JP2016012842A - Communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication system which can improve the use efficiency of a LTE communication resource.SOLUTION: A communication system 10 includes: a plurality of UE 20 which can radio communicate by LTE communication and another communication method than the LTE communication; and eNodeB 100 communicable with the plurality of UE 20. The eNodeB 100 includes an eNodeB control unit 102 and UE information table 108 in which the QoS of each UE 20 is stored. The eNodeB control unit 102, by referring to the UE information table 108, transmits a clustering command to each UE 20 having the QoS thereof lower than and including a threshold Qth related to a predetermined QoS. On receiving the clustering command, the UE 20 forms a mesh class. Communication between each UE 20 having the formed mesh class is performed by a communication method other than the LTE communication.

Description

  The present invention relates to a communication system including a UE (User Equipment) capable of performing wireless communication by LTE communication and a communication method other than the LTE communication, and an eNodeB (evolved Node B).

  LTE (Long Term Evolution-Advanced), which is a mobile communication system standardized by 3GPP (Third Generation Partnership Project), which is an international standardization organization for mobile communication, is operated.

  Patent Document 1 discloses a communication technique using a dual terminal capable of performing voice communication and data communication using a terminal having a communication function based on LTE and a communication function based on a 3G mobile network.

JP 2013-255104 A

  However, in Patent Document 1, when each dual terminal performs data communication, if there are many dual terminals, the resources of LTE communication are compressed. Further, Patent Document 1 does not consider improvement of resource utilization efficiency of LTE communication using a communication function by a dual terminal 3G mobile network.

  The present invention has been made in consideration of the above-described problems, and an object of the present invention is to provide a communication system capable of improving the utilization efficiency of LTE communication resources.

  A communication system according to the present invention is a communication system including LTE communication and a plurality of UEs (User Equipment) capable of wireless communication by a communication method other than the LTE communication (evolved Node B), The eNodeB has an eNodeB control unit and a UE information table in which the QoS of each UE is stored. The eNodeB control unit refers to the UE information table, and the QoS of the UE is a threshold value related to a predetermined QoS. The UE that transmits a clustering command to the following UE and receives the clustering command forms a mesh class, and the UEs with the mesh class are communicated by a communication method other than the LTE communication. It is characterized by that.

  In the communication system, a resource for LTE communication is stored in the UE information table, and the eNodeB control unit refers to the UE information table, and the resource of the UE is equal to or less than a threshold related to a predetermined resource. The UE that releases the resource is transmitted to the UE in which the mesh class is formed, and the UE that receives the release of the resource releases the resource.

  In the communication system, when the eNodeB control unit selects a gateway UE from the UE in which the mesh class is formed and receives a packet addressed to the UE in which the mesh class is formed, the eNodeB control unit transmits the packet to the gateway UE. Send.

  According to the communication system of the present invention, based on the QoS of the UE, a mesh class is formed between UEs capable of performing wireless communication by a communication method other than LTE communication and LTE communication. By using a communication method other than LTE communication between UEs in which a mesh class is formed, it is possible to improve utilization efficiency of resources of LTE communication.

  Further, in the communication system, the utilization efficiency of LTE communication resources can be further increased by releasing the LTE communication resources of UEs having a threshold fth or less among the UEs in which the mesh class is formed.

  Further, in the communication system, by selecting the gateway UE from the UEs with the mesh class formed, it is possible to appropriately perform communication with UEs other than the UE with the mesh class formed.

It is explanatory drawing of the communication system which concerns on embodiment of this invention. It is explanatory drawing of UE. FIG. 3A is an explanatory diagram of an eNodeB, and FIG. 3B is an explanatory diagram of a UE information table. It is explanatory drawing about the process sequence of a communication system.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is an explanatory diagram of a communication system 10 according to an embodiment of the present invention. 2 is an explanatory diagram of the UE 20, FIG. 3A is an explanatory diagram of the eNodeB 100, and FIG. 3B is an explanatory diagram of the UE information table 108.

<Description of Configuration of Communication System 10>
The digital communication system 10 includes UEs 20a to 20h and an eNodeB (evolved Node B) 100.

  The UEs 20a to 20h (hereinafter referred to as “UE20” as appropriate) are wireless terminals capable of performing communication by LTE communication and wireless LAN. The UE 20 includes a UE control unit 22, an LTE communication unit 24, a radio communication unit 26, and a storage unit 28. The UE control unit 22 is a control unit that performs communication control with the eNodeB 100 and control related to a cluster with another UE 20. The LTE communication unit 24 is a communication unit having a function of performing LTE communication. Here, LTE communication is a communication method based on a communication standard defined by 3GPP (Third Generation Partnership Project) which is a standard organization. The wireless communication unit 26 is a communication unit that performs wireless communication. The communication system of the wireless communication unit 26 is a communication standard defined by IEEE 802.11 or 802.15 task group. In addition, in the case of a so-called wireless LAN communication system of IEEE802.11, an inter-terminal communication system in an ad hoc mode is used. The storage unit 28 includes a routing table 30. The routing table 30 is a table in which routing information regarding a packet transfer destination is stored.

