KR20200052172A - Apparatus and method for providing multicast converted MCPTT service in disaster situation - Google Patents

Abstract

Disclosed are an apparatus and method for converting a unicast-type mission critical push to talk (MCPTT) service to a multicast type in a disaster situation. According to the present invention, the apparatus for converting an MCPTT service to a multicast type in a disaster situation comprises: a collection unit which collects MCPTT information and base station information of a region where the disaster occurs; a determination unit for determining conversion to a multicast method using the collected information; and a provision unit which provides the information on the determined conversion to the multicast method.

Description

Apparatus and method for providing multicast converted MCPTT service in disaster situation}

The present invention is an MCPTT technology, and relates to an apparatus and method for converting an MCPTT service into a multicast when a disaster situation occurs while the MCPTT service is provided in a unicast manner.

MCPTT (Mission-Critical Push-To-Talk) is a type of Group Communication System Enablers (GCSE) based on the evolved multimedia broadcast multicast service (eMBMS).

The eMBMS is a LTE-based mobile broadcasting technology defined by 3GPP, and is a technology capable of simultaneously transmitting large amounts of multimedia content to multiple users. GCSE technology is a group communication technology using eMBMS. MCPTT, a type of GCSE, is an LTE-based push-to-talk service for public safety.

The MCPTT is provided on the basis of eMBMS, and has the function of individually / group emergency calls between terminals, randomly listening to the ambient sound of a specific user terminal in the remote, and forcibly re-sending the call from the operation center to the terminal in an emergency.

The eMBMS-based MCPTT has a unicast method and a multicast method. In the unicast method, since a center and a terminal are provided with a 1: 1 communication method, it is impossible to simultaneously transmit data to a plurality of terminals in a specific region. If multimedia data needs to be transmitted for each terminal, the number of terminals is limited due to an increase in communication load.

On the other hand, in the multicast method, since a center and a terminal are provided with a 1: N communication method, it is possible to simultaneously transmit data to a plurality of terminals in a specific region. Of course, even when transmitting multimedia data, the number of terminals is not limited without increasing the communication load.

Here, when the eMBMS-based MCPTT group communication is provided by the disaster safety network Public Safety-LTE (PS-LTE), up to 60% of radio resources in the radio resources of the LTE network may be allocated to the eMBMS. If eMBMS communication is provided in a situation where the number of users of the MCPTT is small, the eMBMS does not fully utilize the allocated radio resources, and the LTE network may cause system failure as a waste of radio resources.

Korean Open Patent 2018-0078366 (2018.07.10)

The present invention was created under the recognition of the prior art as described above, and when group communication of the MCPTT based on the eMBMS is provided in a unicast manner, the group communication of the MCPTT is determined by determining whether to switch to multicast by detecting a disaster situation. It is an object to provide an apparatus and method for converting a multicasting method.

It is another object of the apparatus to allocate allocable radio resources to a multicast scheme of an eMBMS by applying resource pooling to a base station in a service area determined according to a disaster class.

According to an aspect, an apparatus for converting a mission critical push to talk (MCPTT) service into a multicast in a disaster situation includes: a collection unit that collects MCPTT information and base station information in a region where the disaster situation has occurred; A determination unit for determining conversion in the multicast method using the collected information; And a provision unit that provides the determined conversion information to the multicast method.

The apparatus further includes a disaster reception unit that receives the occurrence information of the disaster situation, checks the location of the occurrence region, and identifies the base station at the identified location.

The apparatus further includes a rating determining unit that determines a disaster rating and an area of the MPCTT service corresponding to the received occurrence information of the disaster situation.

The collection unit receives the MCPTT information including the number of subscribers, usage amount, and electric field environment of the MCPTT from the MCPTT server.

The collection unit collects the base station information including a load of processing and traffic of a base station device in a disaster area from a network management system (NMS) server.

The device further includes a group confirmation unit for identifying an existing group being used in the MCPTT service in the disaster area or creating a new group.

The apparatus further includes a resource management unit that receives and manages pooling information of radio resources that can be allocated from a base station apparatus in a disaster area.

The determination unit determines the switch to the multicast method as the service amount of the collected MCPTT information increases and the base station load of the collected base station information is less.

The providing unit further provides radio resource information identified as being assignable through pooling from the base station apparatus.

The providing unit transmits information requesting a switch to the multicasting method to the MCPTT server.

