KR100600676B1 - Multicast Server and Sleep Mode Method Using Thereof in a Mobile Station - Google Patents

Abstract

The present invention relates to a multicast server and a sleep mode method of a mobile communication terminal using the same.

According to the present invention, when the mobile communication terminal joins a service to the multicast server or receives the multicast data, the mobile communication terminal can receive information about the listening interval together to save the battery power of the mobile communication terminal by performing an effective sleep mode operation.

The present invention also provides a multicast server for saving battery power of a mobile communication terminal.

Portable Internet System, Sleep Mode, Multicast, Listening Interval, Sleep Interval

Description

Multicast Server and Sleep Mode Method Using Thereof in a Mobile Station

1 is a diagram illustrating a sleep mode operation of a mobile communication terminal according to the prior art.

2 is a block diagram of a multicast server and a mobile communication terminal according to an embodiment of the present invention.

3 is a flowchart illustrating a sleep mode setting process upon receiving multicast data according to an embodiment of the present invention.

4A to 4C are diagrams illustrating examples of a sleep mode operation of a mobile communication terminal according to an embodiment of the present invention.

5 is a diagram illustrating an example of setting a sleep mode of a mobile communication terminal according to an embodiment of the present invention.

The present invention relates to a multicast server and a sleep mode method of a mobile communication terminal using the same.

Recently, with the development of mobile communication technology, not only voice calls but also data communication are available through mobile communication terminals. In general, the data communication divides the data into a predetermined size, packetizes, and transmits and receives.

Traffic for packet transmission and reception in the mobile communication terminal is not generated continuously for a long time but is concentrated for a short period due to the characteristics of packet traffic.

At this time, since the mobile communication terminal that transmits and receives the data always monitors the radio channel through which the packet data is received, it consumes a lot of battery power of the mobile communication terminal, and thus only when there is packet data arriving at the mobile terminal. It is good to monitor the wireless channel. However, it is theoretically impossible to predict the arrival of packet data to the mobile communication terminal in advance, and a method of periodically monitoring the radio channel has been used in a suboptimal manner. Preferably, when the packet data arrives frequently to the mobile terminal, the mobile terminal frequently monitors the wireless channel. On the contrary, when the packet data does not arrive frequently to the mobile terminal, the wireless channel is occasionally monitored. Good to do.

Therefore, the mobile communication terminal uses the following sleep mode for efficient use of battery power. The sleep mode is configured by alternately repeating a listening interval, which is a section in which the mobile communication terminal monitors a wireless channel, and a sleep interval, which is a section in which the wireless channel is not monitored. The mobile communication terminal operates in a low power state during the sleep interval, and packet data transmission and reception are impossible. Then, the packet data arriving at the base station in the sleep interval period is buffered.

The packet data reception operation in the sleep mode of the mobile communication terminal will be described in detail with reference to FIG. Referring to FIG. 1, the mobile communication terminal alternately repeats a listening interval and a sleep interval.

If the packet data arrives at the base station at the first time point 10, the packet data is not immediately transmitted to the mobile communication terminal, but is buffered and stored in the base station. The mobile terminal wakes up at a second time point 20 in a listening interval state and transitions to a state capable of receiving a message transmitted from the base station, and the base station includes the address of the mobile communication terminal to the mobile communication terminal. Send a traffic arrival message.

When the traffic arrival message includes its own terminal address, the mobile communication terminal stays in a state where it can continue to receive the message without transitioning to the sleep interval at the third time point 30 when the listening interval state ends. Receive packet data buffered at the base station. Here, if the terminal does not include the terminal address in the traffic arrival message, the terminal transitions to a sleep interval in which the power saving state cannot receive the packet data again.

In this way, at the fourth time point 40, the packet data is received by the mobile communication terminal. Here, the packet data arrives at the base station at the first time point 10, but the time point at which the packet data actually arrives at the mobile communication terminal is the fourth time point 40, from the first time point 10. The time between the fourth time points 40 is called a packet arrival delay time.