  The eNodeB 100 includes an eNodeB control unit 102, a communication unit 104, and a storage unit 106. The eNodeB 100 is a base station. The eNodeB control unit 102 is a control unit that performs control for communication with the UE 20, control regarding cluster formation by the UE 20, and control regarding resources for LTE communication of the UE 20. Further, in the eNodeB control unit 102, Qth is set as a threshold for a communication band reserved as QoS (Quality of Service). Further, fth is set as a threshold for the resource for UE 20 to perform LTE communication.

  The communication unit 104 performs communication processing with the UE 20. The storage unit 106 includes a UE information table 108 and a routing table 110.

  The UE information table 108 stores a communication band reserved as QoS for each of the UEs 20a to 20h and resources used for LTE communication. In the table 108, for example, “a” is stored as the UE name, “Qa” is stored as the QoS communication band, and “fa” is stored as the LTE communication resource for the UE 20a. Similarly, for UEs 20b to 20h, b to h are stored as UE names, Qb to Qh are stored as QoS, and fb to fh are stored as resources. Here, the QoS threshold Qth and the QoS communication band of the UEs 20a to 20d have a relationship of Qth> Qa> Qb> Qc> Qd. Further, the QoS threshold Qth and the QoS communication band of the UEs 20e to 20h have a relationship of Qe> Qf> Qg> Qh> Qth.

  The routing table 110 is a table in which routing information related to a packet transfer destination is stored.

<Description of Operation of Communication System 10>
An operation of the communication system 10 will be described. FIG. 4 is an explanatory diagram of the processing procedure of the communication system 10.

  In the communication system 10, the eNodeB control unit 102 of the eNodeB 100 monitors the QoS communication band and the LTE communication resource of the UE 20, and the QoS communication band and the LTE communication resource are stored in the UE information table 108 for each UE 20.

  The eNodeB control unit 102 compares the QoS communication band for each UE 20 with the threshold Qth, and extracts the UE 20 whose QoS communication band is lower than the threshold Qth (step S1). The UEs 20a to 20d are extracted as the UE 20 whose QoS band is lower than the threshold value Qth.

  The eNodeB control unit 102 transmits a clustering command for forming a cluster to the UEs 20a to 20d (step S2).

  Each UE control unit 22 of the UEs 20 a to 20 d receives the clustering command via the LTE communication unit 24. A mesh class is formed between the UEs 20a to 20d based on the clustering algorithm (step S3). The UEs 20a to 20d in which the mesh class is formed communicate with each other via the wireless communication units 26.

  The eNodeB control unit 102 selects a gateway UE from the UEs 20a to 20d in which the clusters are formed (Step S4). As the gateway UE, the UE having the highest QoS communication band is selected from the UEs 20 in which the cluster is formed. Among the UEs 20a to 20d, the UE 20a is selected as the gateway UE because the QoS communication band of the UE 20a is the highest.

  The eNodeB control unit 102 compares the total value of the LTE communication resources of the UEs 20a to 20d with the threshold value fth (step S5). The eNodeB control unit 102 selects the UE 20 so that the total value of LTE communication resources is equal to or less than the threshold value fth. The UE 20 is selected from the UE 20 whose QoS band is low, and the eNodeB control unit 102 removes the LTE communication resource in order from the UE 20 having the lowest QoS band from the total value of the LTE communication resource, and falls below the threshold fth. UE20 is selected until. Here, it is assumed that the UE 20d is selected by the eNodeB control unit 102. Specifically, the eNodeB control unit 102 repeats in order from the UE 20 with the lowest QoS communication band until the LTE communication resource of the UE 20 is excluded from the total value of the LTE communication resource, and is below the threshold fth. When the eNodeB control unit 102 becomes equal to or less than the threshold fth, the eNodeB control unit 102 selects the UE 20 from which the LTE communication resource is removed as the UE whose resource should be released. Here, it is assumed that the UE 20d is selected by the eNodeB control unit 102 as a UE whose resources should be released.

  The eNodeB control unit 102 transmits information to release resources to the UE 20d (step S5).

  The UE control unit 22 of the UE 20d receives the fact that the resource is released via the LTE communication unit 24, and releases the LTE communication resource (step S6).

