KR20140073075A - Discovery method for device to device communication in cellular networks - Google Patents

Abstract

Disclosed is a mobile terminals discovery method for device-to-device communication in a mobile communication network. The mobile terminals discovery method for device-to-device communication comprises the steps of: transmitting, by a first mobile terminal, information on the first mobile terminal to a server for managing relations between mobile terminals; receiving information on a terminal, which is verified to be proximate to the first mobile terminal based on the information on the first terminal, from the server; measuring terminals being proximate to the first mobile terminal and transmitting discovery information for device-to-device communication and transmitting information on the terminals to a base station; receiving information on wireless resources allocated based on the information on the proximate terminals from the base station; and discovering a second terminal, which will perform device-to-device communication from among the verified terminals, by using the allocated wireless resources based on the information on the verified terminals.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for discovering a mobile terminal for direct communication between devices in a mobile communication system,

Embodiments of the present invention relate to a method for discovering a mobile terminal for direct communication between devices in a mobile communication system.

2. Description of the Related Art Recently, mobile terminals such as smart phones, smart pads, tablets, and the like are rapidly spreading. Therefore, the amount of wireless data used in a mobile communication system is greatly increasing. In order to process the traffic of the mobile communication network, a wireless transmission rate is improved and efficient use of radio resources using a small cell such as a femtocell is applied to a macro cell.

However, such small cells have a structure to be connected to the mobile communication core network. Therefore, the processing cost of the mobile core network is greatly increased due to the rapidly increasing mobile communication traffic, and the cost for managing a number of small cells in the mobile core network is also increasing. Therefore, research on wireless backhaul to reduce the maintenance cost of small cells has been made, but there is a problem of high-speed packet transmission due to the characteristics of wireless backhaul.

On the other hand, one of characteristics of mobile communication traffic due to the appearance of services such as social networks is that the users' gathering has locality such as school friend or company peer relationship. The mobile communication traffic having such local characteristics is transmitted via the gateway of the mobile core network due to the characteristics of the mobile communication, and such traffic causes a heavy load on the transmission network between the mobile core network and the base station.

Therefore, recently, a technology for direct communication between devices has been researched as one of solutions for solving load on traffic of a mobile core network. As one of such technologies for direct communication between devices, Korean Patent Laid-Open Publication No. 10-2012-0100833 (published September 12, 2012) entitled " It is disclosed that a first terminal directly communicates with a second terminal using a common direct communication resource having a fixed size and location assigned in common.

On the other hand, research on a mobile terminal for direct communication between mobile terminals in the mobile communication network is also under way. A discovery method for a mobile terminal is a method for discovering mobile terminals so that they can communicate by a direct communication method between devices.

Accordingly, there is a need for a method for more effectively discovering a mobiles terminal so that the mobile terminals communicate with each other in a direct communication manner when the mobiles communicating with each other in the mobile communication network are close to each other.

A mobile terminal discovery method for direct communication between devices in a mobile communication system capable of providing a limited discovery method for discovering a specific mobile terminal such as a friend registered as a friend and an open discovery method for discovering a publicized mobile terminal / RTI >

There is provided a mobile terminal discovery method for direct communication between devices in a mobile communication system capable of providing an advertisement service or the like in a direct communication method between devices.

There is provided a mobile terminal discovery method for direct communication between devices in a mobile communication system capable of reducing a battery consumed when a mobile terminal is discovered to communicate with a direct communication method between devices.

A method for discovering a mobile terminal for direct communication between devices includes the steps of: a first mobile terminal transmitting information about the first mobile terminal to a server managing a relationship of mobile terminals; Receiving information on a terminal that is determined to be close to the first mobile terminal based on the information, measuring terminals close to the first mobile terminal transmitting discovery information for direct communication between the devices, Receiving information on radio resources allocated based on the information about the nearby terminals from the base station, and transmitting the allocated radio resources to the base station based on the information about the identified terminals, A step of discovering a second mobile terminal to communicate by a direct communication method among the devices among the terminals identified using the method .

According to one aspect of the present invention, the information about the first mobile terminal includes at least one of a service identifier for distinguishing a subscriber of the first mobile terminal and a found identifier for discovering the first mobile terminal, And an identifier of an application program for direct communication between devices.

