the corresponding car network application server according to the determined identifier of the first transmission channel.
  • the first transmission channel between the VFM entity and the car network application server needs to be established before the VFM entity receives the service data information of the car network application server, or before the VFM entity receives the service data information of the base station. And establishing a second transmission channel between the VFM entity and the base station, as follows:
  • the VFM entity obtains the service identifier of the vehicle networking application server and the corresponding requirement information, and the demand information includes at least the coverage;
  • the VFM entity according to the correspondence between the identifier of the saved base station and the feature information of the base station, the feature information includes at least the coverage of the base station, determines the base station that satisfies the demand information, and establishes the first transmission between the service of the vehicle networking application server and the VFM entity. a channel, and establishing a second transmission channel between the determined base station and the VFM entity, generating an identifier of the first transmission channel and an identifier of the second transmission channel, and saving between the identifier of the first transmission channel and the identifier of the second transmission channel Correspondence relationship;
  • the VFM entity sends the identity of the first transmission channel to the vehicle networking application server, and transmits the identity and service identifier of the second transmission channel to the determined base station.
  • the identifier of the base station and the feature information of the base station that are saved by the VFM entity may be obtained by reporting by the base station, or may be obtained from other network elements, for example, obtaining the feature information of the base station from OAM (Operation and Maintenance).
  • OAM Operaation and Maintenance
  • the feature information of the base station may also include location information of the base station and the like.
  • the VFM entity before the VFM entity establishes the first transmission channel between the VFM entity and the vehicle networking application server and establishes the second transmission channel between the VFM entity and the base station, it is necessary to determine whether the vehicle networking application server is legal or not. as follows:
  • the VFM entity receives a registration request of the vehicle networking application server, and the registration request carries the identity information of the vehicle networking application server;
  • the VFM entity determines that the identity information of the vehicle networking application server is legal and registers the vehicle networking application server.
  • the VFM entity reviews the identity information of the vehicle networking application server, determines that the identity information is legal, the registration of the vehicle networking application server is successful, and subsequently negotiates the transmission channel and other information with the vehicle networking application server.
  • the identity information of the vehicle networking application server may be the operating company and legal person information of the vehicle networking application server, or may be the qualification information of the vehicle networking application server, for example, the operational qualification certificate of the vehicle networking application server and the base station implementation.
  • the qualification certificate of the application service localization may also be the network address of the vehicle networking application server, the indication information of the geographic scope that the vehicle networking application server needs to cover, or the legal service provided by the vehicle networking application server.
  • a statement of compliance such as the Internet of Things application server, guarantees that the services it provides do not violate laws and regulations and do not infringe on personal privacy.
  • the VFM entity determines to receive the trigger message for interrupting the communication between the base station and the service network of the vehicle networking application server, the transmission of the service data information between the base station and the vehicle networking application server for the service is interrupted.
  • the trigger message for interrupting communication between the service of the base station and the network application server may be caused by a device fault, such as a base station fault, or may be caused by insufficient spectrum resources, for example, using a spectrum resource to transmit a higher priority.
  • the data of the business can also be caused by qualification issues, such as the receipt of the qualification of the Internet of Vehicles application server or the reporting of business violations.
  • the triggering conditions for the interruption in the actual application are not limited to the above enumerated situations, and the scope of protection of the present application is not limited thereto.
  • the VFM entity provides a basis for charging by counting the charging-related parameters generated by the communication between the base station and the Internet of Vehicles application server data, as follows:
  • the VFM entity counts the duration of the service data information of the transport service between the base station and the car network application server, and/or the data traffic generated by the service data information of the transport service, and/or the spectrum resource information occupied by the service data information of the transport service. .
  • the VFM entity can cancel the transmission channel between the vehicle networking application server and the base station about a certain service, and the VFM entity receives the logout of the vehicle networking application server, indicating that the VFM entity has released the registration relationship with the vehicle networking application server, as follows: :
  • the VFM entity receives the logout request of the car network application server, and the logout request carries the identifier of the first transmission channel;
  • the VFM entity deregisters the first transmission channel indicated by the identifier of the first transmission channel and the second transmission channel indicated by the identifier of the second transmission channel corresponding to the identifier of the first transmission channel.
  • the VFM entity can configure the base station for a certain service according to the requirements of the vehicle network application server to meet the service requirements, as follows:
  • the VFM entity receives configuration information of the vehicle networking application server, where the configuration information includes an identifier of the first transmission channel and a configuration policy;
  • the VFM entity determines, according to the correspondence between the identifier of the first transmission channel and the identifier of the second transmission channel, the identifier of the second transmission channel corresponding to the identifier of the first transmission channel;
  • the VFM entity sends the configuration policy to the corresponding base station according to the determined identifier of the second transmission channel.
  • the configuration policy is determined according to the requirement of the service corresponding to the identifier of the first transmission channel. For example, the configuration policy may be required to filter the collected data when the base station collects the data information of the vehicle terminal, so as to reduce the need for the base station to transmit to the vehicle.
  • the amount of data of the networked application server, or the configuration policy may be a parameter required for the base station to convert the collected data information of the in-vehicle terminal into a corresponding service for decision making, so that the service of the vehicle networking application server can be directly performed according to the information transmitted by the base station. decision making. This is only an example.
  • the specific configuration policy varies according to the requirements of the service. It is not listed here.
  • the detailed process of communication between the base station and the VFM entity is as follows:
  • Step 501 The base station acquires service data information, where the service data information carries the service identifier and the service data.
  • the service data information acquired by the base station may be generated by the running service itself, or may be the service data and the service identifier reported by the directly received vehicle terminal, or may be the original service data reported by the receiving vehicle terminal. After the service identifier is processed, the original service data is processed and obtained.
  • Step 502 The base station determines, according to the correspondence between the service identifier and the identifier of the second transmission channel, the second transmission channel identifier corresponding to the service identifier.
  • Step 503 The base station sends the service data and the determined second transmission channel identifier to the VFM entity.
  • the detailed process of communication between the base station and the VFM entity is as follows:
  • Step 601 The base station receives the service data information sent by the VFM entity, where the service data information carries the service data and the identifier of the second transmission channel.
  • Step 602 The base station determines, according to the correspondence between the identifier of the second transmission channel and the service identifier, the service identifier corresponding to the identifier of the second transmission channel.
  • Step 603 The base station processes the service data according to the service indicated by the determined service identifier.
  • the relationship between the service identifier and the identifier of the second transmission channel needs to be obtained.
  • the base station receives the correspondence between the service identifier sent by the VFM entity and the identifier of the second transmission channel and saves the relationship.
  • the base station may also configure the parameters related to the running of a certain service according to the configuration policy sent by the VFM entity, as follows:
  • the base station receives the configuration policy information sent by the VFM entity, where the configuration policy information carries the configuration policy and the identifier of the second transmission channel.
  • the base station is configured according to the configuration policy.
  • the software or hardware parameters of the base station are configured, so that the configured software and hardware can ensure the normal operation of the service.
  • the detailed process of communication between the vehicle networking application server and the VFM entity is as follows:
  • Step 701 The vehicle networking application server acquires service data and a service identifier.
  • Step 702 The vehicle networking application server determines, according to the correspondence between the service identifier and the identifier of the first transmission channel, the identifier of the first transmission channel corresponding to the service identifier.
  • Step 703 The vehicle networking application server sends the service data and the determined identifier of the first transmission channel to the VFM entity.
  • Step 801 The vehicle networking application server receives the service data sent by the VFM entity and the identifier of the first transmission channel.
  • Step 802 The vehicle networking application server determines, according to the correspondence between the identifier of the first transmission channel and the service identifier, the service identifier corresponding to the identifier of the first transmission channel.
  • Step 803 The vehicle networking application server processes the service data according to the service indicated by the determined service identifier.
  • the vehicle networking application server determines the identifier of the first transmission channel corresponding to the service identifier, or before determining the service identifier corresponding to the identifier of the first transmission channel, the identifier of the first transmission channel needs to be obtained.
  • the correspondence between service identifiers is as follows:
  • the vehicle networking application server obtains the demand information of the service, and the demand information includes at least the coverage, and sends the demand information and the service identifier of the service to the VFM entity;
  • the vehicle networking application server receives the identifier of the first transmission channel returned by the VFM entity according to the requirement information, and saves the correspondence between the identifier of the first transmission channel and the service identifier.
  • the vehicle networking application server performs service data transmission with the VFM entity. Before, you need to register with the VFM entity, optional:
  • the vehicle networking application server sends a registration request to the VFM entity, and the registration request carries the identity information of the vehicle networking application server.
  • the vehicle networking application server may request the VFM to log off the transmission channel according to its own needs, as follows:
  • the vehicle networking application server sends a logout request to the VFM entity, where the logout request carries the identifier of the first transport channel.
  • the vehicle networking application server may also send a configuration policy to the VFM entity to configure the base station according to the software and hardware configuration required for the service operation.
  • the vehicle networking application server obtains the service configuration.
  • the policy and the service identifier; the vehicle networking application server determines the identifier of the first transmission channel corresponding to the service identifier according to the correspondence between the service identifier and the identifier of the first transmission channel; the vehicle networking application server sends the configuration policy and the identifier of the first transmission channel Give the VFM entity.
  • the interface between the VFM entity and the vehicle networking application server is defined as an SV interface.
  • the VFM entity implements registration and deregistration of the vehicle networking application server through the SV interface, and configures the base station. And the transmission of notification information to the Internet of Vehicles application server.
  • the interface between the VFM entity and the base station is defined as a VE interface.
  • the VFM entity can implement information transmission to the base station by using the VE interface, for example, receiving feature information of the base station under the jurisdiction.
  • the reporting can realize the configuration of the base station according to the requirements of the Internet of Vehicles application server, and can realize the management of the internal business of the base station.
  • the VFM entity establishes a transmission channel between the vehicle networking application server and the base station through the SV interface and the VE interface.
  • the VFM entity is configured according to the relationship between the identifier of the saved base station and the feature information of the base station, and the feature information includes at least the coverage of the base station, and the base station that meets the requirement information is determined, including but not limited to the following two specific implementation manners:
  • the VFM entity sends a correspondence between the identifier of the base station and the feature information of the base station to the vehicle networking application server, and the vehicle networking application server selects the service information that satisfies the service according to the characteristic information of the base station.
  • the base station sends the feature information of the selected base station to the VFM entity; the VFM entity determines the identity of the base station corresponding to the feature information of the base station returned by the car network application server. details as follows:
  • Step 1101 The vehicle networking application server sends a request for selecting a base station to the VFM entity, where the request carries a service identifier.
  • Step 1102 The base station sends, according to the request of the selected base station, the saved base station to the network application server.
  • Step 1103 The vehicle networking application server selects a base station that satisfies the demand information of the service according to the feature information of each base station and the service demand information.
  • Step 1104 The vehicle networking application server sends the feature information of the selected base station to the VFM entity.
  • Step 1105 The VFM entity determines an identifier of the base station corresponding to the feature information of the base station selected by the network application server, and the first transmission channel is established between the VFM entity and the vehicle networking application server, and the base station indicated by the determined identity of the base station is determined. Establishing a second transmission channel;
  • Step 1106 The VFM entity sends the identifier of the second transmission channel and the service identifier to the determined base station.
  • Step 1107 The VFM entity receives the determined message that the base station returns to determine the establishment of the transmission channel.
  • Step 1108 The VFM entity sends the identifier of the first transmission channel, or the identifier and service identifier of the first transmission channel, to the vehicle networking application server.
  • Step 1109 The VFM entity receives a message that is determined by the car network application server to determine the establishment of the transmission channel.
  • the VFM entity determines, according to the correspondence between the identifier of the saved base station and the feature information of the base station, the feature information of the base station that satisfies the service information by determining the service demand information of the service object of the car network application server. And obtaining the identifier of the base station corresponding to the determined feature information of the base station. details as follows:
  • Step 1201 The vehicle networking application server sends a request for selecting a base station to the VFM entity, where the request carries a service identifier and service demand information, where the demand information includes at least a coverage area;
  • Step 1202 The VFM entity determines, according to the correspondence between the identifier of the saved base station and the feature information of the base station, the identity of the base station whose characteristic information of the base station meets the service requirement information, and establishes a first transmission channel between the VFM entity and the vehicle networking application server. Establishing a second transmission channel between the determined base station indicating the identity of the base station;
  • Step 1203 The VFM entity sends an identifier of the first transmission channel to the vehicle networking application server, or sends an identifier and a service identifier of the first transmission channel.
  • Step 1204 The VFM entity sends the identifier and the service identifier of the second transmission channel to the base station indicated by the identifier of the determined base station.
  • Step 1205 The VFM entity receives a message that is confirmed by the base station to confirm the establishment of the transmission channel.
  • Step 1206 Receive a message that confirms the establishment of the transmission channel returned by the vehicle networking application server.
  • the transmission channel between the vehicle networking application server and the base station is not necessarily explicit, and the vehicle networking application server does not need to know which specific base station to implement a specific service.
  • the base station only needs to perform data transmission according to the transmission channel of the VFM entity, and it is not necessary to know which IATA application server service.
  • each service may require multiple base stations to provide services.
  • Each base station may provide services for multiple services of multiple IoT application servers in the vehicle networking application server.
  • the VFM entity needs to assist in establishing a transmission channel between the vehicle networking application server and the base station.
  • the identifier of the first transmission channel between the VFM entity and the vehicle networking application server and the identifier of the second transmission channel between the VFM entity and the vehicle networking application server may be set to the same identifier.
  • the specific process of performing data transmission of the service B-APP1 by the server B and the base station X is as follows:
  • Step 1301 The VFM entity receives the service data information of the server B, where the service data information carries the service data and the identifier of the first transmission channel HD002-SV;
