KR101640597B1 - Method for handover across multiple device in heterogeneous networks and system therefor - Google Patents

Abstract

The present invention relates to a method and system for performing handover between heterogeneous devices within a heterogeneous network. The method may further include, when a handover triggering event occurs in a serving device using a communication service through a first service access point (PoS) and a first data path, the serving device transmits, via the first PoS, Acquiring neighboring network information for at least one adjacent PoS; and, based on the neighboring network information, collecting a list of at least one device available from at least one neighbor PoS through the first PoS The method of claim 1, further comprising: if the serving device selects a suitable target device based on the list, setting a second data path for the communication service between the target device and a second PoS to which the target device belongs, Performing handover from the target device to the target device; And the serving device releasing the first data path. This makes it possible for the user to seamlessly use the same communication service through several different devices.

MEDIA INDEPENDENT HANDOVER, MIH, HETEROGENEOUS NETWORK

Description

[0001] METHOD FOR HANDOVER ACROSS MULTIPLE DEVICE IN HETEROGENEOUS NETWORKS AND SYSTEM THEREFOR [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system, and more particularly, to a method and system for performing handover between a plurality of heterogeneous devices in a heterogeneous network.

Media Independent Handover (MIH) is also called inter-network handover, and refers to a technique in which a mobile node can automatically and seamlessly select an optimal network while moving between networks of different characteristics. For example, interworking between 3GPP (Third Generation Partnership Project) network, WLAN (Wireless Local Area Network), WiMAX (Worldwide Interoperability for Microwave Access) network, FTTH (Fiber To The Home) MIH can be used.

A typical MIH technique is to provide seamless handover when a user's terminal moves between heterogeneous networks. Thus, the conventional MIH technology only considers a handover between heterogeneous networks using a plurality of MIH interfaces provided in one terminal.

As the communication technology develops, the user can connect to the communication network using various kinds of devices. Examples of devices that can be connected to the communication network include a cellular phone connected to a cellular network, a personal computer (PC), an Internet Protocol (IP) television (IPTV) connectable to the Internet, and a home appliance connected to the Internet.

Therefore, a need exists for a technique for handover of data paths between a plurality of heterogeneous devices that are in different locations and are connected to the homogeneous network or heterogeneous network.

SUMMARY OF THE INVENTION Accordingly, the present invention provides a method and system for handing over a data path between dissimilar devices that can be connected to a communication network.

The present invention provides a method and system for handing over a data path between a plurality of heterogeneous devices that are in different locations and are connected to a homogeneous network or heterogeneous network.

A preferred embodiment of the present invention is a method for handover between multiple devices in a mobile network,

When a handover triggering event occurs in a serving device using a communication service through a first service access point (PoS) and a first data path, the serving device transmits, to the at least one PoS adjacent from the information server via the first PoS Obtaining neighboring network information for the neighboring network;

Collecting a list of at least one device available from at least one neighboring PoS through the first PoS based on the neighbor network information;

If the serving device selects a suitable target device based on the list, the target device may be configured to establish a second data path for the communication service between the target device and a second PoS to which the target device belongs, Performing handover to the base station;

And a step of the serving device releasing the first data path when the handover is completed.

Another embodiment of the present invention is a system for performing handover between multiple devices in a mobile network,

A first service connection point (PoS)

If a handover triggering event occurs while using the communication service through the first PoS and the first data path, acquire neighboring network information for at least one PoS from the information server through the first PoS, Collecting a list of at least one available device from at least one neighboring PoS through the first PoS based on the neighbor network information, and selecting a suitable target device based on the list, the target device and the target device And performing a handover to the target device to establish a second data path for the communication service between the second PoS to which the first PoS belongs, and releasing the first data path when the handover is completed .

Effects obtained by representative ones of the inventions disclosed in the present invention will be briefly described as follows.

The present invention enables a data flow to be handed over between a plurality of devices by exchanging handover related information between disparate devices at different positions. For example, streaming services of devices through WiMAX can seamlessly be handed over to other devices belonging to homogeneous or heterogeneous networks (WLAN, cellular, FTTH, etc.), allowing users to share the same communication service through different devices It is possible to use without interruption.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, and these may vary depending on the intention of the user, the intention or custom of the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

The present invention described below provides seamless handover between heterogeneous devices belonging to a homogeneous or heterogeneous network.