According to another aspect, a terminal identified as being close to the first mobile terminal may be the same cell as the first mobile terminal or a terminal existing in a neighbor cell.

According to another aspect of the present invention, the information about the terminals adjacent to the first mobile terminal can be measured by examining a radio resource band designated by the base station.

According to another aspect of the present invention, the discovering step may include a step of discovering the second mobile terminal by checking the degree of proximity of the user of the first mobile terminal, .

According to another aspect of the present invention, the method may further include examining a radio resource band designated by the base station, examining a found identifier of the terminal, and displaying a list of the found found identifiers.

It is possible to provide a limited discovery method for discovering a specific mobile terminal such as a mobile terminal registered as a friend and an open discovery method for discovering a publicly accessible mobile terminal.

The traffic load of the mobile communication network can be reduced through the direct communication between the mobile terminals, and the advertisement service can be provided using the open discovery method.

When the mobile terminal requests direct communication, it can reduce battery consumption of the mobile terminal by performing a discovery procedure for the mobile terminal.

1 is a diagram illustrating a structure of nodes performing a discovery method for direct communication between devices in a mobile communication network according to an embodiment of the present invention.
FIG. 2 is a flowchart illustrating a process of establishing a friend relationship between a mobile terminal and an application server in a limited mobile terminal discovery process according to an exemplary embodiment of the present invention.
3 is a flowchart illustrating a process of establishing a friend relationship with a mobile terminal in cooperation with a discovery server in a limited mobile terminal discovery process according to an exemplary embodiment of the present invention.
FIG. 4 is a flowchart illustrating a process in which a mobile terminal requests discovery of a counterpart terminal in a process for discovering a restricted mobile terminal, according to an embodiment of the present invention.
5 is a flowchart illustrating a process for discovering an open mobile terminal in an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a structure of nodes performing a discovery method for direct communication between devices in a mobile communication network according to an embodiment of the present invention. Hereinafter, nodes constituting a packet path in the network structure of 3GPP LTE (Third Generation Partnership Project Long Term Evolution) will be described as an example.

The 3GPP LTE network includes mobile terminals 101 and 101 ', an evolved Node B (eNB ) 102 serving as a base station, an SGW (Serving Gateway) 103 serving as an anchor function for handover with base stations, A PGW (PDN Gateway) 104 that performs an anchor function of a handover with the 3GPP network, and an MME (Mobility Management Entity) 105 that manages the state of the mobile terminal.

The discovery server 106 is a new node for managing the relationship between mobile terminals in the network structure of 3GPP LTE and provides a discovery ID to the mobile terminals 101 and 101 ' Can be assigned. Here, the discovery identifier is a unique number that the mobile terminal 101 or 101 'periodically transmits to inform its existence, and is a unique identifier that can distinguish the mobile terminal. In addition, the discovery server 106 may check the validity of the application programs installed in the mobile terminals 101 and 101 '.

The discovery server 106 and the MME 105 may exchange control messages for discovering the mobile terminal and the discovery server 106 may communicate directly with the MME 105 or between the SGW 103 and the PWG 104 ) To exchange control messages. Meanwhile, the discovery server 106 can directly communicate with the mobile terminals 101 and 101 'through a data traffic channel.

Hereinafter, methods for establishing a friend relationship between mobile terminals in the limited mobile terminal discovery will be described with reference to FIGS. 2 and 3. FIG.

FIG. 2 is a flowchart illustrating a process of establishing a friend relationship between a mobile terminal and an application server in a limited mobile terminal discovery process according to an exemplary embodiment of the present invention. For example, if the user of the first mobile terminal UE1 requests the user of the second mobile terminal UE2 to register for a friend for direct communication between the devices (201) using a specific application program, Transmits a D2D Registration Request message (D2D Registration Request) including its own mobile terminal identifier (UE_ID1) and a counterpart mobile terminal (second mobile terminal) identifier UE_ID2 to the application server via the traffic channel 202). Here, the mobile terminal identifier is an identifier for distinguishing mobile terminals such as MSISDN (Mobile Station Integrated System Digital Network) and IMSI (International Mobile Subscriber Identity).

Upon receipt of the D2D registration request message, the application server notifies the second mobile terminal through the Invite Request (203) that the first mobile terminal has made a friend request for direct communication between devices.