In general, when there is no packet data arriving at the mobile communication terminal in the previous sleep interval period, the mobile communication terminal uses a sleep mode method that sets the next sleep interval period to twice the previous sleep interval period. In the sleep mode method, each mobile communication terminal operates independently, and this sleep mode method is suitable for unicast traffic.

However, the sleep mode method is not a suitable method because the multicast traffic is traffic that a plurality of terminals must receive traffic at the same time. That is, all mobile communication terminals receiving the multicast traffic must simultaneously monitor the radio channel at the time when the base station transmits the multicast traffic related packet data.

Accordingly, since the mobile communication terminal operating in the sleep mode defined for the conventional unicast cannot receive the multicast traffic, an additional sleep mode method for effectively receiving the multicast traffic is required.

An object of the present invention is to provide a multicast server that effectively provides a multicast service and a sleep mode method of a mobile communication terminal using the same.

Sleep mode method of a mobile communication terminal according to a feature of the present invention for achieving the above object,

A sleep mode method comprising a sleep interval and a listening interval of a mobile communication terminal receiving multicast data from at least one multicast server,

a) the mobile communication terminal receiving listening window data from the multicast server, wherein the listening window data is data defining timing of a listening interval of the mobile communication terminal;

b) storing, by the mobile terminal, the listening window data;

c) the mobile communication terminal operating a sleep mode according to the listening window data.

Multicast server according to another aspect of the present invention,

A multicast server that provides a predetermined multicast service to a mobile communication terminal,

And listening window data, wherein the listening window data is data defining a listening interval timing of the mobile communication terminal.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention.

A sleep mode method at the time of receiving multicast data of a mobile communication terminal according to an embodiment of the present invention will now be described in detail with reference to the accompanying drawings.

First, the configuration of a multicast server and a mobile communication terminal according to an embodiment of the present invention will be described in detail with reference to FIG.

The multicast server 100 is connected to a network, and a home agent 200 and at least one packet access router 210 for connection of the mobile communication terminal 300 are connected to the network, and the packet access router ( At least one base station 220 is connected to 210.

The multicast server 100 according to an embodiment of the present invention generates multicast listening window data indicating when to receive multicast service related information, and transmits the data to the mobile communication terminal 300. The multicast traffic is transmitted to the mobile communication terminal 300 subscribed to the multicast service through the network and the packet access router 210 in accordance with the condition of. In addition, the multicast server 100 may update the listening window data according to a schedule of a service.

The listening window data may be included in a subscription confirmation message or multicast data generated by the multicast server. In addition, the listening window data may further include a unique number.

The home agent 200 is connected to the packet access router 210 via a network to perform a mobile IP service function. The mobile IP is a protocol that detects the movement of the mobile communication terminal 300 and enables communication after the movement in the same manner as before the movement. The mobile IP service function is different from the home network of the mobile communication terminal 300. This feature allows you to use your existing IP address from anywhere. The server in communication with the mobile communication terminal 300 can also communicate by establishing a connection only with an existing IP address of the mobile communication terminal 300 without having to recognize where the mobile communication terminal 300 is located.

The packet access router 210 is connected to at least one base station 220 and a network to perform packet access routing, mobile IP, handoff, and quality of service (QoS) control.

The base station 220 performs initial access, handoff, and QoS control functions of the mobile communication terminal 300. In addition, the base station 220 receives the packet data from the mobile communication terminal 300 and transmits the packet data to the packet access router 210 or, conversely, various packet data received from the packet access router 210 to the mobile communication terminal 300. Perform the function of passing.

The mobile communication terminal 300 functions as a mobile internet terminal, performs a wireless channel transmission and reception function and a medium access control (MAC) protocol processing function according to the wireless access standard of the mobile internet, and accesses the packet data by accessing the base station 220. Send and receive

The mobile communication terminal 300 sends a sleep request message including information related to the sleep interval and the listening interval to the base station 220 to operate in the sleep mode. In this case, the sleep request message includes an initial sleep window, a final sleep window base, a final sleep window exponent, and a listening window data.

