TW201740746A - Service identification method, network entity and user equipment using the same - Google Patents

Abstract

The present disclosure proposes a service identification method, a network entity and a user equipment using the same. In one of the exemplary embodiments, this method is applicable to the network entity and includes at least but not limited to: receiving a broadcast service identification configuration request, configuring at least one broadcast service identification of at least one broadcast service in response to receiving the broadcast service identification configuration request, wherein each of the at least one broadcast service identification includes both of a service identification information and an area identification information, the service identification information is used to identify the at least one broadcast service, the area identification information is used to identify a target area corresponding to a broadcast service content of the broadcast service, and transmitting the at least one broadcast service identification including the service identification information and the area identification information.

Description

Service identification method and network entity and user device using the same

The present disclosure relates to a service identification method, and more particularly to a service identification method combining service and geographic area information, and a network entity and user apparatus using the same.

V2X (Vehicle to Everything) is a vehicle data transmission technology based on 3GPP communication protocol, including V2V (vehicle to vehicle), V2P (Vehicle to Pedestrian), and V2I (Vehicle to Infrastructure, vehicle and infrastructure communication, etc., this technology is mainly through the vehicle smart terminal equipment to achieve vehicle data transmission technology.

In order to exchange information between the vehicle and the outside world, the vehicle must periodically or triggerly inform relevant vehicles (such as its own location information and warning messages) to other vehicles around it. FIG. 1 is a schematic diagram showing that V2X messages are broadcast in different multimedia broadcast multicast services (MBMS) areas according to the current location of each vehicle. As shown in FIG. 1, the V2X messages are broadcast in the MBMS broadcast areas 111, 112, 113, 114, respectively, depending on where the vehicle is currently located 101, 102, 103, 104. That is to say, if the information exchange between the vehicle and the outside world is realized by the MBMS service, it is possible to generate a situation with overlapping broadcast areas.

However, according to the current standard of the 3GPP communication protocol TS 23.246, one MBMS service corresponds to only one temporary mobile group identity (TMGI). Also, although the MBMS broadcast area is composed of one or more sub-areas, the sub-areas cannot overlap each other. That is to say, a V2X service that must rely on multiple small areas that may overlap for transmission of information will conflict with the current standard. In other words, if different content belonging to the same service must use the same TMGI, it is not only necessary to distinguish it by flow identifier (FID), but also in areas with overlapping. Therefore, the current 3GPP communication protocol does not meet the requirements of the above V2X service for the current standard of MBMS service.

In addition, if the MBMS broadcast area is described only in units of cells, due to the difference between the target range of the V2X message and the MBMS broadcast range, it may cause the user device to receive too many irrelevant messages and cause it to be busy. Case. For example, FIG. 2 illustrates a schematic diagram of multiple vehicles broadcasting using a target range of V2X messages. Referring to vehicles B, C, D, and E shown in FIG. 2, these vehicles are all broadcast using the same broadcast area, so that vehicle A will receive the V2X messages sent by these vehicles. However, in fact, the vehicle A only falls on the target broadcast area of the vehicle B, and therefore does not need to receive the V2X messages transmitted by the vehicles C, D, and E.

Although the 3GPP standard has a location filter that can describe the target area more accurately and is included in the User Service Description (USD) for transmission to the user device, it is only applicable to files or strings. The transmission of the stream, and the relevant standards have not been set in the group communication. Secondly, in order to describe the target area more accurately, although more broadcast areas can be planned, the user equipment must frequently switch between different broadcast areas and update the relevant USD. If the transmission of USD is delayed, it will cause delay in receiving V2X messages, and may also cause loss of important V2X messages.

Therefore, how to provide a V2X service compatible with the current standards of the MBMS service of the 3GPP communication protocol and at the same time improve the execution performance of the V2X message delivery is one of the topics of interest to those skilled in the art.

In view of this, the present disclosure provides a service identification method and a network entity and user apparatus using the same. The method helps the user device to quickly confirm the broadcast service identifier of a broadcast service as a resource block that must be monitored by configuring the content of the broadcast service identifier to include both the service identification information and the area identification information.

The disclosure provides a service identification method suitable for a network entity. The method includes, but is not limited to, receiving: receiving a broadcast service identifier configuration request; configuring at least one broadcast service identifier of at least one broadcast service, wherein each of the at least one broadcast service identifier, in response to receiving the broadcast service identifier configuration request One includes both service identification information and area identification information, the service identification information is used to identify at least one broadcast service, and the area identification information is used to identify a target area corresponding to at least one broadcast service content of the at least one broadcast service; and the transmitting includes the The service identification information and the at least one broadcast service identifier of the area identification information.