  • Step 1302 The VFM entity determines, by using a lookup table, that the identifier of the second transmission channel corresponding to the identifier of the first transmission channel HD002-SV is HD002-VE;
  • Step 1303 The VFM entity sends the service data information of the server B to the base station X, where the service data information carries the service data and the identifier of the second transmission channel HD002-VE;
  • Step 1304 The VFM entity receives the service data information of the base station X, where the service data information carries the service data and the identifier of the second transmission channel HD002-VE;
  • Step 1305 The VFM entity determines, by using a lookup table, the first transmission corresponding to the identifier HD002-VE of the second transmission channel.
  • Step 1306 The VFM entity sends the service data information of the base station X to the server B, where the service data information carries the service data and the identifier HD002-SV of the first transmission channel.
  • the specific process of data transmission between the base station Y and the server A for the service A-APP1 is as follows:
  • Step 1401 The VFM entity receives the service data information of the base station Y, where the service data information carries the service data and the identifier CY001-VE of the second transmission channel;
  • Step 1402 The VFM entity determines, by using a lookup table, the identifier CY001-SV of the first transmission channel corresponding to the identifier CY001-VE of the second transmission channel;
  • Step 1403 The VFM entity sends the service data information of the base station Y to the server A, where the service data information carries the service data and the identifier CY001-SV of the first transmission channel;
  • Step 1404 The VFM entity receives the service data information of the server A, where the service data information carries the service data and the identifier CY001-SV of the first transmission channel;
  • Step 1405 The VFM entity determines the identifier CY001-VE of the second transmission channel corresponding to the identifier CY001-SV of the first transmission channel by looking up the table;
  • Step 1406 The VFM entity sends the service data information of the server A to the base station Y, where the service data information carries the service data and the identifier CY001-VE of the second transmission channel.
  • VFM physical device is also provided in the embodiment of the present application.
  • VFM entity in the foregoing method part, and the repeated description is not repeated, as shown in FIG. mainly includes:
  • the receiving module 1501 is configured to receive service data information of the vehicle networking application server, where the service data information carries the service data and the identifier of the first transmission channel, and the first transmission channel is used for communication between the service of the vehicle networking application server and the VFM entity. ;
  • the processing module 1502 is configured to determine, according to a correspondence between the identifier of the first transmission channel and the identifier of the second transmission channel, a second transmission channel identifier corresponding to the identifier of the first transmission channel, where the second transmission channel is used by the VFM entity and the base station Communication between services;
  • the sending module 1503 is configured to send the service data to the corresponding base station according to the determined identifier of the second transmission channel;
  • the receiving module 1501 is configured to receive service data information of the base station, where the service data information carries the service data and the identifier of the second transmission channel, and the second transmission channel is used for communication between the service of the VFM and the base station;
  • the processing module 1502 is configured to determine, according to the correspondence between the identifier of the second transmission channel and the identifier of the first transmission channel, the identifier of the first transmission channel corresponding to the identifier of the second transmission channel, where the first transmission channel is used for the vehicle networking application server Communication between the business and the VFM entity;
  • the sending module 1503 is configured to send the service data to the corresponding car network application server according to the determined identifier of the first transmission channel.
  • the receiving module 1501 is further configured to:
  • the processing module 1502 is further configured to:
  • the feature information includes at least the coverage of the base station, determines the base station that satisfies the requirement information, and establishes a first transmission channel between the service of the vehicle networking application server and the VFM entity. And establishing a second transmission channel between the determined base station and the VFM entity, generating an identifier of the first transmission channel and an identifier of the second transmission channel, and storing a correspondence between the identifier of the first transmission channel and the identifier of the second transmission channel relationship;
  • the sending module 1503 is also used to:
  • the receiving module 1501 is further configured to:
  • the processing module 1502 is further configured to:
  • the receiving module 1501 is further configured to:
  • the processing module 1502 is further configured to:
  • processing module 1502 is further configured to:
  • the receiving module 1501 is further configured to:
  • the processing module 1502 is further configured to:
  • the receiving module 1501 is further configured to:
  • configuration information of the vehicle networking application server where the configuration information includes an identifier of the first transmission channel and a configuration policy
  • the sending module 1503 is also used to:
  • the embodiment of the present application further provides a VFM physical device.
  • a VFM physical device For the specific implementation of the device, refer to the description of the VFM entity in the foregoing method part, and the repeated description is not repeated, as shown in FIG.
  • the processor 1601, the memory 1602, and the transceiver 1603 are included, wherein a preset program is stored in the memory, and the processor 1601 reads the program in the memory 1602, and executes the following process according to the program:
  • the transceiver 1603 Receiving, by the transceiver 1603, service data information of the vehicle networking application server, where the service data information carries the service data and the identifier of the first transmission channel, and the first transmission channel is used for communication between the service of the vehicle networking application server and the VFM entity;
  • the service data information of the base station is received by the transceiver 1603, the service data information carries the service data and the identifier of the second transmission channel, and the second transmission channel is used for communication between the service of the VFM and the base station;
  • the processor 1601 obtains the service identifier of the vehicle networking application server and the corresponding requirement information through the transceiver 1603, and the demand information includes at least the coverage;
  • the feature information includes at least a coverage of the base station according to the correspondence between the identifier of the saved base station and the feature information of the base station. Covering the range, determining the base station that satisfies the demand information, establishing a first transmission channel between the service of the Internetworking application server and the VFM entity, and establishing a second transmission channel between the determined base station and the VFM entity to generate a first transmission channel And the identifier of the second transmission channel, and the correspondence between the identifier of the first transmission channel and the identifier of the second transmission channel is saved;
  • the identifier of the first transmission channel is sent to the vehicle networking application server by the transceiver 1603, and the identifier and the service identifier of the second transmission channel are sent to the determined base station.
  • the processor 1601 receives, by the transceiver 1603, a registration request of the vehicle networking application server, where the registration request carries the identity information of the vehicle networking application server;
  • the processor 1601 receives, by the transceiver 1603, a trigger message for interrupting communication between the service of the base station and the networked application server; if it is determined that the trigger message for interrupting communication between the base station and the service of the vehicle networking application server is received, the interrupt is interrupted.
  • the processor 1601 counts the duration of the service data information of the transport service between the base station and the car network application server, and/or the data traffic generated by the service data information of the transport service, and/or the service data information of the transport service. Spectrum resource information.
  • the processor 1601 receives the logout request of the car network application server through the transceiver 1603, and the logout request carries the identifier of the first transmission channel;
  • the processor 1601 receives configuration information of the vehicle networking application server by using the transceiver 1603, where the configuration information includes an identifier of the first transmission channel and a configuration policy.
  • a base station is also provided in the embodiment of the present application.
  • the base station refers to the description of the base station in the foregoing method embodiment, and the repeated description is not repeated.
  • the base station is mainly include:
  • the obtaining module 1701 is configured to obtain service data information, where the service data information carries the service identifier and the service data;
  • a determining module 1702 configured to determine, according to a correspondence between the service identifier and the identifier of the second transmission channel, a second transmission channel identifier corresponding to the service identifier;
  • the sending module 1703 is configured to send the service data and the determined second transmission channel identifier to the car network service function management VFM entity.
  • the base station mainly includes:
  • the obtaining module 1701 is configured to receive service data information sent by the VFM entity, where the service data information carries the service data and the identifier of the second transmission channel.
  • the determining module 1702 is configured to determine, according to the correspondence between the identifier of the second transmission channel and the service identifier, a service identifier corresponding to the identifier of the second transmission channel;
  • the processing module 1803 is configured to process the service data according to the service indicated by the determined service identifier.
  • the obtaining module 1701 is further configured to:
  • the correspondence between the service identifier sent by the VFM entity and the identifier of the second transmission channel is received and saved.
  • the obtaining module 1701 is further configured to: receive the configuration policy information sent by the VFM entity, where the configuration policy information carries the configuration policy and the identifier of the second transmission channel;
  • the processing module 1803 is further configured to: configure according to a configuration policy.
  • the embodiment of the present application further provides a base station.
  • the base station mainly includes a processor. 1901.
  • the memory 1902 and the transceiver 1903 wherein the memory 1902 stores a preset program, and the processor 1901 reads the program in the memory 1902, and executes the following process according to the program:
  • service data information carries the service identifier and the service data
  • the service data and the determined second transmission channel identifier are transmitted by the transceiver 1903 to the vehicle network service function management VFM entity.
  • the service data information sent by the VFM entity is received by the transceiver 1903, where the service data information carries the service data and the identifier of the second transmission channel;
  • the business data is processed according to the business indicated by the determined service identifier.
  • the processor 1901 receives the correspondence between the service identifier sent by the VFM entity and the identifier of the second transmission channel through the transceiver 1903 and saves.
  • the processor 1901 receives the configuration policy information sent by the VFM entity through the transceiver 1903, and the configuration policy information carries the configuration policy and the identifier of the second transmission channel; and is configured according to the configuration policy.
  • the embodiment of the present application further provides a vehicle networking application server.
  • vehicle networking application server For the specific implementation of the vehicle networking application server, refer to the description of the vehicle networking application server in the foregoing method section, and the repeated description is not repeated.
  • the vehicle networking application server mainly includes:
  • the obtaining module 2001 is configured to obtain service data and a service identifier.
  • a determining module 2002 configured to determine, according to a correspondence between the service identifier and the identifier of the first transmission channel, an identifier of the first transmission channel corresponding to the service identifier;
  • the sending module 2003 is configured to send the service data and the determined identifier of the first transmission channel to the car network service function management VFM entity.
  • the vehicle networking application server mainly includes:
  • the obtaining module 2101 is configured to receive the service data sent by the VFM entity and the identifier of the first transmission channel.
  • the determining module 2102 is configured to determine, according to the correspondence between the identifier of the first transmission channel and the service identifier, a service identifier corresponding to the identifier of the first transmission channel;
  • the processing module 2103 is configured to process the service data according to the service indicated by the determined service identifier.
  • the acquisition module 2001/2101 is also used to:
  • the demand information includes at least the coverage, and the service information of the demand information and the service is sent to the VFM entity;
  • the sending module 2003 is further configured to:
  • the registration request carrying the identity information of the Internet of Vehicles application server.
  • the sending module 2003 is further configured to:
  • the obtaining module 2001 is further configured to: obtain a configuration policy of the service and a service identifier;
  • the sending module 2003 is further configured to: send the configuration policy and the identifier of the first transmission channel to the VFM entity.
  • the embodiment of the present application further provides a car network application server.
  • the car network application server mainly includes a processor 2201, a memory 2202, and a transceiver 2203.
  • the memory 2202 stores a preset program
  • the processor 2201 reads a program in the memory 2202, and executes the following process according to the program. :
  • the processor 2201 reads a program in the memory 2202, and executes the following process in accordance with the program:
  • the business data is processed according to the business indicated by the determined service identifier.
  • the processor 2201 obtains the demand information of the service, and the requirement information includes at least the coverage, and sends the service information and the service identifier of the service to the VFM entity;
  • the transceiver 2203 And receiving, by the transceiver 2203, the identifier of the first transmission channel that is returned by the VFM entity according to the requirement information, and storing the correspondence between the identifier of the first transmission channel and the service identifier.
  • the processor 2201 sends a registration request to the VFM entity through the transceiver 2203, where the registration request carries the identity information of the vehicle networking application server.
  • the processor 2201 sends a logout request to the VFM entity through the transceiver 2203, where the logout request carries the identifier of the first transport channel.
  • the processor 2201 obtains a configuration policy of the service and a service identifier, and sends the configuration policy and the identifier of the first transmission channel to the VFM entity through the transceiver 2203.
  • the embodiment of the present application further provides a control system for communication between a base station and a vehicle networking application server.
  • the system mainly includes:
  • the vehicle networking application server 2301 is configured to obtain the service data and the service identifier, and determine, according to the correspondence between the service identifier and the identifier of the first transmission channel, the identifier of the first transmission channel corresponding to the service identifier, and the service data and the determined first transmission.
  • the identifier of the channel is sent to the car network service function management VFM entity;
  • the vehicle networking service function management VFM entity 2302 is configured to receive the service data sent by the vehicle networking application server and the determined identifier of the first transmission channel, where the first transmission channel is used for communication between the service of the vehicle networking application server and the VFM entity, Determining, according to a correspondence between the identifier of the first transmission channel and the identifier of the second transmission channel, a second transmission channel identifier corresponding to the identifier of the first transmission channel, where the second transmission channel is used for communication between the service of the VFM entity and the base station, Transmitting the service data to the corresponding base station according to the determined identifier of the second transmission channel;
  • the base station 2303 is configured to receive the service data sent by the VFM entity and the identifier of the second transmission channel, and determine the service identifier corresponding to the identifier of the second transmission channel according to the correspondence between the identifier of the second transmission channel and the service identifier, according to the determined service. Identifying the indicated business processing service data;
  • the base station 2303 is configured to obtain service data information, where the service data information carries the service identifier and the service data, and the root Determining, according to the correspondence between the service identifier and the identifier of the second transmission channel, the identifier of the second transmission channel corresponding to the service identifier, and transmitting the service data and the determined identifier of the second transmission channel to the VFM entity of the vehicle network service function management;
  • the vehicle network service function management VFM entity 2302 is configured to receive service data information of the base station, where the service data information carries the service data and the identifier of the second transmission channel, and the second transmission channel is used for communication between the service of the VFM and the base station, according to Corresponding relationship between the identifier of the second transmission channel and the identifier of the first transmission channel, determining the identifier of the first transmission channel corresponding to the identifier of the second transmission channel, where the first transmission channel is used between the service of the vehicle networking application server and the VFM entity Communication, sending the service data to the corresponding vehicle network application server according to the determined identifier of the first transmission channel;
  • the vehicle networking application server 2301 is configured to receive the service data sent by the VFM entity and the identifier of the first transmission channel, and determine the service identifier corresponding to the identifier of the first transmission channel according to the correspondence between the identifier of the first transmission channel and the service identifier, according to The determined business identifier indicates the business processing business data.
  • the VFM entity is managed by setting a car networking service function between the base station and the vehicle networking application server, and the transmission channel between the base station and the vehicle networking application server is established by the VFM entity to implement the base station and Control of communication between the Internet of Vehicles application servers to avoid the impact of the Internet of Vehicles application server directly communicating with the base station on the security of the base station.