Hereinafter, a communication system based on the Institute of Electrical and Electronics Engineers (IEEE) 802.21 standard will be used to describe the present invention in detail. However, the handover between heterogeneous devices, which is a basic object of the present invention, is applicable to other communication systems having a similar technical background and channel form, with a slight modification within the scope of the present invention, Will be possible at the discretion of the person skilled in the art.

1 is a block diagram illustrating heterogeneous networks to which heterogeneous devices can be connected according to a preferred embodiment of the present invention.

As shown, the devices 140 and 150 connect to service point of service (PoS) 120 and 130, respectively, using different access technologies. The connection technologies include, for example, 3GPP, WLAN, WiMAX, FTTH, satellite communication, and the like. The PoSs 120 and 130 are, for example, functions of including a node of a gateway concept defined in IEEE 802.21 and a wireless access point (RAP) below the node.

The PoSs 120 and 130 have MIH interfaces (I / Fs) 125 and 135 for providing MIH services to connected subordinate devices. The MIH interfaces 125 and 135 transmit the network status information and the like generated in the lower devices to a mobility management protocol (not shown), which is an upper layer, to allow the upper layer to optimize the performance according to mobility processing over IP . In addition, the upper layer supports the control of the lower devices. For example, the upper layer can change the network connection status of the lower devices, respond to the network characteristics and status information query, communicate with the MIH related information server 110 located at the remote location (Hereinafter referred to as neighboring network information) for neighboring heterogeneous networks. Here, the neighbor network information includes, for example, an identifier of a wireless access device and an IP router, a Media Access Control (MAC) address, an IP address, and network operator information.

The devices 140 and 150 include MIH interfaces 144 and 154 configured to operate in correspondence with the MIH interfaces 125 and 135, network interfaces 146 and 156 for supporting the connection technology, And MIH user entities 142 and 152 configured as upper layer applications for communicating with the user when necessary for the user. The user may own or use both of the devices 140 and 150, and additional devices not shown may be used.

One possible scenario of MIH between heterogeneous devices is as follows.

When the user comes down from the vehicle while using a communication service in a vehicle equipped with a communication module connectable to the Internet core network through WiMAX, the user connects to the Internet core network through a mobile phone connectable to a CDMA (Code Division Multiple Access) do. When entering the house, the user connects continuously to the Internet core network through a PC or notebook accessible to the WLAN. In this way, the user intends to use the Internet seamlessly while moving from the car to the outside or home, in which case the MIH is required between the heterogeneous network / heterogeneous devices.

Another scenario is that a user uses a VoD (Video of Demand) service via a Wibro (Wireless Broadband) mobile phone and then continuously uses the VoD service on a larger screen through a PC or IPTV connected by FTTH MIH is required between heterogeneous networks / heterogeneous devices.

When MIH is requested to a heterogeneous device using a homogeneous network or heterogeneous network as described above, the system supports secure handover, which confirms whether heterogeneous devices of heterogeneous networks are ready for use at present. In order to confirm whether the heterogeneous device is ready for use, it is considered whether the service that the previous device can use when performing the handover, whether another user has already occupied the heterogeneous device, and the like are considered.

FIG. 2 is a flowchart briefly illustrating a procedure for performing handover between multiple devices according to a preferred embodiment of the present invention. The following procedure is performed by the presently used serving device, and the serving device is ready to communicate with the information server and the serving network.

Referring to FIG. 2, in step 210, when the user moves to a place where a plurality of usable devices are prepared, or when the user predicts a behavior pattern of the user, it is determined that the data path is to be handed over to the remote device And monitors whether a handover triggering event has occurred. If it is determined that the handover triggering event has occurred, the serving device requests neighbor information about the neighboring network (s) from the information server through the currently connected serving PoS, To request the handover preparation to the serving PoS. At this time, the information server sends a preparation request to a plurality of heterogeneous PoSs connected to neighboring networks by using MIH communication, collects a usable device list indicating availability of each of devices belonging to neighboring networks, Reply. The usable device list is transmitted to the serving terminal so that the serving terminal can determine the target device.

In step 230, after the serving device determines the target device, it sends a handover request to the target PoS to the target device. If the data path is changed through a network entry and a binding update through the PoS inter-MIH communication, the serving device releases the existing data path to the serving PoS and terminates the handover in step 240. [

3 is a message flow diagram illustrating a multi-equipment handover procedure according to a preferred embodiment of the present invention. Here, three devices 304a, 304b, and 304c (collectively referred to as 304) and three PoSs 306a, 306b, and 306c (collectively referred to as 306 hereinafter) connected to them are shown, 1 304a and thus the device 1 304a is referred to as a serving device. Although not shown, each of the PoSs 306 may be further connected to one or more devices.