The disclosure provides a network entity. This network entity includes: a transmitter, a receiver, and processing circuitry. The transmitter is used to transfer data. The receiver is used to receive data. Processing circuitry coupled to the transmitter and the receiver and configured to: receive a broadcast service identifier configuration request through the receiver; configure at least one broadcast service identifier, wherein the at least one broadcast service identifies, in response to receiving the broadcast service identifier configuration request Each of the codes includes service identification information and area identification information, the service identification information is used to identify at least one broadcast service, and the area identification information is used to identify a target area corresponding to the at least one broadcast service content of the at least one broadcast service; Transmitting at least one broadcast service identification code including the service identification information and the area identification information through a transmitter.

The present disclosure provides a service identification method suitable for a user device. The method includes, but is not limited to, including: receiving a first broadcast service identifier of a broadcast service, wherein the first broadcast service identifier includes both service identification information and area identification information, the service identification information is associated with the first service, and the area identification information Corresponding to the target area corresponding to the first service; determining, according to the service identification information in the first broadcast service identifier, whether the first service is a service of interest of the user device; in response to determining that the first service is a user device The interest service determines whether the user device is located in the target area according to the area identification information in the first broadcast service identifier; and monitors the resource corresponding to the first broadcast service identifier in response to determining that the user device is located in the target area Block the broadcast service content of the broadcast service.

The present disclosure provides a user device. The user device includes a transmitter, a receiver, and a processing circuit. The transmitter is used to transmit wireless data. The receiver is used to transmit wireless data. The processing circuit is coupled to the transmitter and the receiver and configured to: receive, by the receiver, a first broadcast service identifier of the broadcast service, wherein the first broadcast service identifier includes both the service identification information and the area identification information, and the service identification information is associated The first service, and the area identification information is associated with the target area corresponding to the first service; determining whether the first service is the service of interest of the user device according to the service identification information in the first broadcast service identifier; The first service is a service of interest of the user device, determining, according to the area identification information in the first broadcast service identifier, whether the user device is located in the target area; and in response to determining that the user device is located in the target area, monitoring is performed via the first The broadcast service content of the broadcast service is acquired by the resource block corresponding to the broadcast service identification code.

Based on the above, the service identification method and the network entity and the user equipment using the method of the present disclosure can help the UE quickly confirm the broadcast by configuring the content of the broadcast service identifier to include the service identification information and the area identification information. The broadcast service corresponding to the service identifier is negligible or non-negligible, which not only improves the performance of message delivery, but also avoids the delay of message reception. In addition, for a plurality of possible overlapping target areas belonging to the same service, the broadcast service identifiers have the same service identification information, but the area identification information area separates different target areas, so that the broadcast service identification code can also The message is transmitted in overlapping areas to achieve a V2X service that is compatible with the current MBMS service standard of the 3GPP communication protocol.

The above described features and advantages of the present invention will be more apparent from the following description.

Reference will now be made in detail to the exemplary embodiments embodiments Wherever possible, the same element symbols are used in the drawings and the description

In the present disclosure, keywords or terms of the 3GPP class (such as MBMS, TMGI) are only used as examples to present the disclosed concepts in accordance with the present disclosure; however, the same concepts presented in the present disclosure may be applied by those having ordinary knowledge in the art. In any other system, for example, IEEE 802.11, IEEE 802.16, WiMAX, and the like. Thus, the TMGI of the present disclosure can be extended to other types of broadcast service identifiers used by other types of networks, and the MBMS services disclosed herein can be extended to other types of broadcast services.

According to the current standard of the 3GPP communication protocol TS 23.003, Section 15.2 specifically defines the TMGI that uniquely identifies the multicast and broadcast bearer services in the MBMS. As shown in FIG. 3, FIG. 3 illustrates the TMGI format described in 3GPP TS 23.003. Referring to FIG. 3, the format of the TMGI 300 is composed of three parts: MBMS service identifier 310, Mobile Country Code (MCC) 320, and Mobile Network Code (MNC). ) 330 and other areas. The MBMS Service Identifier 310 uniquely identifies the MBMS Bearer Service within the Public Land Mobile Network (PLMN). The MCC 320 is usually combined with the MNC 330 to represent the network operator of the only mobile device.

In the disclosed embodiment, in order to provide a V2X service compatible with the current MBMS service standard of the 3GPP communication protocol, and at the same time improve the execution performance of the V2X message delivery, the content of the MBMS service identifier 310 in the TMGI 300 is transmitted. Defined to achieve this.