Landscapes

  • Engineering & Computer Science (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Health & Medical Sciences (AREA)
  • Computing Systems (AREA)
  • General Health & Medical Sciences (AREA)
  • Medical Informatics (AREA)
  • Multimedia (AREA)
  • Mobile Radio Communication Systems (AREA)

Abstract

本申请公开了一种基站与车联网应用服务器通信的控制方法、设备及系统,用以在基站作为路边单元时实现基站与车联网应用服务器之间的通信控制。该方法为:VFM实体根据第一传输通道的标识与第二传输通道的标识的对应关系,确定车联网应用服务器的业务数据信息中的第一传输通道的标识对应的第二传输通道标识,第二传输通道用于VFM实体和基站的业务间通信,根据确定的第二传输通道的标识将业务数据发送给的基站;或者,确定基站的业务数据信息中的第二传输通道的标识对应的第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体间通信,根据确定的第一传输通道的标识将业务数据发送给的车联网应用服务器。

Description

基站与车联网应用服务器通信的控制方法、设备及系统
本申请要求在2015年6月30日提交中国专利局、申请号为201510378139.4、申请名称为“基站与车联网应用服务器通信的控制方法、设备及系统”的中国专利申请的优先权,其全部内容通过引用结合在本申请中。
技术领域
本申请涉及通信技术领域,尤其涉及一种基站与车联网应用服务器通信的控制方法、设备及系统。
背景技术
车路通信是车联网重要的组成部分,现有的DSRC(Dedicated Short Range Communications,专用短程通信)技术支持的车路通信系统包括车载终端、RSU(Road Side Unit,路边单元)和车联网应用服务器(以下简称Server),如图1所示,server通过RSU实现对车载终端的本地化服务。
在3GPP(3rd Generation Partnership Project,第三代移动通信标准化组织)框架下,为了能够利用现有的移动通信基础设施,减少建设RSU的成本,将基站作为RSU对车载终端提供应用服务,实现应用服务的本地化。然而,基站用于Server对车辆提供服务的下发节点,以及用于车辆对Server提供信息的上报节点,需要基站与Server进行交互。
但是,从安全性上考虑,基站作为运营商网络的内部网元,运营商不希望Server了解基站的信息,另外,运营商作为基础设施的服务提供方,需要对基站与Server之间的交互进行管理控制。
现有的移动通信网络无法对基站与Server之间的交互进行控制。
发明内容
本申请实施例提供一种基站与车联网应用服务器通信的控制方法、设备及系统,用以在基站作为路边单元时实现基站与车联网应用服务器之间的通信控制。
本申请实施例提供的具体技术方案如下:
第一方面,提供了一种基站与车联网应用服务器之间通信的控制方法,包括:
车联网业务功能管理VFM实体接收车联网应用服务器的业务数据信息,所述业务数据信息中携带业务数据和第一传输通道的标识,所述第一传输通道用于所述车联网应用服务器的业务与所述VFM实体之间的通信;
所述VFM实体根据第一传输通道的标识与第二传输通道的标识的对应关系,确定所述第一传输通道的标识对应的第二传输通道标识,所述第二传输通道用于所述VFM实体和基站的业务之间的通信;
所述VFM实体根据确定的第二传输通道的标识将所述业务数据发送给对应的基站;
或者,
车联网业务功能管理VFM实体接收基站的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识,所述第二传输通道用于所述VFM和所述基站的业务之间的通信;
所述VFM实体根据第二传输通道的标识与第一传输通道的标识的对应关系,确定所述第二传输通道的标识对应的第一传输通道的标识,所述第一传输通道用于车联网应用服务器的业务与所述VFM实体之间的通信;
所述VFM实体根据确定的第一传输通道的标识将所述业务数据发送给对应的车联网应用服务器。
实施中,所述VFM实体接收车联网应用服务器的业务数据信息之前,或者,所述VFM实体接收基站的业务数据信息之前,所述方法还包括:
所述VFM实体获取所述车联网应用服务器的业务标识以及对应的需求信息,所述需求信息至少包括覆盖范围;
所述VFM实体根据保存的基站的标识与基站的特征信息的对应关系,所述特征信息至少包括所述基站的覆盖范围,确定满足所述需求信息的基站,并建立所述车联网应用服务器的业务与所述VFM实体之间的第一传输通道,以及建立确定的基站与所述VFM实体之间的第二传输通道,生成所述第一传输通道的标识和所述第二传输通道的标识,并保存所述第一传输通道的标识和所述第二传输通道的标识之间的对应关系;
所述VFM实体将所述第一传输通道的标识发送给所述车联网应用服务器,以及将所述第二传输通道的标识和所述业务标识发送给确定的基站。
实施中,所述VFM实体获取所述车联网应用服务器的业务标识以及对应的需求信息之前,所述方法还包括:
所述VFM实体接收车联网应用服务器的注册请求,所述注册请求中携带所述车联网应用服务器的身份信息;
所述VFM实体确定所述车联网应用服务器的身份信息合法,注册所述车联网应用服务器。
实施中,所述方法还包括:
所述VFM实体若确定收到中断所述基站和所述车联网应用服务器的业务之间的通信的触发消息,中断所述基站和所述车联网应用服务器之间对于所述业务的业务数据信息的传输。
实施中,所述方法还包括:
所述VFM实体统计所述基站和所述车联网应用服务器之间传输所述业务的业务数据信息的时长,和/或,传输所述业务的业务数据信息产生的数据流量,和/或传输所述业务的业务数据信息所占有的频谱资源信息。
实施中,所述方法还包括:
所述VFM实体接收所述车联网应用服务器的注销请求,所述注销请求中携带所述第一传输通道的标识;
所述VFM实体注销所述第一传输通道的标识指示的第一传输通道以及所述第一传输通道的标识对应的第二传输通道的标识指示的第二传输通道。
实施中,所述方法还包括:
所述VFM实体接收所述车联网应用服务器的配置信息,所述配置信息中包括第一传输通道的标识以及配置策略;
所述方法还包括:
所述VFM实体根据确定的第二传输通道的标识将所述配置策略发送给对应的基站。
第二方面,提供了一种基站与车联网应用服务器之间通信的控制方法,包括:
基站获取业务数据信息,所述业务数据信息中携带业务标识和业务数据;
所述基站根据业务标识和第二传输通道标识的对应关系,确定所述业务标识对应的第二传输通道标识;
所述基站将所述业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体;
或者,
所述基站接收所述VFM实体发送的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识;
所述基站根据第二传输通道的标识和业务标识的对应关系,确定所述第二传输通道的标识对应的业务标识;
所述基站按照确定的所述业务标识指示的业务处理所述业务数据。
实施中,所述基站获取业务数据信息之前,或者,所述基站接收所述VFM实体的业务数据信息之前,所述方法还包括:
所述基站接收所述VFM实体发送的所述业务标识和所述第二传输通道的标识之间的对应关系并保存。
实施中,所述方法还包括:
所述基站接收所述VFM实体发送的配置策略信息,所述配置策略信息中携带配置策略和所述第二传输通道的标识;
所述基站根据第二传输通道的标识和业务标识的对应关系,确定所述第二传输通道的标识对应的业务标识;
所述基站根据所述配置策略进行配置。
第三方面,提供了一种基站与车联网应用服务器之间通信的控制方法,包括:
车联网应用服务器获取业务数据和业务标识;
所述车联网应用服务器根据业务标识与第一传输通道的标识的对应关系,确定所述业务标识对应的第一传输通道的标识;
所述车联网应用服务器将所述业务数据和确定的第一传输通道的标识发送给车联网业务功能管理VFM实体;
或者,
所述车联网应用服务器接收所述VFM实体发送的业务数据和第一传输通道的标识;
所述车联网应用服务器根据第一传输通道的标识和业务标识的对应关系,确定所述第一传输通道的标识对应的业务标识;
所述车联网应用服务器按照确定的业务标识指示的业务处理所述业务数据。
实施中,所述方法还包括:
所述车联网应用服务器获取业务的需求信息,所述需求信息至少包括覆盖范围,将所述需求信息和所述业务的业务标识发送给所述VFM实体;
所述车联网应用服务器接收所述VFM实体根据所述需求信息返回的第一传输通道的标识,保存所述第一传输通道的标识和所述业务标识的对应关系。
实施中,所述方法还包括:
所述车联网应用服务器向所述VFM实体发送注册请求,所述注册请求中携带所述车联网应用服务器的身份信息。
实施中,所述方法还包括:
所述车联网应用服务器向所述VFM实体发送注销请求,所述注销请求中携带所述第一传输通道的标识。
实施中,所述方法还包括:
所述车联网应用服务器获取业务的配置策略以及业务标识;
所述方法还包括:
所述车联网应用服务器将所述配置策略以及所述第一传输通道的标识发送给所述VFM实体。
第四方面,提供了一种车联网业务功能管理VFM实体设备,包括:
接收模块,用于接收车联网应用服务器的业务数据信息,所述业务数据信息中携带业务数据和第一传输通道的标识,所述第一传输通道用于所述车联网应用服务器的业务与所述VFM实体之间的通信;
处理模块,用于根据第一传输通道的标识与第二传输通道的标识的对应关系,确定所述第一传输通道的标识对应的第二传输通道标识,所述第二传输通道用于所述VFM实体和基站的业务之间的通信;
发送模块,用于根据确定的第二传输通道的标识将所述业务数据发送给对应的基站;
或者,
接收模块,用于接收基站的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识,所述第二传输通道用于所述VFM和所述基站的业务之间的通信;
处理模块,用于根据第二传输通道的标识与第一传输通道的标识的对应关系,确定所述第二传输通道的标识对应的第一传输通道的标识,所述第一传输通道用于车联网应用服务器的业务与所述VFM实体之间的通信;
发送模块,用于根据确定的第一传输通道的标识将所述业务数据发送给对应的车联网应用服务器。
实施中,所述接收模块还用于:
获取所述车联网应用服务器的业务标识以及对应的需求信息,所述需求信息至少包括覆盖范围;
所述处理模块还用于:
根据保存的基站的标识与基站的特征信息的对应关系,所述特征信息至少包括所述基站的覆盖范围,确定满足所述需求信息的基站,并建立所述车联网应用服务器的业务与所述VFM实体之间的第一传输通道,以及建立确定的基站与所述VFM实体之间的第二传输通道,生成所述第一传输通道的标识和所述第二传输通道的标识,并保存所述第一传输通道的标识和所述第二传输通道的标识之间的对应关系;
所述发送模块还用于:
将所述第一传输通道的标识发送给所述车联网应用服务器,以及将所述第二传输通道的标识和所述业务标识发送给确定的基站。
实施中,所述接收模块还用于:
接收车联网应用服务器的注册请求,所述注册请求中携带所述车联网应用服务器的身份信息;
所述处理模块还用于:
确定所述车联网应用服务器的身份信息合法,注册所述车联网应用服务器。
实施中,所述接收模块还用于:
接收中断所述基站和所述车联网应用服务器的业务之间的通信的触发消息;
所述处理模块还用于:
若确定收到中断所述基站和所述车联网应用服务器的业务之间的通信的触发消息,中断所述基站和所述车联网应用服务器之间对于所述业务的业务数据信息的传输。
实施中,所述处理模块还用于:
统计所述基站和所述车联网应用服务器之间传输所述业务的业务数据信息的时长,和/或,传输所述业务的业务数据信息产生的数据流量,和/或传输所述业务的业务数据信息所占有的频谱资源信息。
实施中,所述接收模块还用于:
接收所述车联网应用服务器的注销请求,所述注销请求中携带所述第一传输通道的标识;
所述处理模块还用于:
注销所述第一传输通道的标识指示的第一传输通道以及所述第一传输通道的标识对应的第二传输通道的标识指示的第二传输通道。
实施中,所述接收模块还用于:
接收所述车联网应用服务器的配置信息,所述配置信息中包括第一传输通道的标识以及配置策略;
所述发送模块还用于:
根据确定的第二传输通道的标识将所述配置策略发送给对应的基站。
第五方面,提供了一种基站,包括:
获取模块,用于获取业务数据信息,所述业务数据信息中携带业务标识和业务数据;
确定模块,用于根据业务标识和第二传输通道标识的对应关系,确定所述业务标识 对应的第二传输通道标识;