If the second mobile terminal accepts the invitation request message (204), the second mobile terminal forwards the response (Invite Response) to the application server (205).

The application server receiving the response to the invitation request transmits a pairing request message (DiscoveryPairReq) for the two mobile terminals to the discovery server (D2D Server) (206).

Having received the pairing request message, the discovery server allocates a service identifier and a discovery identifier to each mobile terminal (207), and transmits the assigned service identifiers to an application server through a pairing response message (DiscoveryPairRes) (208). Here, the service ID (Service ID) is an identifier for distinguishing a mobile subscriber from an application program of the mobile terminal, and the Discovery ID is an identifier for discovering the mobile terminal.

The application server receiving the pairing response message can transmit service identifiers for the mobile terminals to the first mobile terminal and the second mobile terminal through the friend registration response message (D2D Registration Response) (209, 210).

3 is a flowchart illustrating a process of establishing a friend relationship with a mobile terminal in cooperation with a discovery server in a limited mobile terminal discovery process according to an exemplary embodiment of the present invention.

When the first mobile terminal and the second mobile terminal are subscribed to the direct communication service between the devices, the first mobile terminal requests to register a friend for direct communication between the second mobile terminal and the device as shown in FIG. 3 A Discovery Registration Request message including information on the first mobile terminal, information on the second mobile terminal, and information on the identifier of the application program may be transmitted to the discovery server (301).

Upon receiving the discovery registration request message, the discovery server, in response to the information of the first mobile station, the information of the second mobile station, and the identifier of the application program, (302). ≪ / RTI > Then, the discovery server notifies 303 that the first mobile terminal has made a friend request for direct communication between devices by transmitting an Invite Request to the second mobile terminal.

When the second mobile terminal that has received the invitation request message permits direct communication between the first mobile terminal and the first mobile terminal (304), the second mobile terminal transmits an invite response (Invite response) to the discovery server (305).

Having received the response to the invitation request, the discovery server transmits the discover identifiers of the mobile terminals to the first mobile terminal and the second mobile terminal (306, 307).

FIG. 4 is a flowchart illustrating a process in which a mobile terminal requests discovery of a counterpart terminal in a process for discovering a restricted mobile terminal, according to an embodiment of the present invention.

When an application program capable of performing direct communication between devices is activated in the first mobile terminal, the application program of the first mobile terminal transmits the D2D discovery request message including the service identifier of the first mobile terminal or the identifier of the application program, (D2D Discovery Request) to the MME (401). Here, the D2D discovery request message may be a NAS (Non-Access Stratum) message.

Upon receipt of the D2D discovery request message, the MME transmits the service identifier or the discovery identifier of the first mobile terminal and the application program identifier to the discovery server through a discovery request message (402). The discovery server searches the friend relationship of the application program of the first mobile terminal and confirms the proximity between the first mobile terminal and the mobile terminal of the user registered as a friend in the application program of the first mobile terminal (step 403) . For example, the discovery server can check whether a mobile terminal of a user registered as a friend is present in the same cell or neighboring cell as the first mobile terminal. At this time, the discovery server may transmit the application program of the first mobile terminal and the first mobile terminal to a friend through a method of using a location server or a Global Positioning System (GPS), a method of acquiring a cell identifier by activating the mobile terminal, It is possible to confirm the proximity between the terminals registered by the users.

If the mobile terminals are found in the first degree of proximity, the discovery server returns (404) a list of the discovered identifiers of the mobile terminals to the MME through a Discovery Response message, and the MME transmits the information To the first mobile terminal (405). Through this process, the first mobile terminal can know the mobile terminals that are close to the first mobile terminal.

Then, according to the start command of the user, the first mobile terminal transmits to the base station a discovery service request message for the mobile terminal requesting proximity confirmation from among the mobile terminals having proximity possibility, Secondary proximity checks may be performed (406). However, if the application program of the first mobile station is an application program that does not perform the process of transmitting the detection service request message to the base station, the MME may directly transmit the detection service request message to the base station And perform a radio resource allocation process for discovering a mobile station as shown in (a) of FIG.

When the first degree of proximity check is completed, the MME performs a request (DiscoveryConfigReq) to allocate radio resources for discovery to the base station (407). The base station receiving the request for allocation of the discovery radio resource from the MME instructs the first mobile terminal to request a measurement for discovering neighboring mobile terminals transmitting discovery information for direct communication between the devices (408).