4 is an MBMS service identification code 410 in accordance with one of the illustrative embodiments of the present disclosure. Referring to FIG. 4, the MBMS service identifier 410 includes sections 411, 412. Here, assuming that the first few bits of the MBMS service identification code 410 (ie, the section 411) carry the prefix string identifying the MBMS service, the remaining bits of the MBMS service identifier 410 (ie, section 412) are available. To carry other information. Accordingly, for a V2X message that requires an MBMS broadcast service using an overlapping broadcast area, the present disclosure defines a TMGI having a specific format that allows a user device to determine whether to monitor the bearer according to the TMGI defined in the disclosure. The resource block of the broadcast service content corresponding to TMGI.

More specifically, in the present disclosure, the TMGIs of the broadcast services belonging to the same service may have the same service identification information, and the rest of the TMGI may be bits or random bits related to the geographic area information or other information to Separate different target broadcast areas or entrain other information. In this way, although TMGI shares the same service identification information, the rest of TMGI can make each TMGI globally unique.

In the following embodiments, the present disclosure will detail the service identification method implemented based on the TMGI format of FIG. 4 from the perspective of a network entity and a User Equipment (UE).

It should be noted that the network entity disclosed in this disclosure may be a Broadcast Multicast Service Center (BMSC), but is not limited thereto. For example, a network entity may also refer to any of the following: an MBMS gateway (MBMS gateway, MBMS GW) and a Mobility Management Entity (MME) in the core network, and radio access. Multi-cell / Multicast Coordination Entity (MCE) in the network.

From a hardware perspective, the network entity may include, but is not limited to, a transmitter circuit, a receiver circuit, an analog to digital (A/D) converter, a digital to analog (D/A) converter, a processing circuit, and optionally Selected storage media. The transmitter circuit and the receiver circuit are used for transmitting and receiving a modulated signal, which may be a radio frequency (RF) signal (through one or more antennas), an optical signal, or a signal transmitted through the cable. The transmitter circuit and the receiver circuit can also perform operations such as low noise amplification, impedance matching, mixing, up-conversion or down-conversion, filtering, amplification, and the like. An analog to digital (A/D) converter is configured to convert the signal from the analog signal format to a digital signal format, and the digital to analog (D/A) converter is configured to convert the signal from the digital signal format to an analog Signal format.

The processing circuitry is configured to process the digital signals and perform the functions, processing procedures, or method steps of the proposed methods in the illustrative embodiments disclosed herein. In addition, the processing circuit can be coupled to the memory circuit to store code, device configuration, codebook, buffered or permanent data, and the like. The functions of the processing circuitry can be implemented using programmable units such as microprocessors, microcontrollers, DSP chips, FPGAs, and the like. The functions of the processing circuit can also be implemented by separate electronic devices or ICs, and the processing circuits can also be implemented in hardware or software.

In addition, in the disclosure, "user device (UE)" may represent various embodiments, which may include, for example, but not limited to, a mobile station, an advanced mobile station (AMS), a server, Client, desktop, laptop, network computer, workstation, personal digital assistant (PDA), personal computer (PC), scanner, telephone device, pager, Cameras, televisions, palm-sized video game devices, music devices, wireless sensors, and the like. In some applications, the UE may be a stationary computer device that operates in a mobile environment such as a bus, train, airplane, boat, car, or the like.

From a hardware perspective, the UE may include at least (but not limited to) a transmitter circuit, a receiver circuit, an analog to digital (A/D) converter, a digital to analog (D/A) converter, a processing circuit, one or more Antenna unit and memory circuit as appropriate. The memory circuit can store code, device configuration, buffered or permanent data, codebook, and the like. The processing circuitry may also be implemented by hardware or software and is considered to be a function, a process, or a program, and method steps of the embodiments of the disclosure. The function of each element of the UE is similar to the network entity and thus a detailed description of each element will not be repeated.

Please refer to FIG. 5. FIG. 5 is a flowchart of a service identification method proposed from the perspective of a network entity according to one of the exemplary embodiments of the present disclosure.

In step S510, the network entity receives a broadcast service identifier configuration request through the receiver. In this embodiment, the network entity is described by the BMSC, which is located in the core network and will perform authentication/authorization of the content provider and configure the broadcast service identifier desired by the content provider. The application service server providing the MBMS service transmits a broadcast service identifier configuration request to the BMSC, so that the BMSC can configure the broadcast service identifier according to the broadcast service identifier configuration request.

In this embodiment, the broadcast service identifier configuration request includes at least the following information: at least one service information and corresponding target area information.

The broadcast service identifier requested by the application service server can be implemented based on the TMGI format of FIG. Therefore, this broadcast service identification code is compatible with the TMGI of the MBMS service in the 3GPP standard. The service information in the broadcast service identifier configuration request is used to assist the network entity in configuring the service identification information of the broadcast service identifier, and the service identification information is used to identify the MBMS service. MBMS services can refer to services such as V2V, V2I, V2P or V2N in V2X vehicle data transmission technology, or for specific services such as coordinated crossroad collision avoidance systems, front collision warnings and cornering speed warnings.