发送模块,用于将所述业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体;
或者,
获取模块,用于接收所述VFM实体发送的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识;
确定模块,用于根据第二传输通道的标识和业务标识的对应关系,确定所述第二传输通道的标识对应的业务标识;
处理模块,用于按照确定的所述业务标识指示的业务处理所述业务数据。
实施中,所述获取模块还用于:
接收所述VFM实体发送的所述业务标识和所述第二传输通道的标识之间的对应关系并保存。
实施中,所述获取模块还用于:
接收所述VFM实体发送的配置策略信息,所述配置策略信息中携带配置策略和所述第二传输通道的标识;
所述处理模块还用于:
根据所述配置策略进行配置。
第六方面,提供了一种车联网应用服务器,包括:
获取模块,用于获取业务数据和业务标识;
确定模块,用于根据业务标识与第一传输通道的标识的对应关系,确定所述业务标识对应的第一传输通道的标识;
发送模块,用于将所述业务数据和确定的第一传输通道的标识发送给车联网业务功能管理VFM实体;
或者,
获取模块,用于接收所述VFM实体发送的业务数据和第一传输通道的标识;
确定模块,用于根据第一传输通道的标识和业务标识的对应关系,确定所述第一传输通道的标识对应的业务标识;
处理模块,用于按照确定的业务标识指示的业务处理所述业务数据。
实施中,所述获取模块还用于:
获取业务的需求信息,所述需求信息至少包括覆盖范围,将所述需求信息和所述业务的业务标识发送给所述VFM实体;
以及接收所述VFM实体根据所述需求信息返回的第一传输通道的标识,保存所述第一传输通道的标识和所述业务标识的对应关系。
实施中,所述发送模块还用于:
向所述VFM实体发送注册请求,所述注册请求中携带所述车联网应用服务器的身份信息。
实施中,所述发送模块还用于:
向所述VFM实体发送注销请求,所述注销请求中携带所述第一传输通道的标识。
实施中,所述获取模块还用于:
获取业务的配置策略以及业务标识;
所述发送模块还用于:
将所述配置策略以及所述第一传输通道的标识发送给所述VFM实体。
第七方面,提供了一种基站与车联网应用服务器之间通信的控制系统,包括:
车联网应用服务器,用于获取业务数据和业务标识,根据业务标识与第一传输通道的标识的对应关系,确定所述业务标识对应的第一传输通道的标识,将所述业务数据和确定的第一传输通道的标识发送给车联网业务功能管理VFM实体;
车联网业务功能管理VFM实体,用于接收所述车联网应用服务器发送的所述业务数据和确定的第一传输通道的标识,所述第一传输通道用于所述车联网应用服务器的业务与所述VFM实体之间的通信,根据第一传输通道的标识与第二传输通道的标识的对应关系,确定所述第一传输通道的标识对应的第二传输通道标识,所述第二传输通道用于所述VFM实体和基站的业务之间的通信,根据确定的第二传输通道的标识将所述业务数据发送给对应的基站;
基站,用于接收所述VFM实体发送的业务数据和第二传输通道的标识,根据第二传输通道的标识和业务标识的对应关系,确定所述第二传输通道的标识对应的业务标识,按照确定的所述业务标识指示的业务处理所述业务数据;
或者,
基站,用于获取业务数据信息,所述业务数据信息中携带业务标识和业务数据,根据业务标识和第二传输通道标识的对应关系,确定所述业务标识对应的第二传输通道标识,将所述业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体;
车联网业务功能管理VFM实体,用于接收基站的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识,所述第二传输通道用于所述VFM和所述基站的业务之间的通信,根据第二传输通道的标识与第一传输通道的标识的对应关系,确定所 述第二传输通道的标识对应的第一传输通道的标识,所述第一传输通道用于车联网应用服务器的业务与所述VFM实体之间的通信,根据确定的第一传输通道的标识将所述业务数据发送给对应的车联网应用服务器;
车联网应用服务器,用于接收所述VFM实体发送的业务数据和第一传输通道的标识,根据第一传输通道的标识和业务标识的对应关系,确定所述第一传输通道的标识对应的业务标识,按照确定的业务标识指示的业务处理所述业务数据。
基于上述技术方案,本申请实施例中,通过在基站和车联网应用服务器之间设置车联网业务功能管理VFM实体,由VFM实体建立基站和车联网应用服务器之间的传输通道,实现对基站和车联网应用服务器之间通信的控制,以避免车联网应用服务器直接与基站通信对基站的安全性造成影响。
附图说明
图1为server通过RSU实现对车载终端的本地化服务的架构示意图;
图2为本申请实施例中基站作为RSU与车联网应用服务器之间通信的架构示意图;
图3为本申请实施例中VFM实体对基站与车联网应用服务器之间的通信进行控制的方法流程示意图;
图4为本申请实施例中另一VFM实体对基站与车联网应用服务器之间的通信进行控制的方法流程示意图;
图5为本申请实施例中基站与VFM实体之间通信的方法流程示意图;
图6为本申请实施例中另一基站与VFM实体之间通信的方法流程示意图;
图7为本申请实施例中车联网应用服务器与VFM实体之间通信的方法流程示意图;
图8为本申请实施例中另一车联网应用服务器与VFM实体之间通信的方法流程示意图;
图9为本申请实施例中VFM实体与车联网应用服务器之间的连接示意图;
图10为本申请实施例中VFM实体与基站之间的连接示意图;
图11为本申请实施例中为车联网应用服务器选择基站的方法流程示意图;
图12为本申请实施例中另一为车联网应用服务器选择基站的方法流程示意图;
图13为本申请实施例中基站与车联网应用服务器之间进行数据传输的流程示意图;
图14为本申请实施例中另一基站与车联网应用服务器之间进行数据传输的流程示意图;
图15为本申请实施例中VFM实体设备的结构示意图;
图16为本申请实施例中另一VFM实体设备的结构示意图;
图17为本申请实施例中基站的结构示意图;
图18为本申请实施例中另一基站的结构示意图;
图19为本申请实施例中另一基站的结构示意图;
图20为本申请实施例中车联网应用服务器的结构示意图;
图21为本申请实施例中另一车联网应用服务器的结构示意图;
图22为本申请实施例中另一车联网应用服务器的结构示意图;
图23为本申请实施例中基站与车联网应用服务器之间通信的控制系统架构示意图。
具体实施方式
为了使本申请的目的、技术方案和优点更加清楚,下面将结合附图对本申请作进一步地详细描述,显然,所描述的实施例仅仅是本申请一部分实施例,而不是全部的实施例。基于本申请中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其它实施例,都属于本申请保护的范围。
本申请的总体思想为:在基站和车联网应用服务器之间设置VFM(Vehicle Networking application Function Management,车联网业务功能管理)实体,如图2所示,作为RSU的基站与车联网应用服务器之间通过VFM实体进行业务数据和控制信令的传输。需要说明的是,VFM实体为逻辑功能实体,以下各实施例所描述的VFM实体可以是同时负责控制面和数据面传输的单个实体,也可以是分别负责控制面和数据面传输的多个实体。或者,VFM实体根据所属的运营商网络的不同有多个。VFM实体可以作为一个新的网络设备增加至移动通信系统中,也可以是附着在现有的网络设备中,例如,VFM实体的控制面功能集成在MME(移动性管理实体)上,数据面功能集成在PGW(分组数据网关)上。
其中,本申请实施例所涉及的基站可能是eNB,也可能是RNC、BTS等,还可能是第三方实体,例如RSU。
以下各实施例中,针对某一项业务,第一传输通道的标识与第二传输通道的标识可能相同,也可能不相同。
本申请第一实施例中,如图3所示,VFM实体对基站与车联网应用服务器之间的通信进行控制的详细方法流程如下:
步骤301:VFM实体接收车联网应用服务器的业务数据信息,业务数据信息中携带业务数据和第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体之间的通信。
步骤302:VFM实体根据第一传输通道的标识与第二传输通道的标识的对应关系,确定第一传输通道的标识对应的第二传输通道标识,第二传输通道用于VFM实体和基站的业务之间的通信。
步骤303:VFM实体根据确定的第二传输通道的标识将业务数据发送给对应的基站。
本申请第二实施例中,如图4所示,VFM实体对基站与车联网应用服务器之间的通信进行控制的详细方法流程如下:
步骤401:VFM实体接收基站的业务数据信息,业务数据信息中携带业务数据和第二传输通道的标识,第二传输通道用于VFM和基站的业务之间的通信。
步骤402:VFM实体根据第二传输通道的标识与第一传输通道的标识的对应关系,确定第二传输通道的标识对应的第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体之间的通信。
步骤403:VFM实体根据确定的第一传输通道的标识将业务数据发给对应的车联网应用服务器。
第一或第二实施例中,VFM实体接收车联网应用服务器的业务数据信息之前,或者,VFM实体接收基站的业务数据信息之前,需要建立VFM实体与车联网应用服务器之间的第一传输通道以及建立VFM实体与基站之间的第二传输通道,具体如下:
VFM实体获取车联网应用服务器的业务标识以及对应的需求信息,需求信息至少包括覆盖范围;
VFM实体根据保存的基站的标识与基站的特征信息的对应关系,特征信息至少包括基站的覆盖范围,确定满足需求信息的基站,并建立车联网应用服务器的业务与VFM实体之间的第一传输通道,以及建立确定的基站与VFM实体之间的第二传输通道,生成第一传输通道的标识和第二传输通道的标识,并保存第一传输通道的标识和第二传输通道的标识之间的对应关系;
VFM实体将第一传输通道的标识发送给车联网应用服务器,以及将第二传输通道的标识和业务标识发送给确定的基站。
其中,VFM实体保存的基站的标识和基站的特征信息可以是通过基站上报获得,也可以是从其他网元获得,例如,从OAM(Operation and Maintenance,操作与维护)处获得基站的特征信息。
其中,基站的特征信息还可能会包括基站的位置信息等。
实施中,VFM实体建立VFM实体与车联网应用服务器之间的第一传输通道以及建立VFM实体与基站之间的第二传输通道之前,需要确定车联网应用服务器是否合法,具体 如下:
VFM实体接收车联网应用服务器的注册请求,注册请求中携带车联网应用服务器的身份信息;
VFM实体确定车联网应用服务器的身份信息合法,注册车联网应用服务器。
VFM实体审核车联网应用服务器的身份信息,确定该身份信息合法后该车联网应用服务器注册成功,后续与该车联网应用服务器协商传输通道等信息。
其中,车联网应用服务器的身份信息可以是该车联网应用服务器的运营公司及法人信息,也可以是该车联网应用服务器的资质信息,例如该车联网应用服务器的运营资质证明以及可以利用基站实现应用服务本地化的资质证明文件,还可以是该车联网应用服务器的网络地址,还可以是该车联网应用服务器需要覆盖的地理范围的指示信息,还可以是该车联网应用服务器提供的业务合法合规的声明,例如该车联网应用服务器保证自身提供的业务不触犯法律法规且不侵犯个人隐私等。
实施中,VFM实体若确定收到中断基站和车联网应用服务器的业务之间的通信的触发消息,中断基站和车联网应用服务器之间对于业务的业务数据信息的传输。
其中,中断基站和车联网应用服务器的业务之间的通信的触发消息可以是由于设备故障产生的,例如基站故障,也可以是由于频谱资源不足产生,例如需要利用频谱资源传输更高优先级的业务的数据,也可以是由于资质问题产生,例如收到车联网应用服务器的资质或业务违规的举报等等。此处仅为举例说明,实际应用中中断的触发条件并不限于以上列举的情况,本申请的保护范围并不以此为限制。
实施中,VFM实体通过统计基站和车联网应用服务器数据之间通信产生的与计费相关的参数,为计费提供依据,具体如下:
VFM实体统计基站和车联网应用服务器之间传输业务的业务数据信息的时长,和/或,传输业务的业务数据信息产生的数据流量,和/或传输业务的业务数据信息所占有的频谱资源信息。
实施中,VFM实体可以注销车联网应用服务器和基站之间关于某项业务的传输通道,VFM实体接收车联网应用服务器的注销,表示VFM实体解除了与该车联网应用服务器的注册关系,具体如下:
VFM实体接收车联网应用服务器的注销请求,注销请求中携带第一传输通道的标识;
VFM实体注销第一传输通道的标识指示的第一传输通道以及第一传输通道的标识对应的第二传输通道的标识指示的第二传输通道。
实施中,VFM实体可以根据车联网应用服务器的要求针对某项业务对基站进行配置,以满足业务需求,具体如下:
VFM实体接收车联网应用服务器的配置信息,配置信息中包括第一传输通道的标识以及配置策略;