According to another aspect, a method for a device to convert a Mission Critical Push To Talk (MCPTT) service into a multicast in a disaster situation includes: collecting MCPTT information and base station information in a region where the disaster situation has occurred; Determining a conversion by the multicast method using the collected information; And providing the determined conversion information to the multicast method.

According to an aspect of the present invention, when a disaster occurs, it is determined whether to convert a unicast method to a multicast method in consideration of a situation of a mobile service in which radio network resources are shared and a situation of an MCPTT service, and then multicast according to the determination. By switching to this method, call data of MCPTT increased by disaster can be efficiently processed without wasting resources.

In addition, in the event of a disaster, in order to be allocated a multicast type wireless network resource that is required more than the unicast method, the class of the disaster is obtained by pooling and managing the wireless network resource that can be allocated from network equipment in advance. And wireless network equipment corresponding to the service area.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the invention described below, and thus the present invention is described in such drawings. It should not be interpreted as being limited to.
1 is a schematic configuration diagram of a system for determining multicast switching according to an embodiment of the present invention.
FIG. 2 is a schematic configuration and processing flow diagram of the switching server of FIG. 1.
3 is a flowchart illustrating whether the switching server of FIG. 1 determines whether to switch to multicast.
FIG. 4 is a schematic illustration of unicast and multicast communication equipment switched by the switching server of FIG. 1.
5 is a schematic illustration of resources allocated according to a multicast scheme switched by the switching server of FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to ordinary or lexical meanings, and the inventor appropriately explains the concept of terms in order to explain his or her invention in the best way. Based on the principle that it can be defined, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention. Therefore, the embodiments shown in the embodiments and the drawings described in this specification are only the most preferred embodiments of the present invention and do not represent all of the technical spirit of the present invention, and thus can replace them at the time of application. It should be understood that there may be equivalents and variations.

1 is a schematic configuration diagram of a multicast switching system 100 according to an embodiment of the present invention.

The multicast switching system 100 according to an embodiment of the present invention includes an NMS server 110, a switching server 130, and an MCPTT server 150.

The NMS server 110 provides the occurrence information of the disaster situation and the base station information to the switching server 130. The NMS server 110 manages information of various network elements (NEs) constituting the network. Of course, various network equipments constituting the base station apparatus are managed by the NMS server 110.

The switching server 130 corresponds to the device of the present invention. The switching server 130 receives the occurrence information of the disaster situation from the NMS server 110, determines whether to switch to the multicast method according to the disaster class of the received disaster situation, and switches to the determined multicast method Information is provided to the MCPTT server 150.

The MCPTT server 150 shares radio network resources and provides an MCPTT service to a subscriber mobile terminal using radio network resources allocated by sharing. In a normal situation other than a disaster situation, the MCPTT server 150 may prevent unnecessary waste of radio network resources by processing group communication of the MCPTT service in a unicast manner. Here, when a disaster occurs, the MCPTT server 140 receives multicast switching information from the switching server 140 and converts the unicast method to the multicast method to process group communication of the MCPTT service. Accordingly, the MCPTT server 140 can stably process group communication congested in a disaster area by providing additionally allocated radio resources for the switched multicast group communication.

FIG. 2 is a schematic configuration and processing flow diagram of the switching server 130 of FIG. 1.

The conversion server 130 according to an embodiment of the present invention includes a disaster receiving unit 231, a rating determining unit 232, a collection unit 233, a group confirmation unit 234, a resource management unit 235, and a determination unit 236 ) And providing unit 237.

The conversion server 130 is a computing device composed of a memory and a processor, and each of the components 231 to 237 may be loaded into a memory in the form of a program and executed through the processor. For example, each of the components 231 to 237 is produced as a program for determining a multicast switch when a disaster occurs, and then determines whether to switch to a multicasting method by loading a memory and executing a processor.

The disaster receiving unit 231 receives the occurrence information of the disaster situation from the NMS server 110. The disaster receiving unit 231 checks the location where the disaster has occurred from the received information, and queries at least one base station device including the identified location as cell coverage.

The rating determining unit 232 determines a disaster class according to the characteristics of the disaster, the extent of the derivation, and the extent of the damage, and determines the area of the MCPTT service corresponding to the determined disaster class.

For reference, in the case of a small-scale disaster with a relatively low disaster level, the area of the service is determined in units of 1 to 2 units, in the case of a medium-scale disaster, in the city / city units, and in the case of a large-scale disaster, in the province / national units.