In step S520, the network entity configures at least one broadcast service identifier in response to the broadcast service identifier configuration request. In this embodiment, in addition to the service identification information for identifying the MBMS service, the network entity generates the area identification information based on the geographic area information based on the TMGI format defined in FIG. 4 to configure the broadcast service identification code. Thus, FIG. 6 is an MBMS service identification code 610 in accordance with another exemplary embodiment of the present disclosure, which further defines sections 411 and 412 in the MBMS service identification code 410 based on the TMGI format defined in FIG. Schematically, section 412 is provided with region identification information associated with the target area. The area identification information is used to identify a target area corresponding to the broadcast service content broadcasted based on the MBMS service.

Referring to FIG. 6, the MBMS service identification code 610 in FIG. 6 includes a section 611 carrying service identification information and a section 612 carrying area identification information. The section 611 is the same as the section 411 shown in FIG. 4, and the service identification information carried in the section 611 is a bit string identifying the MBMS service, which may be a fixed length or a variable length. The service identification information carried in the section 611 can be configured according to the service information in the broadcast service identifier configuration request.

The area identification information carried in the section 612 is a bit string identifying the geographic area information, which can be configured according to the target area information in the broadcast service identifier configuration request. It should be noted that the target area may be at least a preset range area, at least one road section or at least one road fork or at least one MBMS service area identity (SAIs) or at least one honeycomb identification code ( The area to which cell IDs) corresponds.

In this embodiment, if the target area is a preset range area, where the preset range area may be a specific coverage area, the area identification information carried in the section 612 may include an area type and an area associated with the target area. Information such as parameters are described, but the disclosure of geographic area information is not limited to this. It should be noted that the type of the area included in the area identification information carried in the section 612 and the corresponding area description parameter may be changed according to the user setting. For example, the above-mentioned area type is, for example, the area shape of the target area (for example, a circle or a square), and the area description parameter can define the size and position of the target area. More specifically, the area type can be mapped to a determination function for defining the area shape, and the user equipment can obtain the coverage of the target area by using the judgment function and the area description parameter. In other words, the determination function corresponding to the area type can be used to determine whether the user device that received the broadcast service identification code is located in the target area according to the area description parameter.

In another embodiment, assuming that the target area is a road section or a road fork, the area identification information carried by the section 612 may include a road section identification code or a road fork identification code associated with the target area. Therefore, the user equipment can determine whether it is located in the target area according to its current location, that is, whether it is located on the road section represented by the road section identification code or the road fork identification code or near the fork of the road. In another embodiment, assuming that the target area is an area corresponding to the MBMS SAIs or cell IDs, the area identification information carried in the section 612 may include MBMS SAIs or cell IDs associated with the target area. Therefore, the user equipment can determine whether it is located in the target area according to the MBMS SAIs or cell IDs in which it is currently located, that is, whether it is located in the area represented by the MBMS SAIs or the cell IDs in the area identification information.

In other words, based on FIG. 4 in conjunction with the TMGI format of FIG. 6, the network entity responds to the broadcast service identifier configuration request, and each of the broadcast service identifiers can be configured to include the service identification information (ie, the bits carried in the segment 611). The string is associated with the area identification information (i.e., the bit string carried in section 612) to assist the UE in confirming the MBMS broadcast service and message associated therewith.

In the embodiment of the present disclosure, for a broadcast service identifier having the same service but different target areas, the network entity may configure the service identification information corresponding to the service according to the service information for at least one broadcast service identifier of the same service. So that the broadcast service identifiers corresponding to the same service have the same service identification information. Moreover, the network entity further configures and corresponds to the area identification information of the different target areas by the at least one broadcast service identifier having the same service to distinguish the same service but corresponding to at least the different broadcast service content. A broadcast service identifier. It is to be noted that, since the at least one broadcast service identification code has configured the area identification information respectively corresponding to each of the different target areas, each of the different target areas may overlap each other. In this way, the broadcast service identification code is not only required to be distinguished by the stream identification code, but also transmitted in an overlapping area.

After the network entity completes the configuration of the broadcast service identifier, in step S530, the network entity may transmit the at least one broadcast service identifier configured by the network through the transmitter circuit, where the broadcast service identifier includes at least one service identifier. Information and its corresponding area identification information. Further, the network entity may transmit the configured broadcast service identifier to the application server, or transmit the configured broadcast service identifier to one or more base stations, the one or more bases. The station delivers the broadcast service identifier to the user device.

Next, FIG. 7 is a flowchart of a service identification method proposed from the perspective of a UE in accordance with one of the exemplary embodiments of the present disclosure.