VFM实体根据第一传输通道的标识与第二传输通道的标识的对应关系,确定第一传输通道的标识对应的第二传输通道的标识;
VFM实体根据确定的第二传输通道的标识将配置策略发送给对应的基站。
其中,配置策略是根据第一传输通道的标识对应的业务的需求制定,例如,配置策略可以为要求基站在收集车载终端的数据信息时对收集的数据进行过滤,以达到减少基站需要传输给车联网应用服务器的数据量,或者,配置策略可以为要求基站将收集的车载终端的数据信息转换为对应的业务进行决策需要的参数,以便于车联网应用服务器的业务可以直接根据基站传送的信息进行决策。此处仅为举例说明,具体的配置策略根据业务的需求的不同而不同,此处不再一一列举。
本申请第三实施例中,如图5所示,基站与VFM实体之间的通信的详细过程如下:
步骤501:基站获取业务数据信息,业务数据信息中携带业务标识和业务数据。
可选的,基站获取的业务数据信息可以是所运行的业务自身所产生的,也可以是直接接收的车载终端上报的业务数据和业务标识,还可以是在接收车载终端上报的原始业务数据和业务标识后,对该原始业务数据进行处理后获得。
步骤502:基站根据业务标识和第二传输通道标识的对应关系,确定业务标识对应的第二传输通道标识。
步骤503:基站将业务数据和确定的第二传输通道标识发送给VFM实体。
本申请第四实施例中,如图6所示,基站与VFM实体之间的通信的详细过程如下:
步骤601:基站接收VFM实体发送的业务数据信息,业务数据信息中携带业务数据和第二传输通道的标识;
步骤602:基站根据第二传输通道的标识和业务标识的对应关系,确定第二传输通道的标识对应的业务标识;
步骤603:基站按照确定的业务标识指示的业务处理业务数据。
第三或第四实施例中,基站确定业务标识对应的第二传输通道标识之前,或者基站确定第二传输通道的标识对应的业务标识之前,需要获得业务标识与第二传输通道的标识之间的对应关系,可选的:基站接收VFM实体发送的业务标识和第二传输通道的标识之间的对应关系并保存。
第三或第四实施例中,基站还可以根据VFM实体发送的配置策略对某项业务的运行相关的参数进行配置,具体如下:
基站接收VFM实体发送的配置策略信息,配置策略信息中携带配置策略和第二传输通道的标识;
基站根据第二传输通道的标识和业务标识的对应关系,确定第二传输通道的标识对应的业务标识;
基站根据配置策略进行配置。
可选的,基站根据配置策略进行配置时,对基站的软件或硬件参数进行配置,使得配置后的软件以及硬件能够保证业务的正常运行。
本申请第五实施例中,如图7所示,车联网应用服务器与VFM实体之间的通信的详细过程如下:
步骤701:车联网应用服务器获取业务数据和业务标识;
步骤702:车联网应用服务器根据业务标识与第一传输通道的标识的对应关系,确定业务标识对应的第一传输通道的标识;
步骤703:车联网应用服务器将业务数据和确定的第一传输通道的标识发送给VFM实体。
本申请第六实施例中,如图8所示,车联网应用服务器与VFM实体之间的通信的详细过程如下:
步骤801:车联网应用服务器接收VFM实体发送的业务数据和第一传输通道的标识;
步骤802:车联网应用服务器根据第一传输通道的标识和业务标识的对应关系,确定第一传输通道的标识对应的业务标识;
步骤803:车联网应用服务器按照确定的业务标识指示的业务处理业务数据。
第五或第六实施例中,车联网应用服务器确定业务标识对应的第一传输通道的标识之前,或者,确定第一传输通道的标识对应的业务标识之前,需要获得第一传输通道的标识与业务标识的对应关系,具体如下:
车联网应用服务器获取业务的需求信息,需求信息至少包括覆盖范围,将需求信息和业务的业务标识发送给VFM实体;
车联网应用服务器接收VFM实体根据需求信息返回的第一传输通道的标识,保存第一传输通道的标识和业务标识的对应关系。
第五或第六实施例中,车联网应用服务器在与VFM实体之间进行业务数据传输之 前,需要在VFM实体注册,可选的:
车联网应用服务器向VFM实体发送注册请求,注册请求中携带车联网应用服务器的身份信息。
第五或第六实施例中,车联网应用服务器可以根据自身需要请求VFM注销传输通道,具体如下:
车联网应用服务器向VFM实体发送注销请求,注销请求中携带第一传输通道的标识。
第五或第六实施例中,车联网应用服务器还可以根据业务运行所需的软件以及硬件配置,向VFM实体发送配置策略以对基站进行配置,可选的:车联网应用服务器获取业务的配置策略以及业务标识;车联网应用服务器根据业务标识与第一传输通道的标识的对应关系,确定业务标识对应的第一传输通道的标识;车联网应用服务器将配置策略以及第一传输通道的标识发送给VFM实体。
以上各实施例中,可定义VFM实体与车联网应用服务器之间的接口为SV接口,如图9所示,VFM实体通过该SV接口实现对车联网应用服务器的注册和注销,对基站的配置以及对车联网应用服务器的通知信息的传输。
以上各实施例中,可定义VFM实体与基站之间的接口为VE接口,如图10所示,VFM实体通过该VE接口可以实现对基站的信息的传输,例如接收所管辖的基站的特征信息的上报,可以实现根据车联网应用服务器的需求对基站进行配置,可以实现对基站内部业务的管理。
并且,VFM实体通过SV接口和VE接口建立车联网应用服务器与基站之间的传输通道。
以上各实施例中,VFM实体根据保存的基站的标识与基站的特征信息的对应关系,特征信息至少包括基站的覆盖范围,确定满足需求信息的基站,包括但不限于以下两种具体实施方式:
第一具体实施方式,如图11所示,VFM实体将基站的标识与基站的特征信息的对应关系发送给车联网应用服务器,由车联网应用服务器根据基站的特征信息选择满足业务的需求信息的基站,并将选择的基站的特征信息发送给VFM实体;VFM实体确定车联网应用服务器返回的基站的特征信息对应的基站的标识。具体如下:
步骤1101:车联网应用服务器向VFM实体发送选择基站的请求,该请求中携带业务标识;
步骤1102:基站根据该选择基站的请求向该车联网应用服务器发送保存的各基站的特 征信息;
步骤1103:车联网应用服务器根据各基站的特征信息以及业务的需求信息,选择满足该业务的需求信息的基站;
步骤1104:车联网应用服务器将选择的基站的特征信息发送给VFM实体;
步骤1105:VFM实体确定车联网应用服务器选择的基站的特征信息对应的基站的标识,VFM实体与该车联网应用服务器之间建立第一传输通道,与确定的该基站的标识指示的基站之间建立第二传输通道;
步骤1106:VFM实体将第二传输通道的标识以及业务标识发送给确定的基站;
步骤1107:VFM实体接收确定的基站返回的确定传输通道建立的消息;
步骤1108:VFM实体将第一传输通道的标识,或者第一传输通道的标识和业务标识发送给车联网应用服务器;
步骤1109:VFM实体接收车联网应用服务器返回的确定传输通道建立的消息。
第二具体实施方式,如图12所示,VFM实体根据保存的基站的标识与基站的特征信息的对应关系,确定满足车联网应用服务器的业务的需求信息确定满足该需求信息的基站的特征信息,获取确定的该基站的特征信息对应的基站的标识。具体如下:
步骤1201:车联网应用服务器向VFM实体发送选择基站的请求,该请求中携带业务标识以及业务的需求信息,该需求信息至少包括覆盖范围;
步骤1202:VFM实体根据保存的基站的标识和基站的特征信息的对应关系,确定基站的特征信息满足业务的需求信息的基站的标识,VFM实体与该车联网应用服务器之间建立第一传输通道,与确定的该基站的标识指示的基站之间建立第二传输通道;
步骤1203:VFM实体向车联网应用服务器发送第一传输通道的标识,或者发送第一传输通道的标识和业务标识;
步骤1204:VFM实体向确定的基站的标识指示的基站发送第二传输通道的标识和业务标识;
步骤1205:VFM实体接收基站返回的确认传输通道建立的消息;
步骤1206:接收车联网应用服务器返回的确认传输通道建立的消息。
以上两个具体实施方式中,车联网应用服务器与基站之间的传输通道不一定是显式的,车联网应用服务器无需知道在哪个基站上实现某项具体的业务。基站只需要按照VFM实体却的传输通道进行数据传输,无需获知为哪个车联网应用服务器服务。
以下通过两个具体实施例对本申请以上各实施例中所涉及的业务数据的传输过程进行详细说明。
由于每个车联网应用服务器可能有多项业务,每项业务可能需要多个基站为其提供服务,每个基站可能会为多个车联网应用服务器的多项业务提供服务,在车联网应用服务器与基站之间进行业务数据传输之前,VFM实体需要辅助建立车联网应用服务器和基站之间的传输通道。
以下两个具体实施例中,假设有两个车联网应用服务器,分别为Server A和Server B,Server A支持的业务分别为A-APP1和A-APP2,Server B支持的业务分别为B-APP1和B-APP2,假设有两个基站,分别为基站X和基站Y,基站X运行的业务分别为X-1、X-2和X-3,基站Y运行的业务分别为Y-1、Y-2和Y-3。VFM实体建立的传输通道如表1所示。
表1
Figure PCTCN2016079072-appb-000001
需要说明的是,VFM实体与车联网应用服务器之间的第一传输通道的标识,与VFM实体与车联网应用服务器之间的第二传输通道的标识,可以设置为相同的标识。
第一具体实施例,如图13所示,Server B与基站X进行业务B-APP1的数据传输的具体过程如下:
步骤1301:VFM实体接收Server B的业务数据信息,该业务数据信息中携带业务数据和第一传输通道的标识HD002-SV;
步骤1302:VFM实体通过查表确定第一传输通道的标识HD002-SV对应的第二传输通道的标识为HD002-VE;
步骤1303:VFM实体将Server B的业务数据信息发送给基站X,该业务数据信息中携带业务数据和第二传输通道的标识HD002-VE;
步骤1304:VFM实体接收基站X的业务数据信息,该业务数据信息中携带业务数据和第二传输通道的标识HD002-VE;
步骤1305:VFM实体通过查表确定第二传输通道的标识HD002-VE对应的第一传输 通道的标识HD002-SV;
步骤1306:VFM实体将基站X的业务数据信息发送给Server B,该业务数据信息中携带业务数据和第一传输通道的标识HD002-SV。
第二具体实施例中,如图14所示,基站Y与Server A进行业务A-APP1的数据传输的具体过程如下:
步骤1401:VFM实体接收基站Y的业务数据信息,该业务数据信息中携带业务数据和第二传输通道的标识CY001-VE;
步骤1402:VFM实体通过查表确定第二传输通道的标识CY001-VE对应的第一传输通道的标识CY001-SV;
步骤1403:VFM实体将基站Y的业务数据信息发送给Server A,该业务数据信息中携带业务数据和第一传输通道的标识CY001-SV;
步骤1404:VFM实体接收Server A的业务数据信息,该业务数据信息中携带业务数据和第一传输通道的标识CY001-SV;
步骤1405:VFM实体通过查表确定第一传输通道的标识CY001-SV对应的第二传输通道的标识CY001-VE;
步骤1406:VFM实体将Server A的业务数据信息发送给基站Y,该业务数据信息中携带业务数据和第二传输通道的标识CY001-VE。
基于同一发明构思,本申请实施例中还提供了一种VFM实体设备,该设备的具体实施可参见上述方法部分关于VFM实体的描述,重复之处不再赘述,如图15所示,该设备主要包括:
接收模块1501,用于接收车联网应用服务器的业务数据信息,业务数据信息中携带业务数据和第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体之间的通信;
处理模块1502,用于根据第一传输通道的标识与第二传输通道的标识的对应关系,确定第一传输通道的标识对应的第二传输通道标识,第二传输通道用于VFM实体和基站的业务之间的通信;
发送模块1503,用于根据确定的第二传输通道的标识将业务数据发送给对应的基站;
或者,
接收模块1501,用于接收基站的业务数据信息,业务数据信息中携带业务数据和第二传输通道的标识,第二传输通道用于VFM和基站的业务之间的通信;
处理模块1502,用于根据第二传输通道的标识与第一传输通道的标识的对应关系,确定第二传输通道的标识对应的第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体之间的通信;
发送模块1503,用于根据确定的第一传输通道的标识将业务数据发送给对应的车联网应用服务器。
实施中,接收模块1501还用于:
获取车联网应用服务器的业务标识以及对应的需求信息,需求信息至少包括覆盖范围;
处理模块1502还用于:
根据保存的基站的标识与基站的特征信息的对应关系,特征信息至少包括基站的覆盖范围,确定满足需求信息的基站,并建立车联网应用服务器的业务与VFM实体之间的第一传输通道,以及建立确定的基站与VFM实体之间的第二传输通道,生成第一传输通道的标识和第二传输通道的标识,并保存第一传输通道的标识和第二传输通道的标识之间的对应关系;