The collection unit 233 collects MCPTT information corresponding to the disaster level determined by the rating determination unit 232 from the MCPTT server 150. Also, the collection unit 233 collects base station information from the base station apparatus and the NMS server 110 of the disaster area identified by the disaster reception unit 231.

Here, the collected MCPTT information includes the number of subscribers, the usage amount, and the electric field environment of the MCPTT service in the disaster area. In addition, the base station information includes a processing load and a traffic load of the base station device in the disaster area.

The group confirmation unit 234 determines whether a group is using the MCPTT service in the identified base station device in the disaster area, checks existing group information if there is a group, and creates a new group if there is no group, thereby creating an MCPTT service Prepare in advance for the offer.

The resource management unit 235 manages the maximum secured radio network resource information by pooling information of the radio network resource operating in the identified base station device in the disaster area.

The determination unit 236 determines whether to convert the existing unicast group communication to multicast group communication to cope with a disaster situation using the information collected by the collection unit 233.

Here, the determination unit 236 determines the switch to multicast group communication as the number of subscribers of the collected MCPTT information increases and the service amount increases, and the load of the collected base station information decreases. When each judgment item is comprehensively considered and exceeds a threshold, multicast conversion is judged.

The providing unit 237 instructs the MCPTT server 150 to operate the MCPTT service based on the multicast by providing the determined multicast conversion information.

Here, the provision unit 237 transmits the information of the allocable radio network resource secured through the pooling from the resource management unit 235 to the MCPTT server 150 at the command.

3 is a flowchart illustrating whether the switching server 130 of FIG. 1 determines whether to switch to multicast.

The switching server 130 considers the number of subscribers of the MCPTT service (S301). For example, if the number of RRC (Radio Resource Control) connected users and the number of RRC active users are large, the switch to multicast is determined.

The switching server 130 considers the load of the base station (S302). For example, the smaller the CPU load and the channel load of the base station (eNB), the more it is determined to switch to multicast.

The conversion server 130 considers the user usage of the MCPTT service (S303). For example, the larger the usage amount of the PRB (Physical Resource Block) and the resource load, the more it is determined to switch to multicast.

The conversion server 130 considers the electric field environment of the MCPTT service (S304). For example, the higher the signal quality, such as RSRP (Reference Signal Received Power) and SINR (signal-to-interference-plus-noise ratio), the better the conversion to multicast is determined.

Multicast switching requires more allocation of radio network resources than unicast. If the quality of service is limited by the mobile service side that provides additional wireless network resources allocated for multicast conversion, it is inefficient management of resources. Therefore, the current information of the mobile service and the PTT service should be determined through the above steps (S301 to 304) whether the switch to the multicast method is suitable in the current disaster situation.

4 is a schematic illustration of the MCPTT server 150 of FIG. 1 providing unicast and multicast services.

The switching server 110 converts a normal unicast method to a multicast method in case of a disaster, and transmits the switching information to the MCPTT server 150 to request a change in the communication method. The MCPTT server 150 brokers the call data of the MCPTT service between the switching server 110 and the service center 401. Normally, the MCPTT server 150 provides MCPTT group communication in a unicast manner through the service center 401. In the event of a disaster, the MCPTT server 150 provides MCPTT group communication in a multicast manner through the service center 401.

The service center 401 is a broadcast multicast service center (BM-SC) device and processes creation, modification, and deletion of the MBMS session of the mobile terminal 430 accessing for the MCPTT service. The service center 401 speaks with the corresponding gateways 411 and 421 according to the unicast / multicast switching command issued by the MCPTT server 150. That is, the service center 401 transmits the call data of the group call brokered through the MCPTT server 150 to the gateways 411 and 421 respectively corresponding to the unicast / multicast communication method.

In the case of the unicast method, the unicasting GW 411 device transmits data received from the base station device 412 to the service center 401 to communicate upward, and transmits data received from the service center 401 to the base station device ( 412) to communicate downward. Of course, the base station device 412 communicates unicast 1: 1 with the mobile terminal 430.

In the case of the multicast method, the multicasting GW device 421 is connected to the MME device 422 and the router 424. The multicasting GW 421 receives the request for the management of the service from the service center 401 and processes the request through the MME device 422. The MME device 422 receives the session management request from the multicasting GW 421 and processes the request through the MCE device 423. The MCE device 423 manages session information and radio network resources for the base station device 425. In addition, the multicasting GW device 421 mediates call data that is multicast between the service center 401 and the router 424. Of course, the base station device 425 is in multicast communication with the mobile terminal 430 in 1: N (N> = 2).