In step S710, the UE reads the system information block (SIB) and the control information contained in the multicast control channel (MCCH) to determine whether the first broadcast service identifier received by the receiver is new. Broadcast service identifier. In this embodiment, the first broadcast service identifier may be in the TMGI format defined by the disclosure or not in the TMGI format defined in the disclosure. When the first broadcast service identifier conforms to the TMGI format defined by the disclosure, the first broadcast service identifier includes the service identification information and the area identification information, the service identification information is associated with the first service, and the area identification information is associated with the corresponding The target area of the first service.

If the UE does not receive the first broadcast service identifier, the UE proceeds to step S710 to continuously update the received system information block and the information on the multicast control channel, and continuously determines whether the first broadcast service identifier has been received. code.

On the other hand, if the UE receives the first broadcast service identifier, the UE proceeds to step S720 to parse the first broadcast service identifier. In step S720, the UE determines whether the first broadcast service identifier conforms to a specific TMGI format, and determines whether the first service is the UE's interest service according to the service identification information in the first broadcast service identifier.

In this embodiment, the UE has a pre-configured list of identifiers of interest. The list of identifiers of interest includes a plurality of second broadcast service identifiers. It should be noted that the format of the second broadcast service identifier may be the TMGI format described in the current standard of the 3GPP communication protocol TS 23.003 (refer to the TMGI format shown in FIG. 3), but the disclosure does not There is a limit as long as the second broadcast service identifier includes information related to its service. Based on the service identification information in the first broadcast service identifier, the UE may determine whether the first service meets the second service associated with any one of the plurality of second broadcast service identifiers to determine whether the first service is a UE. Interested in the service. If yes, go to step S730.

In step S730, the UE determines whether the UE is located in the target area according to the area identification information in the first broadcast service identifier in response to determining that the first service is the interest service of the UE.

In this embodiment, if the target area is a preset range area, the area identification information includes an area type associated with the target area and an area description parameter associated with the area type. The area type is mapped to a judgment function, and the judgment function is used to determine whether the UE is located in the target area according to the area description parameter. The UE needs to obtain its current current location to determine whether the current location of the UE is located in the target area according to the type of the region and its corresponding judgment function.

For example, please refer to FIG. 8. FIG. 8 is an MBMS service identifier 810 according to one of the exemplary embodiments of the present disclosure. The MBMS service identifier 610 is further based on the TMGI format defined in FIG. A schematic diagram of the definition of section 612 in it. In the present embodiment, the section 811 also carries the service identification information, and the section 812 also carries the area identification information. It should be noted that the area identification information received by the UE includes the area type 8121, and the location identifier 8122 of the target area for indicating the area description parameter and the size parameter 8123 of the target area.

The area type 8121 is the area shape of the target area. In an embodiment, when the area type 8121 is circular, the UE may obtain a corresponding circular determination function according to the area type 8121, and set the position identification code 8122 of the target area in the area description parameter and the size of the target area. Parameter 8123 is substituted into the judgment function. Based on this, the determination function for determining whether the current location of the UE is located in the target area can be expressed as: Formula (1) In formula (1), Representing the current location of the UE, Represents the reference center location of the target area, Obtained based on the location identification code 8122 of the target area, The radius representing the circle is obtained from the size parameter 8123 of the target area, and S represents the scaling factor. When the current position of the UE satisfies the judgment function shown in the formula (1), it can be determined that the UE is located in the target area, and vice versa.

In another embodiment, if the area type 8121 is a square, the UE may obtain a corresponding square judgment function according to the area type 8121, and set the position identification code 8122 of the target area in the area description parameter and the size parameter of the target area. 8123 is substituted into the judgment function. Based on this, the determination function for determining whether the current location of the UE is located in the target area can be expressed as: Formula (2) In formula (2), Representing the current location of the UE, Represents the reference center location of the target area, Obtained based on the location identification code 8122 of the target area, The unit length representing the square is obtained from the size parameter 8123 of the target area, and S represents the scaling factor. When the current position of the UE satisfies the judgment function shown in the formula (2), it can be determined that the UE is located in the target area, and vice versa.

In other embodiments, if the target area is a road section or a road fork, the area identification information received by the UE includes a road section identifier or a road fork identification code associated with the target area. Therefore, the UE can obtain the road information of the current location, and determine whether the road information conforms to the road section identification code or the road fork identification code. If the target area is the area corresponding to the MBMS SAIs or the cell IDs, the area identification information received by the UE may be MBMS SAIs or cell IDs, or the MBMS SAIs or cell IDs are calculated by other functions (such as a hash function). The output value, the UE can determine whether it is located in the target area by its current MBMS SAIs or cell IDs.