发送模块1503还用于:
将第一传输通道的标识发送给车联网应用服务器,以及将第二传输通道的标识和业务标识发送给确定的基站。
实施中,接收模块1501还用于:
接收车联网应用服务器的注册请求,注册请求中携带车联网应用服务器的身份信息;
处理模块1502还用于:
确定车联网应用服务器的身份信息合法,注册车联网应用服务器。
实施中,接收模块1501还用于:
接收中断基站和车联网应用服务器的业务之间的通信的触发消息;
处理模块1502还用于:
若确定收到中断基站和车联网应用服务器的业务之间的通信的触发消息,中断基站和车联网应用服务器之间对于业务的业务数据信息的传输。
实施中,处理模块1502还用于:
统计基站和车联网应用服务器之间传输业务的业务数据信息的时长,和/或,传输业务的业务数据信息产生的数据流量,和/或传输业务的业务数据信息所占有的频谱资源信息。
实施中,接收模块1501还用于:
接收车联网应用服务器的注销请求,注销请求中携带第一传输通道的标识;
处理模块1502还用于:
注销第一传输通道的标识指示的第一传输通道以及第一传输通道的标识对应的第二传输通道的标识指示的第二传输通道。
实施中,接收模块1501还用于:
接收车联网应用服务器的配置信息,配置信息中包括第一传输通道的标识以及配置策略;
发送模块1503还用于:
根据确定的第二传输通道的标识将配置策略发送给对应的基站。
基于同一发明构思,本申请实施例还提供了一种VFM实体设备,该设备的具体实施可参见上述方法部分关于VFM实体的描述,重复之处不再赘述,如图16所示,该设备主要包括处理器1601、存储器1602和收发机1603,其中,存储器中保存有预设的程序,处理器1601读取存储器1602中的程序,按照该程序执行以下过程:
通过收发机1603接收车联网应用服务器的业务数据信息,业务数据信息中携带业务数据和第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体之间的通信;
根据第一传输通道的标识与第二传输通道的标识的对应关系,确定第一传输通道的标识对应的第二传输通道标识,第二传输通道用于VFM实体和基站的业务之间的通信;
根据确定的第二传输通道的标识通过收发机1603将业务数据发送给对应的基站;
或者,
通过收发机1603接收基站的业务数据信息,业务数据信息中携带业务数据和第二传输通道的标识,第二传输通道用于VFM和基站的业务之间的通信;
根据第二传输通道的标识与第一传输通道的标识的对应关系,确定第二传输通道的标识对应的第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体之间的通信;
根据确定的第一传输通道的标识通过收发机1603将业务数据发送给对应的车联网应用服务器。
实施中,处理器1601通过收发机1603获取车联网应用服务器的业务标识以及对应的需求信息,需求信息至少包括覆盖范围;
根据保存的基站的标识与基站的特征信息的对应关系,特征信息至少包括基站的覆 盖范围,确定满足需求信息的基站,并建立车联网应用服务器的业务与VFM实体之间的第一传输通道,以及建立确定的基站与VFM实体之间的第二传输通道,生成第一传输通道的标识和第二传输通道的标识,并保存第一传输通道的标识和第二传输通道的标识之间的对应关系;
通过收发机1603将第一传输通道的标识发送给车联网应用服务器,以及将第二传输通道的标识和业务标识发送给确定的基站。
实施中,处理器1601通过收发机1603接收车联网应用服务器的注册请求,注册请求中携带车联网应用服务器的身份信息;
确定车联网应用服务器的身份信息合法,注册车联网应用服务器。
实施中,处理器1601通过收发机1603接收中断基站和车联网应用服务器的业务之间的通信的触发消息;若确定收到中断基站和车联网应用服务器的业务之间的通信的触发消息,中断基站和车联网应用服务器之间对于业务的业务数据信息的传输。
实施中,处理器1601统计基站和车联网应用服务器之间传输业务的业务数据信息的时长,和/或,传输业务的业务数据信息产生的数据流量,和/或传输业务的业务数据信息所占有的频谱资源信息。
实施中,处理器1601通过收发机1603接收车联网应用服务器的注销请求,注销请求中携带第一传输通道的标识;
注销第一传输通道的标识指示的第一传输通道以及第一传输通道的标识对应的第二传输通道的标识指示的第二传输通道。
实施中,处理器1601通过收发机1603接收车联网应用服务器的配置信息,配置信息中包括第一传输通道的标识以及配置策略;
根据确定的第二传输通道的标识通过收发机1603将配置策略发送给对应的基站。
基于同一发明构思,本申请实施例中还提供了一种基站,该基站的具体实施可参见上述方法实施例中关于基站的描述,重复之处不再赘述,如图17所示,该基站主要包括:
获取模块1701,用于获取业务数据信息,业务数据信息中携带业务标识和业务数据;
确定模块1702,用于根据业务标识和第二传输通道标识的对应关系,确定业务标识对应的第二传输通道标识;
发送模块1703,用于将业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体。
或者,如图18所示,该基站主要包括:
获取模块1701,用于接收VFM实体发送的业务数据信息,业务数据信息中携带业务数据和第二传输通道的标识;
确定模块1702,用于根据第二传输通道的标识和业务标识的对应关系,确定第二传输通道的标识对应的业务标识;
处理模块1803,用于按照确定的业务标识指示的业务处理业务数据。
实施中,图17或图18所示的基站中,获取模块1701还用于:
接收VFM实体发送的业务标识和第二传输通道的标识之间的对应关系并保存。
实施中,获取模块1701还用于:接收VFM实体发送的配置策略信息,配置策略信息中携带配置策略和第二传输通道的标识;
处理模块1803还用于:根据配置策略进行配置。
基于同一发明构思,本申请实施例还提供了一种基站,该基站的具体实施可参见上述方法部分关于基站的描述,重复之处不再赘述,如图19所示,该基站主要包括处理器1901、存储器1902和收发机1903,其中,存储器1902中保存有预设的程序,处理器1901读取存储器1902中的程序,按照该程序执行以下过程:
获取业务数据信息,业务数据信息中携带业务标识和业务数据;
根据业务标识和第二传输通道标识的对应关系,确定业务标识对应的第二传输通道标识;
通过收发机1903将业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体。
或者,
通过收发机1903接收VFM实体发送的业务数据信息,业务数据信息中携带业务数据和第二传输通道的标识;
根据第二传输通道的标识和业务标识的对应关系,确定第二传输通道的标识对应的业务标识;
按照确定的业务标识指示的业务处理业务数据。
实施中,处理器1901通过收发机1903接收VFM实体发送的业务标识和第二传输通道的标识之间的对应关系并保存。
实施中,处理器1901通过收发机1903接收VFM实体发送的配置策略信息,配置策略信息中携带配置策略和第二传输通道的标识;根据配置策略进行配置。
基于同一发明构思,本申请实施例还提供了一种车联网应用服务器,该车联网应用服务器的具体实施可参见上述方法部分关于车联网应用服务器的描述,重复之处不再赘述, 如图20所示,该车联网应用服务器主要包括:
获取模块2001,用于获取业务数据和业务标识;
确定模块2002,用于根据业务标识与第一传输通道的标识的对应关系,确定业务标识对应的第一传输通道的标识;
发送模块2003,用于将业务数据和确定的第一传输通道的标识发送给车联网业务功能管理VFM实体.
或者,如图21所示,该车联网应用服务器主要包括:
获取模块2101,用于接收VFM实体发送的业务数据和第一传输通道的标识;
确定模块2102,用于根据第一传输通道的标识和业务标识的对应关系,确定第一传输通道的标识对应的业务标识;
处理模块2103,用于按照确定的业务标识指示的业务处理业务数据。
实施中,获取模块2001/2101还用于:
获取业务的需求信息,需求信息至少包括覆盖范围,将需求信息和业务的业务标识发送给VFM实体;
以及接收VFM实体根据需求信息返回的第一传输通道的标识,保存第一传输通道的标识和业务标识的对应关系。
实施中,发送模块2003还用于:
向VFM实体发送注册请求,注册请求中携带车联网应用服务器的身份信息。
实施中,发送模块2003还用于:
向VFM实体发送注销请求,注销请求中携带第一传输通道的标识。
实施中,获取模块2001还用于:获取业务的配置策略以及业务标识;
发送模块2003还用于:将配置策略以及第一传输通道的标识发送给VFM实体。
基于同一发明构思,本申请实施例还提供了一种车联网应用服务器,该车联网应用服务器的具体实施可参见上述方法部分关于车联网应用服务器的描述,重复之处不再赘述,如图22所示,该车联网应用服务器主要包括处理器2201、存储器2202和收发机2203,其中,存储器2202中保存有预设的程序,处理器2201读取存储器2202中的程序,按照该程序执行以下过程:
获取业务数据和业务标识;
根据业务标识与第一传输通道的标识的对应关系,确定业务标识对应的第一传输通道的标识;
将业务数据和确定的第一传输通道的标识通过收发机2203发送给车联网业务功能管 理VFM实体。
或者,处理器2201读取存储器2202中的程序,按照该程序执行以下过程:
通过收发机2203接收VFM实体发送的业务数据和第一传输通道的标识;
根据第一传输通道的标识和业务标识的对应关系,确定第一传输通道的标识对应的业务标识;
按照确定的业务标识指示的业务处理业务数据。
实施中,处理器2201获取业务的需求信息,需求信息至少包括覆盖范围,将需求信息和业务的业务标识发送给VFM实体;
以及通过收发机2203接收VFM实体根据需求信息返回的第一传输通道的标识,保存第一传输通道的标识和业务标识的对应关系。
实施中,处理器2201通过收发机2203向VFM实体发送注册请求,注册请求中携带车联网应用服务器的身份信息。
实施中,处理器2201通过收发机2203向VFM实体发送注销请求,注销请求中携带第一传输通道的标识。
实施中,处理器2201获取业务的配置策略以及业务标识;通过收发机2203将配置策略以及第一传输通道的标识发送给VFM实体。
基于同一构思,本申请实施例中还提供了一种基站与车联网应用服务器之间通信的控制系统,如图23所示,该系统主要包括:
车联网应用服务器2301,用于获取业务数据和业务标识,根据业务标识与第一传输通道的标识的对应关系,确定业务标识对应的第一传输通道的标识,将业务数据和确定的第一传输通道的标识发送给车联网业务功能管理VFM实体;
车联网业务功能管理VFM实体2302,用于接收车联网应用服务器发送的业务数据和确定的第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体之间的通信,根据第一传输通道的标识与第二传输通道的标识的对应关系,确定第一传输通道的标识对应的第二传输通道标识,第二传输通道用于VFM实体和基站的业务之间的通信,根据确定的第二传输通道的标识将业务数据发送给对应的基站;
基站2303,用于接收VFM实体发送的业务数据和第二传输通道的标识,根据第二传输通道的标识和业务标识的对应关系,确定第二传输通道的标识对应的业务标识,按照确定的业务标识指示的业务处理业务数据;
或者,
基站2303,用于获取业务数据信息,业务数据信息中携带业务标识和业务数据,根 据业务标识和第二传输通道标识的对应关系,确定业务标识对应的第二传输通道标识,将业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体;
车联网业务功能管理VFM实体2302,用于接收基站的业务数据信息,业务数据信息中携带业务数据和第二传输通道的标识,第二传输通道用于VFM和基站的业务之间的通信,根据第二传输通道的标识与第一传输通道的标识的对应关系,确定第二传输通道的标识对应的第一传输通道的标识,第一传输通道用于车联网应用服务器的业务与VFM实体之间的通信,根据确定的第一传输通道的标识将业务数据发送给对应的车联网应用服务器;
车联网应用服务器2301,用于接收VFM实体发送的业务数据和第一传输通道的标识,根据第一传输通道的标识和业务标识的对应关系,确定第一传输通道的标识对应的业务标识,按照确定的业务标识指示的业务处理业务数据。
基于上述技术方案,本申请实施例中,通过在基站和车联网应用服务器之间设置车联网业务功能管理VFM实体,由VFM实体建立基站和车联网应用服务器之间的传输通道,实现对基站和车联网应用服务器之间通信的控制,以避免车联网应用服务器直接与基站通信对基站的安全性造成影响。
显然,本领域的技术人员可以对本申请进行各种改动和变型而不脱离本申请的精神和范围。这样,倘若本申请的这些修改和变型属于本申请权利要求及其等同技术的范围之内,则本申请也意图包含这些改动和变型在内。