5 is a schematic illustration of resources allocated according to a multicast scheme switched by the switching server 130 of FIG. 1.

The switching server 130 shares 3G / 4G / 5G mobile service radio network resources for the provision of the MCPTT service. In the MCPTT service, when unicast communication is switched to multicast communication, allocation of more radio network resources is required.

The EPC 501 of the radio network resource is a core network equipment that provides mobile services to the mobile terminal 430. The eMBMS device 511 is a device that provides an MCPTT service to the mobile terminal 430. Here, radio network resources are shared between the mobile service of the EPC 501 and the MCPTT service of the eMBMS 511.

When the unicast-based MCPTT service is switched to the multicast-based MCPTT service due to a disaster, the switching server 130 may use the mobile service resource 503 of the EPC 501 as the PTT service resource 513 of the eMBMS 511. Request to be assigned. Of course, when the disaster situation is released, the allocated PTT service resource 513 is returned to the mobile service resource 603 for mobile service.

Although the present invention has been described by a limited number of embodiments and drawings, the present invention is not limited by this, and the technical idea of the present invention and the claims to be described below by those skilled in the art to which the present invention pertains Of course, various modifications and variations are possible within the scope of the scope.

100: system 110: NMS server
130: switching server 150: MCPTT server

Claims (20)

In a device that converts the Mission Critical Push To Talk (MCPTT) service to multicast in a disaster situation,
A collection unit that collects MCPTT information and base station information of the region where the disaster occurs;
A determination unit for determining conversion in the multicast method using the collected information; And
Providing unit that provides the conversion information to the determined multicast method
Device comprising a. According to claim 1,
And receiving the occurrence information of the disaster situation, confirming the location of the occurrence area, and further comprising a disaster reception unit for confirming the base station at the identified location. According to claim 1,
And a rating determining unit for determining the area of the disaster class and the MPCTT service corresponding to the received occurrence information of the disaster situation. According to claim 1,
The collection unit,
Device for receiving the MCPTT information including the number of subscribers, usage and electric environment of the MCPTT from the MCPTT server. According to claim 1,
The collection unit,
Device for collecting the base station information including the load of the processing and traffic of the base station device in the disaster area from the NMS (Network Management System) server. According to claim 1,
The apparatus further comprises a group identification unit for identifying an existing group being used in an MCPTT service in a disaster area or creating a new group. According to claim 1,
And a resource management unit receiving and managing pooling information of allocable radio resources from the base station apparatus in the disaster area. According to claim 1,
The determination unit,
The apparatus characterized in that, as the service amount of the collected MCPTT information increases and the base station load of the collected base station information decreases, the multicast method determines the switching. According to claim 1,
The providing unit,
A device characterized in that it further provides radio resource information identified as being assignable through pooling from a base station device. According to claim 1,
The providing unit,
And transmitting information requesting a switch to the multicasting method to an MCPTT server. In the method of converting the MCPTT (Mission Critical Push To Talk) service to a multicast in a disaster situation,
Collecting MCPTT information and base station information of the region where the disaster occurred;
Determining a conversion by the multicast method using the collected information; And
Providing the conversion information to the determined multicast method
How to include. The method of claim 11,
Prior to the collecting step,
And receiving the occurrence information of the disaster situation, confirming the location of the occurrence region, and confirming the base station of the identified location. The method of claim 11,
Prior to the collecting step,
And determining an area of the disaster class and MPCTT service corresponding to the received occurrence information of the disaster situation. The method of claim 11,
The collecting step,
And receiving the MCPTT information including the number of subscribers, usage amount, and electric field environment of the MCPTT from the MCPTT server. The method of claim 11,
The collecting step,
Method for collecting the base station information including the load of the processing and traffic of the base station device in the disaster area from the NMS (Network Management System) server. The method of claim 11,
After the collecting step,
The method further comprises the step of identifying an existing group being used in the MCPTT service of the disaster area or creating a new group. The method of claim 11,
After the collecting step,
And receiving and managing pooling information of allocable radio resources from the base station apparatus in the disaster area. The method of claim 11,
The determining step,
The method of the method, characterized in that as the service amount of the collected MCPTT information increases and the base station load of the collected base station information decreases, switching to the multicast method is performed. The method of claim 11,
The providing step,
And providing radio resource information determined to be allocable through pooling from the base station apparatus. The method of claim 11,
The providing step,
Method for transmitting to the MCPTT server requesting the conversion in the multicasting method.

Images