Then, if the UE is not located in the target area, indicating that the UE can ignore the broadcast service corresponding to the first broadcast service identifier, the UE returns to step S710 to continuously update the received system information block and the multicast control channel to determine Is there a new first broadcast service identifier?

On the other hand, if the UE is located in the target area, proceed to step S740, the UE will continuously monitor and acquire a broadcast service content of the broadcast service via the resource block corresponding to the first broadcast service identifier to obtain a corresponding The message for the MBMS broadcast service.

Going back to step S720, if the UE determines that the first broadcast service identifier does not conform to the specific TMGI format, or determines that the first service is not the UE's service of interest, then step S750 is performed.

In step S750, the UE determines whether the first broadcast service identifier is the UE's interest service by using the system information block, the multicast control channel, and the user service description (USD). In this embodiment, since the USD is transmitting information about the broadcast multicast service to the UE that receives the MBMS service (eg, source Internet Protocol (IP) address, destination IP address, port, and TMGI The UE can determine whether the first broadcast service identifier is the UE's service of interest through the USD.

If it is determined in step S750 that the first broadcast service identification code is not the interest service of the UE, the UE returns to step S710 to continuously update the received system information block and the multicast control channel, and determines whether there is a new first broadcast service. Identifier.

On the other hand, if it is determined in step S750 that the service identification information in the first broadcast service identification code is displayed as the service of interest of the UE, proceeding to step S740, the UE will continuously monitor the resource area corresponding to the first broadcast service identifier. Blocking a broadcast service content of the MBMS service to obtain a message corresponding to the MBMS service.

In summary, the service identification method and the network entity and the user device using the method are provided by the network entity, and the network entity can help the content of the broadcast service identifier by including the service identification information and the area identification information. The UE quickly confirms that the broadcast service corresponding to the broadcast service identifier is negligible or non-negligible, which not only improves the performance of message delivery but also avoids delay in receiving the message. In addition, for a plurality of possible overlapping target areas belonging to the same service, the broadcast service identifiers have the same service identification information, but the area identification information area separates different target areas, so that the broadcast service identification code can also The message is transmitted in overlapping areas to achieve a V2X service that is compatible with the current MBMS service standard of the 3GPP communication protocol.

The present disclosure has been disclosed in the above embodiments, but it is not intended to limit the disclosure, and any person skilled in the art can make some changes and refinements without departing from the spirit and scope of the disclosure. The scope of protection of this disclosure is subject to the definition of the scope of the appended claims.

101, 102, 103, 104‧‧‧ position
111, 112, 113, 114‧‧‧ broadcast areas
300‧‧‧TMGI
310, 410, 610, 810‧‧‧MBMS Service ID
320‧‧‧MCC
330‧‧‧MNC
Sections 411, 412, 611, 612, 811, 812‧‧
8121‧‧‧Regional type
8122‧‧‧Location ID of the target area
8123‧‧‧Dimensional parameters of the target area
A, B, C, D, E‧‧ vehicles
S510, S520, S530, S710, S720, S730, S740, S750‧‧ steps

FIG. 1 is a schematic diagram showing that a V2X message is broadcasted in a broadcast area of a different MBMS according to the current location of the vehicle. FIG. 2 is a schematic diagram showing that a plurality of vehicles broadcast using a target range of V2X messages. Figure 3 illustrates the TMGI format described in 3GPP TS 23.003. 4 is an MBMS service identification code in accordance with one of the illustrative embodiments of the present disclosure. 5 is a flow diagram of a service identification method proposed from the perspective of a network entity in accordance with one of the illustrative embodiments of the present disclosure. 6 is an MBMS service identification code in accordance with one of another exemplary embodiments of the present disclosure. 7 is a flow chart of a service identification method proposed from the perspective of a UE in accordance with one of the exemplary embodiments of the present disclosure. FIG. 8 is an MBMS service identification code in accordance with one of still another exemplary embodiment of the present disclosure.

S510, S520, S530‧‧‧ steps

Claims (38)