Claims (31)

  1. 一种基站与车联网应用服务器之间通信的控制方法,其特征在于,包括:
    车联网业务功能管理VFM实体接收车联网应用服务器的业务数据信息,所述业务数据信息中携带业务数据和第一传输通道的标识,所述第一传输通道用于所述车联网应用服务器的业务与所述VFM实体之间的通信;
    所述VFM实体根据第一传输通道的标识与第二传输通道的标识的对应关系,确定所述第一传输通道的标识对应的第二传输通道标识,所述第二传输通道用于所述VFM实体和基站的业务之间的通信;
    所述VFM实体根据确定的第二传输通道的标识将所述业务数据发送给对应的基站;
    或者,
    车联网业务功能管理VFM实体接收基站的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识,所述第二传输通道用于所述VFM和所述基站的业务之间的通信;
    所述VFM实体根据第二传输通道的标识与第一传输通道的标识的对应关系,确定所述第二传输通道的标识对应的第一传输通道的标识,所述第一传输通道用于车联网应用服务器的业务与所述VFM实体之间的通信;
    所述VFM实体根据确定的第一传输通道的标识将所述业务数据发送给对应的车联网应用服务器。
  2. 如权利要求1所述的方法,其特征在于,所述VFM实体接收车联网应用服务器的业务数据信息之前,或者,所述VFM实体接收基站的业务数据信息之前,所述方法还包括:
    所述VFM实体获取所述车联网应用服务器的业务标识以及对应的需求信息,所述需求信息至少包括覆盖范围;
    所述VFM实体根据保存的基站的标识与基站的特征信息的对应关系,所述特征信息至少包括所述基站的覆盖范围,确定满足所述需求信息的基站,并建立所述车联网应用服务器的业务与所述VFM实体之间的第一传输通道,以及建立确定的基站与所述VFM实体之间的第二传输通道,生成所述第一传输通道的标识和所述第二传输通道的标识,并保存所述第一传输通道的标识和所述第二传输通道的标识之间的对应关系;
    所述VFM实体将所述第一传输通道的标识发送给所述车联网应用服务器,以及将所述第二传输通道的标识和所述业务标识发送给确定的基站。
  3. 如权利要求2所述的方法,其特征在于,所述VFM实体获取所述车联网应用服务 器的业务标识以及对应的需求信息之前,所述方法还包括:
    所述VFM实体接收车联网应用服务器的注册请求,所述注册请求中携带所述车联网应用服务器的身份信息;
    所述VFM实体确定所述车联网应用服务器的身份信息合法,注册所述车联网应用服务器。
  4. 如权利要求1-3任一项所述的方法,其特征在于,所述方法还包括:
    所述VFM实体若确定收到中断所述基站和所述车联网应用服务器的业务之间的通信的触发消息,中断所述基站和所述车联网应用服务器之间对于所述业务的业务数据信息的传输。
  5. 如权利要求1-3任一项所述的方法,其特征在于,所述方法还包括:
    所述VFM实体统计所述基站和所述车联网应用服务器之间传输所述业务的业务数据信息的时长,和/或,传输所述业务的业务数据信息产生的数据流量,和/或传输所述业务的业务数据信息所占有的频谱资源信息。
  6. 如权利要求1-3任一项所述的方法,其特征在于,所述方法还包括:
    所述VFM实体接收所述车联网应用服务器的注销请求,所述注销请求中携带所述第一传输通道的标识;
    所述VFM实体注销所述第一传输通道的标识指示的第一传输通道以及所述第一传输通道的标识对应的第二传输通道的标识指示的第二传输通道。
  7. 如权利要求1-3任一项所述的方法,其特征在于,所述方法还包括:
    所述VFM实体接收所述车联网应用服务器的配置信息,所述配置信息中包括第一传输通道的标识以及配置策略;
    所述方法还包括:
    所述VFM实体根据确定的第二传输通道的标识将所述配置策略发送给对应的基站。
  8. 一种基站与车联网应用服务器之间通信的控制方法,其特征在于,包括:
    基站获取业务数据信息,所述业务数据信息中携带业务标识和业务数据;
    所述基站根据业务标识和第二传输通道标识的对应关系,确定所述业务标识对应的第二传输通道标识;
    所述基站将所述业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体;
    或者,
    所述基站接收所述VFM实体发送的业务数据信息,所述业务数据信息中携带业务数 据和第二传输通道的标识;
    所述基站根据第二传输通道的标识和业务标识的对应关系,确定所述第二传输通道的标识对应的业务标识;
    所述基站按照确定的所述业务标识指示的业务处理所述业务数据。
  9. 如权利要求8所述的方法,其特征在于,所述基站获取业务数据信息之前,或者,所述基站接收所述VFM实体的业务数据信息之前,所述方法还包括:
    所述基站接收所述VFM实体发送的所述业务标识和所述第二传输通道的标识之间的对应关系并保存。
  10. 如权利要求8所述的方法,其特征在于,所述方法还包括:
    所述基站接收所述VFM实体发送的配置策略信息,所述配置策略信息中携带配置策略和所述第二传输通道的标识;
    所述基站根据第二传输通道的标识和业务标识的对应关系,确定所述第二传输通道的标识对应的业务标识;
    所述基站根据所述配置策略进行配置。
  11. 一种基站与车联网应用服务器之间通信的控制方法,其特征在于,包括:
    车联网应用服务器获取业务数据和业务标识;
    所述车联网应用服务器根据业务标识与第一传输通道的标识的对应关系,确定所述业务标识对应的第一传输通道的标识;
    所述车联网应用服务器将所述业务数据和确定的第一传输通道的标识发送给车联网业务功能管理VFM实体;
    或者,
    所述车联网应用服务器接收所述VFM实体发送的业务数据和第一传输通道的标识;
    所述车联网应用服务器根据第一传输通道的标识和业务标识的对应关系,确定所述第一传输通道的标识对应的业务标识;
    所述车联网应用服务器按照确定的业务标识指示的业务处理所述业务数据。
  12. 如权利要求11所述的方法,其特征在于,所述方法还包括:
    所述车联网应用服务器获取业务的需求信息,所述需求信息至少包括覆盖范围,将所述需求信息和所述业务的业务标识发送给所述VFM实体;
    所述车联网应用服务器接收所述VFM实体根据所述需求信息返回的第一传输通道的标识,保存所述第一传输通道的标识和所述业务标识的对应关系。
  13. 如权利要求12所述的方法,其特征在于,所述方法还包括:
    所述车联网应用服务器向所述VFM实体发送注册请求,所述注册请求中携带所述车联网应用服务器的身份信息。
  14. 如权利要求12所述的方法,其特征在于,所述方法还包括:
    所述车联网应用服务器向所述VFM实体发送注销请求,所述注销请求中携带所述第一传输通道的标识。
  15. 如权利要求11-14任一项所述的方法,其特征在于,所述方法还包括:
    所述车联网应用服务器获取业务的配置策略以及业务标识;
    所述方法还包括:
    所述车联网应用服务器将所述配置策略以及所述第一传输通道的标识发送给所述VFM实体。
  16. 一种车联网业务功能管理VFM实体设备,其特征在于,包括:
    接收模块,用于接收车联网应用服务器的业务数据信息,所述业务数据信息中携带业务数据和第一传输通道的标识,所述第一传输通道用于所述车联网应用服务器的业务与所述VFM实体之间的通信;
    处理模块,用于根据第一传输通道的标识与第二传输通道的标识的对应关系,确定所述第一传输通道的标识对应的第二传输通道标识,所述第二传输通道用于所述VFM实体和基站的业务之间的通信;
    发送模块,用于根据确定的第二传输通道的标识将所述业务数据发送给对应的基站;
    或者,
    接收模块,用于接收基站的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识,所述第二传输通道用于所述VFM和所述基站的业务之间的通信;
    处理模块,用于根据第二传输通道的标识与第一传输通道的标识的对应关系,确定所述第二传输通道的标识对应的第一传输通道的标识,所述第一传输通道用于车联网应用服务器的业务与所述VFM实体之间的通信;
    发送模块,用于根据确定的第一传输通道的标识将所述业务数据发送给对应的车联网应用服务器。
  17. 如权利要求16所述的设备,其特征在于,所述接收模块还用于:
    获取所述车联网应用服务器的业务标识以及对应的需求信息,所述需求信息至少包括覆盖范围;
    所述处理模块还用于:
    根据保存的基站的标识与基站的特征信息的对应关系,所述特征信息至少包括所述基站的覆盖范围,确定满足所述需求信息的基站,并建立所述车联网应用服务器的业务与所述VFM实体之间的第一传输通道,以及建立确定的基站与所述VFM实体之间的第二传输通道,生成所述第一传输通道的标识和所述第二传输通道的标识,并保存所述第一传输通道的标识和所述第二传输通道的标识之间的对应关系;
    所述发送模块还用于:
    将所述第一传输通道的标识发送给所述车联网应用服务器,以及将所述第二传输通道的标识和所述业务标识发送给确定的基站。
  18. 如权利要求17所述的设备,其特征在于,所述接收模块还用于:
    接收车联网应用服务器的注册请求,所述注册请求中携带所述车联网应用服务器的身份信息;
    所述处理模块还用于:
    确定所述车联网应用服务器的身份信息合法,注册所述车联网应用服务器。
  19. 如权利要求16-18任一项所述的设备,其特征在于,所述接收模块还用于:
    接收中断所述基站和所述车联网应用服务器的业务之间的通信的触发消息;
    所述处理模块还用于:
    若确定收到中断所述基站和所述车联网应用服务器的业务之间的通信的触发消息,中断所述基站和所述车联网应用服务器之间对于所述业务的业务数据信息的传输。
  20. 如权利要求16-18任一项所述的设备,其特征在于,所述处理模块还用于:
    统计所述基站和所述车联网应用服务器之间传输所述业务的业务数据信息的时长,和/或,传输所述业务的业务数据信息产生的数据流量,和/或传输所述业务的业务数据信息所占有的频谱资源信息。
  21. 如权利要求16-18任一项所述的设备,其特征在于,所述接收模块还用于:
    接收所述车联网应用服务器的注销请求,所述注销请求中携带所述第一传输通道的标识;
    所述处理模块还用于:
    注销所述第一传输通道的标识指示的第一传输通道以及所述第一传输通道的标识对应的第二传输通道的标识指示的第二传输通道。
  22. 如权利要求16-18任一项所述的设备,其特征在于,所述接收模块还用于:
    接收所述车联网应用服务器的配置信息,所述配置信息中包括第一传输通道的标识以及配置策略;
    所述发送模块还用于:
    根据确定的第二传输通道的标识将所述配置策略发送给对应的基站。
  23. 一种基站,其特征在于,包括:
    获取模块,用于获取业务数据信息,所述业务数据信息中携带业务标识和业务数据;
    确定模块,用于根据业务标识和第二传输通道标识的对应关系,确定所述业务标识对应的第二传输通道标识;
    发送模块,用于将所述业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体;
    或者,
    获取模块,用于接收所述VFM实体发送的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识;
    确定模块,用于根据第二传输通道的标识和业务标识的对应关系,确定所述第二传输通道的标识对应的业务标识;
    处理模块,用于按照确定的所述业务标识指示的业务处理所述业务数据。
  24. 如权利要求23所述的基站,其特征在于,所述获取模块还用于:
    接收所述VFM实体发送的所述业务标识和所述第二传输通道的标识之间的对应关系并保存。
  25. 如权利要求23所述的基站,其特征在于,所述获取模块还用于:
    接收所述VFM实体发送的配置策略信息,所述配置策略信息中携带配置策略和所述第二传输通道的标识;
    所述处理模块还用于:
    根据所述配置策略进行配置。
  26. 一种车联网应用服务器,其特征在于,包括:
    获取模块,用于获取业务数据和业务标识;
    确定模块,用于根据业务标识与第一传输通道的标识的对应关系,确定所述业务标识对应的第一传输通道的标识;
    发送模块,用于将所述业务数据和确定的第一传输通道的标识发送给车联网业务功能管理VFM实体;
    或者,
    获取模块,用于接收所述VFM实体发送的业务数据和第一传输通道的标识;
    确定模块,用于根据第一传输通道的标识和业务标识的对应关系,确定所述第一传输通道的标识对应的业务标识;
    处理模块,用于按照确定的业务标识指示的业务处理所述业务数据。
  27. 如权利要求26所述的服务器,其特征在于,所述获取模块还用于:
    获取业务的需求信息,所述需求信息至少包括覆盖范围,将所述需求信息和所述业务的业务标识发送给所述VFM实体;
    以及接收所述VFM实体根据所述需求信息返回的第一传输通道的标识,保存所述第一传输通道的标识和所述业务标识的对应关系。
  28. 如权利要求27所述的服务器,其特征在于,所述发送模块还用于:
    向所述VFM实体发送注册请求,所述注册请求中携带所述车联网应用服务器的身份信息。
  29. 如权利要求27所述的服务器,其特征在于,所述发送模块还用于:
    向所述VFM实体发送注销请求,所述注销请求中携带所述第一传输通道的标识。
  30. 如权利要求26-29任一项所述的服务器,其特征在于,所述获取模块还用于:
    获取业务的配置策略以及业务标识;
    所述发送模块还用于:
    将所述配置策略以及所述第一传输通道的标识发送给所述VFM实体。
  31. 一种基站与车联网应用服务器之间通信的控制系统,其特征在于,包括:
    车联网应用服务器,用于获取业务数据和业务标识,根据业务标识与第一传输通道的标识的对应关系,确定所述业务标识对应的第一传输通道的标识,将所述业务数据和确定的第一传输通道的标识发送给车联网业务功能管理VFM实体;
    车联网业务功能管理VFM实体,用于接收所述车联网应用服务器发送的所述业务数据和确定的第一传输通道的标识,所述第一传输通道用于所述车联网应用服务器的业务与所述VFM实体之间的通信,根据第一传输通道的标识与第二传输通道的标识的对应关系,确定所述第一传输通道的标识对应的第二传输通道标识,所述第二传输通道用于所述VFM实体和基站的业务之间的通信,根据确定的第二传输通道的标识将所述业务数据发送给对应的基站;
    基站,用于接收所述VFM实体发送的业务数据和第二传输通道的标识,根据第二传输通道的标识和业务标识的对应关系,确定所述第二传输通道的标识对应的业务标识,按照确定的所述业务标识指示的业务处理所述业务数据;
    或者,
    基站,用于获取业务数据信息,所述业务数据信息中携带业务标识和业务数据,根据业务标识和第二传输通道标识的对应关系,确定所述业务标识对应的第二传输通道标识,将所述业务数据和确定的第二传输通道标识发送给车联网业务功能管理VFM实体;
    车联网业务功能管理VFM实体,用于接收基站的业务数据信息,所述业务数据信息中携带业务数据和第二传输通道的标识,所述第二传输通道用于所述VFM和所述基站的业务之间的通信,根据第二传输通道的标识与第一传输通道的标识的对应关系,确定所述第二传输通道的标识对应的第一传输通道的标识,所述第一传输通道用于车联网应用服务器的业务与所述VFM实体之间的通信,根据确定的第一传输通道的标识将所述业务数据发送给对应的车联网应用服务器;
    车联网应用服务器,用于接收所述VFM实体发送的业务数据和第一传输通道的标识,根据第一传输通道的标识和业务标识的对应关系,确定所述第一传输通道的标识对应的业务标识,按照确定的业务标识指示的业务处理所述业务数据。
PCT/CN2016/079072 2015-06-30 2016-04-12 基站与车联网应用服务器通信的控制方法、设备及系统 WO2017000624A1 (zh)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN201510378139.4A CN106331038B (zh) 2015-06-30 2015-06-30 基站与车联网应用服务器通信的控制方法、设备及系统
CN201510378139.4 2015-06-30