The listening window is data for setting a listening interval period, the initial sleep window is data for setting an initial sleep interval period, and the final sleep window base and final sleep window component are used for setting the last sleep interval period. This value is used to calculate the final sleep window value.

The final slip window is calculated by Equation 1 below.

Final Sleep Window = Final Sleep Window Base × 2 ^{(Final Sleep Window Component)}

Upon receiving the sleep request message, the base station 220 transmits a sleep response message including information on a sleep interval and a listening interval to the mobile communication terminal 300 so that the mobile communication terminal 300 sleeps. Allows you to operate in mode.

The mobile communication terminal 300 according to an embodiment of the present invention subscribes to the multicast service through the multicast server 100 and sleeps according to the multicast listening window data received from the multicast server 100. An interval period and a listening interval period can be set. The listening window data may further include a unique number. When the listening window data having the same unique number as that of the received listening window data is stored, the mobile communication terminal 300 may store the same unique number. The listening window data of the number is deleted.

In addition, when receiving a plurality of multicast services, the mobile communication terminal 300 may receive listening window data from each multicast server, and set a listening interval period according to each listening window data.

3 is a flowchart illustrating a sleep mode setting process upon receiving multicast data according to an embodiment of the present invention.

First, the mobile communication terminal 300 accesses the multicast server 100 through a network and transmits a multicast join request message to apply for subscription to a multicast service (S100). The multicast server 100 receiving the subscription request transmits a multicast join response message for granting subscription to the mobile communication terminal 300 (S110). The multicast subscription response message includes multicast listening window data indicating when the mobile communication terminal 300 should receive multicast service related information. The listening window data may further include a unique number.

The mobile communication terminal 300 sets a listening interval and a sleep interval period according to the multicast listening window data (S120).

Thereafter, the mobile communication terminal 300 receives multicast data from the multicast server 100. The multicast data may further include multicast listening window data for a subsequent multicast service. At this time, the listening window data of the same unique number already stored is deleted.

In addition, even when the multicast data is not transmitted at the time indicated by the multicast listening window, the multicast listening window data for the subsequent multicast service may be received from the multicast server 100 ( S130).

In addition, when the mobile communication terminal 300 transmits a multicast leave request message to the multicast server 100 to request the withdrawal of the service, the multicast server 100 is connected to the mobile communication terminal ( In step S140 and S150, a multicast leave response message is transmitted.

The mobile communication terminal 300 leaving the multicast service deletes the listening window data received from the multicast server (S160).

4A to 4C are diagrams illustrating an example of a sleep mode operation according to a configuration of a mobile communication terminal according to an embodiment of the present invention.

4A illustrates a sleep mode of a mobile communication terminal transmitting and receiving only unicast data. The listening window data for unicast may be basically stored in the mobile communication terminal.

The mobile communication terminal checks the traffic arrival message at the listening interval after the first sleep interval Sl1 in the sleep mode for transmitting and receiving the unicast data, and receives the packet data if the address of the mobile communication terminal is included in the message. After that, the sleep mode is initialized and the first sleep interval S1 is started again.

However, if the traffic arrival message is examined at the listening interval after the first sleep interval Sl1 and the address of the mobile communication terminal is not included in the message, the length of the next second sleep interval Sl2 is determined by the first sleep interval. It is set to twice the length of the interval Sl1.

In addition, when the traffic arrival message is examined at the listening interval after the second sleep interval Sl2 and the address of the corresponding mobile communication terminal is not included in the message, the length of the next third sleep interval Sl3 is determined by the second sleep. It is set to twice the length of the interval Sl2. Similarly, the next fourth slip interval Sl4 is twice the length of the third slip interval Sl3. However, when the number of sleep intervals is more than a predetermined number, the length of the sleep interval is no longer increased.