  The UE 20a transmits the routing information of the routing table 30 to the eNodeB 100 via the LTE communication unit 24 (step S7). The eNodeB control unit 102 receives the routing information via the communication unit 104, adds the routing information to the routing table 110, and updates the routing information.

  Here, the routing table 30 of the UE 20a stores routing information related to the UEs 20b to 20d as packet transfer destinations. Based on the routing information regarding the UEs 20b to 20d, the eNodeB control unit 102 edits the routing table 110 so as to transmit the packet to the UE 20a that is the gateway UE when the packets addressed to the UEs 20b to 20d are transmitted.

  When the eNodeB control unit 102 receives a packet from the UE 20, the eNodeB control unit 102 determines a transmission destination of the packet based on the routing table 110, and transmits the packet (step S8). Here, when a packet addressed to the UE 20d is transmitted to the eNodeB 100 from a UE other than the UEs 20a to 20d in which the cluster is formed, the eNodeB control unit 102 refers to the routing table 110 and transmits the packet to the UE 20a. It becomes.

  The UE 20a receives the packet via the LTE communication unit 24. The UE control unit 22 refers to the routing table 30 and transmits a packet to the UE 20d via the wireless communication unit 26.

  The communication system 10 is a communication system including an eNodeB 100 capable of communicating with a plurality of UEs 20 capable of performing wireless communication by a communication method other than LTE communication and the LTE communication. The eNodeB 100 includes an eNodeB control unit 102 and each of the UEs 20. The eNodeB control unit 102 refers to the UE information table 108, and refers to the UE information table 108. The eNodeB control unit 102 sends a clustering command to the UE 20 whose QoS is less than or equal to a threshold Qth related to a predetermined QoS. The UE 20 that has received the clustering command forms a mesh class, and the UE 20 in which the mesh class is formed is communicated by a communication method other than the LTE communication.

  In the communication system 10, based on the QoS of the UE 20, a mesh class is formed between the UEs 20 that can perform wireless communication using a communication method other than LTE communication and LTE communication. By using a communication method other than LTE communication between the UEs 20 in which the mesh class is formed, it is possible to improve the use efficiency of resources of LTE communication.

  In addition, the UE information table 108 stores resources for LTE communication, and the eNodeB control unit 102 refers to the UE information table 108, and the mesh class in which the resource of the UE 20 is less than or equal to a threshold fth related to a predetermined resource is stored. The UE 20 that transmits the resource release information to the formed UE and that receives the resource release information releases the resource.

  In the communication system 10, the utilization efficiency of the LTE communication resource can be further increased by releasing the LTE communication resource of the UE 20 that is equal to or less than the threshold fth in the UE 20 in which the mesh class is formed.

  Further, the eNodeB control unit 102 selects a gateway UE from the UE 20 in which the mesh class is formed, and transmits the packet to the gateway UE when a packet addressed to the UE 20 in which the mesh class is formed is received. .

  In the communication system 10, by selecting the gateway UE from the UE 20 in which the mesh class is formed, communication with UEs other than the UE 20 in which the mesh class is formed can be appropriately performed.

  It should be noted that the present invention is not limited to the above-described embodiment, and various configurations can be adopted without departing from the gist of the present invention.

  In the above embodiment, the eNodeB control unit 102 is selected as a gateway terminal based on the QoS communication band, but is not limited thereto. For example, the eNodeB control unit 102 may select a gateway terminal based on a physical distance from the UE 20.

10. Communication system 20a-20h ... UE
22 ... UE control unit 24 ... LTE communication unit 26 ... wireless communication unit 28, 106 ... storage unit 30, 110 ... routing table 100 ... eNodeB
102 ... eNodeB control unit 104 ... communication unit 108 ... UE information table

Claims (3)

A communication system including LTE communication and eNodeB (evolved Node B) capable of communicating with a plurality of UEs (User Equipment) capable of wireless communication by a communication method other than the LTE communication,
The eNodeB has an eNodeB control unit and a UE information table in which QoS of each UE is stored,
The eNodeB control unit refers to the UE information table, and transmits a clustering instruction to the UE whose QoS of the UE is equal to or lower than a threshold regarding a predetermined QoS,
The UE that has received the clustering command forms a mesh class, and the UEs having the mesh class are communicated by a communication method other than the LTE communication. The communication system according to claim 1, wherein
The UE information table stores resources for LTE communication,
The eNodeB control unit refers to the UE information table, and transmits information indicating that the resource of the UE is to be released to the UE in which the mesh class having a threshold equal to or lower than a predetermined resource is formed,
The UE that has received a message to release the resource releases the resource. The communication system according to claim 1 or 2,
The eNodeB control unit
A gateway UE is selected from the UEs in which the mesh class is formed;
When the packet addressed to the UE in which the mesh class is formed is received, the packet is transmitted to the gateway UE.

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