Publications (1)

Publication Number Publication Date
WO2017000624A1 true WO2017000624A1 (zh) 2017-01-05

Family

ID=57607593

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2016/079072 WO2017000624A1 (zh) 2015-06-30 2016-04-12 基站与车联网应用服务器通信的控制方法、设备及系统

Country Status (2)

Country Link
CN (1) CN106331038B (zh)
WO (1) WO2017000624A1 (zh)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110768813B (zh) * 2018-07-26 2021-04-09 华为技术有限公司 一种基于车联网的通信方法、装置及设备
CN112019312B (zh) 2019-05-31 2023-06-16 中兴通讯股份有限公司 一种服务处理方法及装置和车联网设备

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010238171A (ja) * 2009-03-31 2010-10-21 Jvc Kenwood Holdings Inc 路側装置、車載装置、路車間無線通信システム、方法及びプログラム
CN103024008A (zh) * 2012-12-03 2013-04-03 中国联合网络通信集团有限公司 物联网中数据传输的方法、设备和系统
CN103248702A (zh) * 2013-05-17 2013-08-14 北京九五一九零信息技术有限公司 一种灾备服务的服务器自适应系统及方法
CN103684963A (zh) * 2013-11-18 2014-03-26 重庆邮电大学 一种面向车联网应用的中间件架构系统及实现方法

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CA2405783A1 (en) * 2000-04-17 2001-10-25 Mitch A. Benjamin Secure dynamic link allocation system for mobile data communication
KR20020045795A (ko) * 2000-12-11 2002-06-20 구자홍 단거리 무선전용 통신 시스템의 무선 통신망 운용 장치
CN102647704B (zh) * 2012-04-23 2014-10-22 中国联合网络通信集团有限公司 数据传输处理方法、基站和系统

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010238171A (ja) * 2009-03-31 2010-10-21 Jvc Kenwood Holdings Inc 路側装置、車載装置、路車間無線通信システム、方法及びプログラム
CN103024008A (zh) * 2012-12-03 2013-04-03 中国联合网络通信集团有限公司 物联网中数据传输的方法、设备和系统
CN103248702A (zh) * 2013-05-17 2013-08-14 北京九五一九零信息技术有限公司 一种灾备服务的服务器自适应系统及方法
CN103684963A (zh) * 2013-11-18 2014-03-26 重庆邮电大学 一种面向车联网应用的中间件架构系统及实现方法

Also Published As

Publication number Publication date
CN106331038A (zh) 2017-01-11
CN106331038B (zh) 2019-06-14

Similar Documents

Publication Publication Date Title
US11818608B2 (en) Third party charging in a wireless network
US11690005B2 (en) Network slice for visited network
CN109997334B (zh) 具有用于3gpp网络中物联网应用的间接连接的中继和收费的会话管理
US20220030117A1 (en) Systems and methods to enable programmable xhaul transport
US12127276B2 (en) Tunnel failure procedures
US11570739B2 (en) Uplink data indication
US20230328520A1 (en) Aerial Service
US11083048B2 (en) Devices and methods for transforming user plane signaling from a remote sidelink control server into control plane signaling
US20240073848A1 (en) Network Slice in a Wireless Network
US20230337089A1 (en) Aerial Service
US12010610B2 (en) Support for tunneling
US20230422293A1 (en) Network Slice Based Priority Access
WO2022133006A1 (en) Modifying pdu sessions in underlay networks
US20240031929A1 (en) Connection Establishment
WO2017000624A1 (zh) 基站与车联网应用服务器通信的控制方法、设备及系统
WO2018231660A1 (en) Enhanced mobile subscriber privacy in telecommunications networks
US20240089795A1 (en) Data Unit Processing

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 16816989

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 16816989

Country of ref document: EP

Kind code of ref document: A1