A service identification method, applicable to a network entity, the method comprising: receiving a broadcast service identifier configuration request; configuring at least one broadcast service identifier of at least one broadcast service in response to receiving the broadcast service identifier configuration request Each of the at least one broadcast service identifier includes a service identification information and an area identification information, the service identification information is used to identify the at least one broadcast service, and the area identification information is used to identify a target area corresponding to the at least one broadcast service content of the at least one broadcast service; and transmitting the at least one broadcast service identifier including the service identification information and the area identification information. The method of claim 1, wherein an application service server providing the broadcast service transmits the broadcast service identifier configuration request, the broadcast service identifier configuration request including at least the at least one broadcast service Service information and target area information corresponding to the at least one broadcast service content. The method of claim 1, wherein the number of the at least one broadcast service identification code is greater than 1, and the step of configuring the at least one broadcast service identification code comprises: for a service having the same broadcast service Configuring the broadcast service identifier to configure the service identification information corresponding to the broadcast service; and configuring the area corresponding to the different target area for the broadcast service identification code having the same broadcast service Identify information. The method of claim 3, wherein the different target regions overlap each other. The method of claim 1, wherein the target area includes a predetermined range area, the area identification information includes a type of area associated with the target area, and an area description parameter, the area type Mapping to a determination function, the determining function is configured to determine, according to the area description parameter, whether a user device that receives the broadcast service identification code is located in the preset range area. The method of claim 1, wherein the target area comprises a road section or a road fork, and the area identification information comprises a road section identifier or a link associated with the target area. Road fork identification code. The method of claim 1, wherein the target area comprises an area corresponding to a multimedia broadcast multicast service area identifier (MBMS SAIs) or a cell ID (cell IDs), and the area identification The information includes the multimedia broadcast multicast service service area identifier or the hive identification code associated with the target area. The method of claim 1, wherein each of the at least one broadcast service identification code is globally unique. The method of claim 1, wherein the broadcast service identifier is compatible with a Temporary Mobile Group Identity (TMGI) of the MBMS service in the 3GPP standard. A network entity comprising: a transmitter for transmitting data; a receiver for receiving data; and a processing circuit coupled to the transmitter and the receiver and configured to: Receiving, by the receiver, a broadcast service identifier configuration request; configuring at least one broadcast service identifier in response to receiving the broadcast service identifier configuration request, wherein each of the at least one broadcast service identifier includes a service identification information And the area identification information, the service identification information is used to identify the at least one broadcast service, and the area identification information is used to identify a target area corresponding to the at least one broadcast service content of the at least one broadcast service; Transmitting, by the transmitter, the at least one broadcast service identification code including the service identification information and the area identification information. The network entity of claim 10, wherein an application service server providing the broadcast service transmits the broadcast service identifier configuration request, the broadcast service identifier configuration request including at least the at least one Service information of the broadcast service and target area information corresponding to the at least one broadcast service content. The network entity of claim 10, wherein the number of the at least one broadcast service identifier is greater than one, the processing circuit is further configured to: serve the broadcast service having the same broadcast service The identification code configures the service identification information corresponding to the broadcast service; and configures the area identification information corresponding to the different target areas for the broadcast service identification codes having the same broadcast service. The network entity of claim 12, wherein the different target areas overlap each other. The network entity of claim 10, wherein the target area includes a predetermined range area, the area identification information includes a type of area associated with the target area, and an area description parameter, The area type is mapped to a determination function, and the determination function is configured to determine, according to the area description parameter, whether a user device that receives the broadcast service identification code is located in the preset range area. The network entity of claim 10, wherein the target area comprises a road section or a road fork, and the area identification information includes a road section identifier associated with the target area. Or a road fork identification code. The network entity of claim 10, wherein the target area comprises a multimedia broadcast multicast service service area identifier or an area corresponding to a hive identification code, and the area identification information includes being associated with the The multimedia broadcast multicast service service area identifier or the hive identification code of the target area. The network entity of claim 10, wherein each of the at least one broadcast service identifier is globally unique. The network entity of claim 10, wherein the broadcast service identifier is a temporary action group identifier of the MBMS service in the 3GPP standard. A service identification method, applicable to a user device, the method comprising: receiving a first broadcast service identifier of a broadcast service, wherein the first broadcast service identifier includes a service identification information and an area identification information The service identification information is associated with a first service, and the area identification information is associated with a target area corresponding to the first service; according to the service identification information in the first broadcast service identifier Determining whether the first service is an interest service of the user device; in response to determining that the first service is the service of interest of the user device, according to the first broadcast service identifier The area identification information determines whether the user device is located in the target area; and in response to determining that the user device is located in the target area, monitoring corresponding via the first broadcast service identification code The resource block acquires a broadcast service content of the broadcast service. The method of claim 19, wherein the user device has a pre-configured list of identifiers of interest, and the list of identifiers of interest includes a plurality of second broadcast service identifiers, wherein The method for determining whether the first service is the service of interest of the user device by using the service identification information in the first broadcast service identifier includes: determining whether the first service meets the plurality of Determining any one of a plurality