Referring to FIG. 3, in step 310, the first device 304a connects a PoS 1 306a with a data path, and a data flow is formed between them. If a handover triggering event is generated in step 312 by a location-based service (LBS), a mobility pattern prediction, a user-triggered action, or the like, HO preparation is performed through steps 314 to 328.

Specifically, in step 314, the device 1 requests neighboring network information from the information server 302 through the connected PoS 1 306a, and receives neighboring network information from the information server 302 in step 316. When the communicatable devices 304 connect to the PoS 306, the PoS provides the network 302 information about its network, including information about the connected device, to the information server 302. The information server 302 stores the network information provided from the PoSs 306 and provides the neighbor network information when there is a request from a device belonging to another network or a PoS. The neighbor network information may include address information of PoSs belonging to the heterogeneous network so that the first device 304a can use the neighbor network information.

In step 318a, the first device 304a transmits a HO preparation request message to the PoS 1 306a based on the neighbor network information. In step 318b, the PoS 1 306a transmits the HO preparation request message to PoS 2 306b and PoS 3 306c, which are nearby PoSes. In steps 320 and 322, the HO-capable PoSs 306b and 306c transmit the HO preparation request message to the devices 304b and 304c belonging to the network. The devices 304b and 304c that have received the HO preparation request message perform switching procedures from the idle state to the active state and load related programs as a preparation procedure required for the HO.

In step 324, the second device 304b normally transmits the HO-ready response message to the PoS 2 306b indicating that the device 2 304b is normally used and the second device 304b is normally available. In step 326, the HO- And includes information on the second device 304b and is transmitted from the PoS 2 306b to the PoS 1 306a. However, since the third device 304c has already been refined to another user and is busy or unable to communicate, it fails to respond to the PoS 3 306c with the HO preparation response message. Therefore, the PoS 1 306a does not obtain the HO preparation response message from the PoS 3 306c. The HO preparation completion response message transmitted from the PoS 1 306a to the first device 304a in step 328 includes a usable device list having only information on the PoS 2 308 without information on the PoS 3 406c have. On the other hand, if the device 1 304a does not receive the HO preparation completion response message within a predetermined time after transmitting the HO preparation request message in step 318a, it notifies the user that the handover has failed.

Then, in step 330, the first device 330 determines an appropriate target device based on the available device list, where the target device is selected as the second device 304b. When one or more devices are included in the usable device list, the device 1 330 selects a target device by a predetermined selection algorithm or a user's selection. If the target device is selected, the HO is performed in steps 332a to 342b. Specifically, in steps 332a and 332b, an HO Commit Request message from the first device 304a is transmitted to the PoS 2 306b to which the second device 304b serving as the target device belongs via the PoS 1 306a . The HO trust request message includes information for identifying a communication service being used by the user and additional information necessary for seamless handover, for example, a content identifier (ID) and a playback time in step 310 . Then, the PoS 2 306b transmits an HO trust request message to the second device 304b, and performs a network entry procedure and a binding update procedure with the second device 304b in step 336. [ The network entry procedure includes, for example, user and device authentication, mobile IP registration, and a change in the quality of service (QoS) level according to network characteristics. The binding update procedure includes, for example, updating of user information due to network entry. That is, the location information of the user is changed from the PoS 1 306a to the PoS 2 306b in the user information stored in the network, and the device information is changed from the first device 304a to the second device 304b.

When the network entry and binding update procedure is completed, the HO commissioning response message is transmitted from the second device 304b to the PoS 2 306b in step 338. In step 340, the PoS 2 306b communicates with the second device 304b In step 310, establishes a data path for the communication service used by the user and forms a data flow with each other. In addition, if necessary, the PoS 2 306b forms a data flow with the core network related to the communication service. When the data path for the user is connected between the device 2 304b and the PoS 2 306b in this manner, the device 1 304a is transferred from the PoS 2 306b to the PoS 1 306a at steps 342a and 342b, A response completion message is transmitted.

In step 344, the first device 304a recognizes that the handover to the second device 304b has been completed by the HO termination response completion message and releases the resource, that is, the data path that is being used with the PoS 1 306a . After the seamless handover from the first device 304a to the second device 304b is completed as described above, the user can use the communication service using the second device 304b.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, and equivalents thereof.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram illustrating heterogeneous networks to which heterogeneous devices can be connected according to a preferred embodiment of the present invention. FIG.