The first mobile terminal transmits a response to the measurement request to the base station (409), and measures (410) neighboring mobile terminals transmitting discovery information for direct communication between the devices in the radio resource band designated by the base station. If the mobile terminals transmitting the discovery information are measured, the first mobile terminal transmits the list to the base station (411).

The base station allocates discovery radio resources available to the first mobile terminal among the Physical Discovery CHannel (PDCH) resources using information on the mobile terminals transmitting the discovery information received from the first mobile terminal, And transmits the information to the first mobile terminal through a discovery radio resource setting message (RRC Conn. Reconf.) (412). Meanwhile, when the base station receives the response to the discovery radio resource setting from the first mobile station (413), it transmits it to the MME (414).

The first mobile station, which has received the discovery radio resource from the base station, transmits its discovery identifier using the allocated discovery radio resource (415). Meanwhile, the first mobile terminal examines a discovery radio resource band designated by the base station while transmitting its discovery identifier, and searches for a discovery identifier for friends (416), and the list of discovered discovery identifiers is transmitted to the first mobile terminal (417). ≪ / RTI >

The base station examines the state of the mobile stations belonging to the found identifier and performs a process (a) of allocating the found radio resources to the mobile stations that are not allocated the current found radio resource (418). In this process, each mobile terminal can inquire the user about permission to perform the discovery procedure.

5 is a flowchart illustrating a process for discovering an open mobile terminal in an embodiment of the present invention. Hereinafter, a case where the first mobile terminal desires to provide an advertisement service in a direct communication method between devices will be described as an example.

The first mobile terminal may perform a service registration request (D2D service Registration Request) including a service name and service information to a discovery server in order to register an advertisement service of a direct communication method between devices (501).

Upon receiving the service registration request message, the discovery server performs authentication for the first mobile terminal (502), allocates the discovered identifier, and transmits it to the first mobile terminal (503).

When the first mobile terminal determines to provide the advertisement service, the first mobile terminal transmits the search identifier allocated from the first discovery server to the MME (504). At this time, the MME can perform authentication for the corresponding advertisement service in cooperation with the disparity server when necessary.

Then, the first mobile station can acquire the radio resources for the open discovery through the radio resource allocation process for discovery of the mobile station as shown in FIG. 5 (a).

In detail, the MME performs a request (DiscoveryConfigReq) to allocate radio resources for discovery to the base station (505). The base station receiving the request for allocating the discovery radio resource from the MME instructs the first mobile terminal to request a measurement for discovering neighboring mobile terminals transmitting discovery information for direct communication between the first mobile terminal (506).

The first mobile terminal transmits a response to the measurement request to the base station (507), and measures (508) neighboring mobile terminals transmitting discovery information for direct communication between the devices. When the mobile terminals transmitting the discovery information are measured, the first mobile terminal transmits the list to the base station (509).

The base station allocates discovery radio resources available to the first mobile terminal using the information about the mobile terminals transmitting the discovery information received from the first mobile terminal, and transmits information about the discovery radio resources to the discovery radio resource setting message (RRC Conn. Reconf.) To the first mobile terminal (510). In addition, if the base station receives a response to the discovery radio resource setting from the first mobile terminal (511), it transmits it to the MME (512).

In step 513, the first mobile station having allocated the radio resource for the open discovery from the base station may transmit its discovering identifier using the allocated discovery radio resource.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the equivalents of the claims, as well as the claims.

101, 101 ': mobile terminal
102: eNB
103: SGW
104: PGW
105: MME
106: Discovery Server

Claims (1)

A method for discovering a mobile terminal for direct communication between devices,
The first mobile terminal transmitting information about the first mobile terminal to a server managing the relationship of the mobile terminals;
Receiving from the server information on a terminal identified as being close to the first mobile terminal based on information about the first mobile terminal;
Measuring information on terminals located close to the first mobile terminal that transmit discovery information for direct communication between devices, and transmitting information about the nearby terminals to the base station;
Receiving information on radio resources allocated based on information on the nearby terminals from the base station; And
Discovering a second mobile terminal to communicate with the determined one of the terminals using the direct communication method among the identified terminals using the allocated radio resource based on the information about the identified terminal
The method comprising the steps of:

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