of second services in the broadcast service identifier; and determining that the first service meets any one of the plurality of second services in the second broadcast service identifier The first service is the service of interest, otherwise, the first service is determined not to be the service of interest. The method of claim 19, wherein the target area comprises a predetermined range area, the area identification information comprising a type of area associated with the target area and an area associated with the type of the area Describe a parameter, the area type is mapped to a determination function, and the determining function is configured to determine, according to the area description parameter, whether the user equipment is located in the preset range area. The method of claim 21, wherein determining, according to the area identification information in the first broadcast service identifier, whether the user device is located in the target area comprises: obtaining the use a current location of the device; and substituting the region description parameter into the determination formula, and determining, according to the determination formula, whether the current location of the user device is within the preset range region. The method of claim 19, wherein the target area comprises a road section or a road fork, and the area identification information comprises a road section identifier or a link associated with the target area. Road fork identification code. The method of claim 21, wherein determining, according to the area identification information in the first broadcast service identifier, whether the user device is located in the target area comprises: obtaining the use The road information of a current position of the device; and determining whether the road information conforms to the road section identification code or the road fork identification code. The method of claim 19, wherein the target area comprises a multimedia broadcast multicast service service area identifier or an area corresponding to a hive identification code, and the area identification information includes an association with the target area. The multimedia broadcast multicast service service area identifier or the hive identification code. The method of claim 19, in response to determining that the user device is not located in the target area, the method further comprising: continuously updating the received system information block (SIB) and multicast control Channel (MCCH) to determine if there is a new first broadcast service identifier. The method of claim 19, in response to determining that the first service is not the service of interest of the user device, the method further comprises: utilizing a system information block (SIB), a broadcast control channel (MCCH) and a user service description (USD) determining whether the first broadcast service identifier is the service of interest of the user device; and in response to determining that the first broadcast service identifier is The service of interest of the user device continuously monitors the broadcast service content of the broadcast service by using a resource block corresponding to the first broadcast service identifier. The method of claim 19, wherein the first broadcast service identifier is compatible with a temporary action group identifier of the MBMS service in the 3GPP standard. A user device comprising: a transmitter for transmitting wireless data; a receiver for transmitting wireless data; and a processing circuit coupled to the transmitter and the receiver and configured to: The receiver receives a first broadcast service identifier of a broadcast service, where the first broadcast service identifier includes a service identification information and an area identification information, and the service identification information is associated with a first service. And the area identification information is associated with a target area corresponding to the first service; determining, according to the service identification information in the first broadcast service identifier, whether the first service is the user equipment In response to determining that the first service is the service of interest of the user device, determining whether the user device is determined according to the area identification information in the first broadcast service identification code Located within the target area; and in response to determining that the user device is located within the target area, monitoring via the A broadcast service content of the broadcast service is acquired by a resource block corresponding to the first broadcast service identifier. The user device of claim 29, wherein the user device has a pre-configured list of identifiers of interest, and the list of identifiers of interest includes a plurality of second broadcast service identifiers, wherein The processing circuit is further configured to: determine whether the first service meets any one of a plurality of second services of the plurality of second broadcast service identification codes; and responsive to the first service meeting the Determining, by any one of the plurality of second services, that the first service is the service of interest; otherwise, determining that the first service is not the service of interest. The user device of claim 29, wherein the target area comprises a predetermined range area, the area identification information includes a type of area associated with the target area and associated with the type of the area An area description parameter, the area type is mapped to a determination function, and the determination function is configured to determine, according to the area description parameter, whether the user equipment is located in the preset range area. The user device of claim 31, wherein the processing circuit is further configured to: obtain a current location of the user device; and substitute the region description parameter into the determination formula, and The determining formula determines whether the current location of the user device is located in the preset range region. The user device of claim 29, wherein the target area comprises a road section or a road fork, and the area identification information comprises a road section identification code associated with the target area. Or a road fork identification code. The user device of claim 33, wherein the processing circuit is further configured to: obtain road information of a current location of the user device; and determine whether the road information conforms to the road area A segment identification code or the road fork identification code. The user device of claim 29, wherein the target area comprises a multimedia broadcast multicast service service area identifier or an area corresponding to a cellular identification code, and the area identification information is associated with The multimedia broadcast multicast service service area identifier or the hive identification code of the target area. The user device of claim 29, wherein in response to determining that the user device is not located in the target area, the processing circuit is further configured to: continuously update the received system information block and The multicast control channel is used to determine whether there is a new first broadcast service identifier. The user device of claim 29, wherein the processing circuit is further configured to: utilize a system information area in response to determining that the first service is not the service of interest of the user device The block, the multicast control channel, and the user service description determine whether the first broadcast service identifier is the service of interest of the user device; and in response to determining that the first broadcast service identifier is the use The service of interest of the device, continuously monitoring the resource block corresponding to the first broadcast service identifier to acquire the broadcast service content of the broadcast service. The user device of claim 29, wherein the first broadcast service identification code is compatible with a temporary action group identification code of the MBMS service in the 3GPP standard.