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

3 is a message flow diagram illustrating a multi-equipment handover procedure according to a preferred embodiment of the present invention.

Claims (10)

A method for handover between multiple devices in a mobile network, When a handover triggering event occurs in a serving device that is executing content received via a first service access point (PoS) and a first data path, the serving device transmits, via the first PoS, at least one PoS Acquiring neighboring network information for the neighboring network; Collecting a list of at least one device available from at least one neighboring PoS through the first PoS based on the neighbor network information; When the serving device selects a suitable target device on the basis of the list, the target device transmits a second data path for setting the second data path between the target device and the second PoS to which the target device belongs, Performing a handover to the device; When the handover is completed, the serving device releases the first data path, and the target device continuously executes the content to be executed in the serving device, Wherein the handover triggering event is generated by a user's mobility pattern prediction, The method of claim 1, Transmitting, by the serving equipment, a handover request message to the second PoS through the first PoS; The second PoS transmitting the handover request message to the target device and performing a network entry and binding update procedure with the target device; Transmitting a handover commit response message to the second PoS by the target device when the network entry and binding update procedure is completed; Establishing the second data path between the second PoS and the target device in response to the handover commissioning response message and notifying the serving device of the handover commit response message And transmitting, The handover request message includes: And a content identifier (ID) for identifying the content and a playback time information of the content to continuously execute the content in the target device. The method as claimed in claim 1, Transmitting, by the serving device, a request message for the neighbor network information to the information server through the first PoS; And transmitting the neighbor network information related to the first PoS previously stored by the information server to the serving device through the first PoS in response to the request message. . The method according to claim 1, Transmitting, by the serving device, a handover preparation request message to the first PoS based on the neighbor network information; Transmitting the handover preparation request message to the neighboring PoS by the first PoS; Transmitting, by the neighbor PoS, the handover preparation request message to at least one device belonging to the network; When the handover preparation response message is received from at least one device belonging to the network in response to the handover preparation request message, the neighbor PoS informs the first PoS of the handover preparation response message Transmitting a handover preparation response message including information on the handover preparation response message, The first PoS configuring the list in response to the handover preparation response message and transmitting a handover preparation completion response message including the list to the serving device, The handover preparation response message includes a case in which the content executed by the serving device corresponds to content executable in the device to which the handover preparation request message is delivered, The handover is performed in at least one of the following cases: delete delete A system for performing handover between multiple devices in a mobile network, A first service connection point (PoS) When a handover triggering event occurs while executing the content received through the first PoS and the first data path, acquires neighboring network information of at least one PoS adjacent from the information server through the first PoS, Collecting a list of at least one usable device from at least one neighboring PoS through the first PoS based on the neighbor network information and selecting a suitable target device based on the list, Performing a handover to the target device to set a second data path for executing the content between a first PoS to which the first PoS belongs and a second PoS to which the second PoS belongs, Lt; / RTI > The target device comprises: When the handover is completed, continuously executing the content executed in the serving device, Wherein the handover triggering event is generated by a user's mobility pattern prediction, The serving device, Transmits a handover request message for performing the handover to the second PoS through the first PoS, The second PoS delivers the handover request message to the target device, performs network entry and binding update procedures with the target device, Upon completion of the network entry and binding update procedure, the target device transmits a handover commit response message to the second PoS, If the second data path is established between the second PoS and the target device in response to the handover commit response message, the second PoS transmits a handover commit response message Lt; / RTI > The handover request message includes: A content identifier (ID) for identifying the content, and playback time information of the content to continuously execute the content on the target device. 7. The service providing system according to claim 6, Transmitting a request message for the neighbor network information to the information server through the first PoS, and transmitting, in response to the request message, the neighbor network information related to the first PoS previously stored by the information server, And a PoS. The method according to claim 6, The serving device transmits a handover preparation request message to the first PoS based on the neighbor network information, The first PoS transmits the handover preparation request message to at least one device belonging to the network of the adjacent PoS through the neighbor PoS, If a handover preparation response message is received from the at least one device in the neighbor PoS in response to the handover preparation request message, the neighbor PoS informs the first PoS of the information about the device on which the handover preparation request message is received And transmits a handover preparation response message including the handover preparation response message, The first PoS configures the list in response to the handover preparation response message, transmits a handover preparation completion response message including the list to the serving device, The handover preparation response message includes a case in which the content executed by the serving device corresponds to content executable in the device to which the handover preparation request message is delivered, The handover request message is received in at least one of the following cases. delete delete

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