4B is an example of a sleep mode of a mobile communication terminal for transmitting and receiving multicast data.

In the sleep mode for transmitting and receiving the multicast data, the mobile communication terminal sets a listening interval period based on the listening window data received when subscribing to the multicast service system. Such a listening interval period may be set at regular intervals as shown in FIG. 4B.

The mobile communication terminal may receive listening window data from each multicast server, and set a listening interval period according to each listening window data.

4C is an example of a sleep mode for transmitting and receiving both unicast data and multicast data.

In the mixed sleep mode for transmitting and receiving both unicast data and multicast data, the listening interval is set to include both the unicast listening interval defined in FIG. 4A and the multicast listening interval defined in FIG. 4B.

In addition, the mobile communication terminal may set a listening interval period using both listening window data for unicast and listening window data received from a multicast server.

5 shows an example of setting a sleep mode of a mobile communication terminal according to an embodiment of the present invention.

The mobile communication terminal stores timing information of the next listening interval in units of frames according to the type of multicast service subscribed to the unicast service and the terminal. The frame is a value representing a relative period based on when the mobile communication terminal enters the sleep mode.

The mobile communication terminal performs a listening interval operation in order of a service having the lowest frame value. When the mobile communication terminal receives the information update data of the multicast service which performed the listening interval operation, the mobile communication terminal updates the information on the corresponding listening interval.

In addition, the mobile communication terminal can perform the sleep mode operation effectively using a schedule as shown in FIG. 5 even when subscribing to multiple multicast servers.

In the embodiment of the present invention, the multicast service has been described, but the present invention is not limited thereto, and the sleep mode method may be similarly applied to a broadcast (broadcast) service.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

As described above, according to the present invention, when the mobile communication terminal subscribes to the multicast service or receives the multicast data, the mobile terminal receives information on the listening interval together to save the battery power of the mobile communication terminal by performing an effective sleep mode operation. Can be.

The present invention also provides a multicast server to save battery power of such a mobile communication terminal.

Claims (13)

A sleep mode method comprising a sleep interval and a listening interval of a mobile communication terminal receiving multicast data from at least one multicast server, a) the mobile communication terminal receiving listening window data from the multicast server, wherein the listening window data is data defining timing of a listening interval of the mobile communication terminal; b) storing, by the mobile terminal, the listening window data; c) operating the sleep mode by the mobile terminal according to the listening window data. The method of claim 1, In step b) above, And if the listening window data received from the same multicast server already exists in the mobile communication terminal, the existing listening window data is deleted. The method according to claim 1 or 2, Before step a) above, The mobile communication terminal further comprises the step of subscribing a service to the multicast server. The method of claim 3, And deleting the listening window data received from the multicast server when the mobile communication terminal leaves the service from the multicast server. The method according to claim 1 or 2, Before step a) above, Receiving the multicast data from the multicast server by the mobile communication terminal. The method according to claim 1 or 2, The listening window data is a sleep mode method, characterized in that for setting the timing of the listening interval of the mobile communication terminal at regular intervals. The method according to claim 1 or 2, And the mobile communication terminal stores listening window data generated by each multicast server. The method of claim 7, wherein And the mobile communication terminal switches to a listening interval state at every listening interval timing set in the respective listening window data. The method according to claim 1 or 2, The mobile communication terminal has a listening window data stored in the mobile communication terminal, in addition to the listening window data received from the multicast server. The method of claim 9, And the mobile communication terminal switches to a listening interval state at every listening interval timing set in the respective listening window data. A multicast server that provides a predetermined multicast service to a mobile communication terminal, And transmitting listening window data to the mobile communication terminal, wherein the listening window data is data defining a listening interval timing of the mobile communication terminal. The method of claim 11, The listening window data is updated according to a schedule of a multicast service. The method of claim 12, And after updating the listening window data, transmitting the updated listening window data together while transmitting the multicast data.

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