KR20130048558A - Communication terminal, proxy apparatus and method for controlling sleep - Google Patents

Abstract

PURPOSE: A communication terminal, a proxy device, and a sleep control method are provided to enter a sleep mode when there is not network traffic. CONSTITUTION: When sleep mode conversion is determined, an entrustment negotiation unit(130) entrusts a function of a part network protocol to a proxy device. A mode determination unit(110) determines conversion to a sleep mode or an activation mode. The mode determination unit enters the sleep mode when the function of the part network protocol is entrusted to the proxy device. The entrustment negotiation unit negotiates kinds of network protocols, kinds of messages, and sleep mode periods with the proxy device. [Reference numerals] (110) Mode determination unit; (120) Search unit; (130) Entrustment negotiation unit; (140) Network processing unit; (150) Communication unit

Description

COMMUNICATION TERMINAL, PROXY APPARATUS AND METHOD FOR CONTROLLING SLEEP}

The present invention relates to a communication terminal, a proxy device, and a sleep control method. More specifically, the present invention relates to a communication terminal, a proxy device, and a sleep control that can maintain a network connection even when a communication terminal enters a sleep mode for energy saving. It is about a method.

Reduction of energy consumption and greenhouse gas emissions is an important issue worldwide, and the EU aims to reduce greenhouse gas emissions by 20% by 2020. Korea has set the national greenhouse gas reduction target by 4% by 2005 by 2020 and is making various efforts such as policy making and technology development. As of 2008, greenhouse gas emissions from the Information & Communication Technology (ICT) industry accounted for 2% of the total humanity's emissions and 4% of the electricity consumed by humanity. There is a great need for effort.

The network sector is one of the major sectors of ICT, showing rapid growth and consuming a large amount of energy to provide large bandwidths and provide complex real-time application services. The energy consumption of the ICT sector, which is related to the operation of the network, is broken down by network structure, and it is known that the local network composed of hubs and switches is responsible for 80% of the entire Internet. Looking at the energy use of these local networks, it is known that network interface cards attached to each hub and switch consume about 50% of the energy used by individual equipment. Therefore, in order to reduce energy consumption used in the network field, it is important to develop a network structure and technology for energy efficient management.

Wired and wireless terminals receiving services using wired and wireless networks are increasing rapidly. Since wired and wireless terminals, particularly wireless terminals, are typically powered by batteries, it is necessary to develop network technologies that can reduce the use of batteries in wired and wireless terminals in order to reduce energy consumption used in the network field.

According to the traffic measurement results of the network link, it is known that much of the traffic on the link is accounted for by broadcast messages transmitted to all terminals on the link, not traffic transmitted and received by the user terminals on the link. Due to such a broadcast message, even when the user terminal tries to enter the sleep mode for energy saving, a problem may occur in which the user cannot enter the sleep mode.

The technical problem to be solved by the present invention is to provide a communication terminal, a proxy device and a sleep control method that can save energy.

According to an embodiment of the present disclosure, a method of controlling a sleep mode in a communication terminal is provided. The sleep control method may further include: requesting delegation of a function of some network protocol to a proxy device, receiving a delegation response to the delegation request from the proxy device, and switching to the sleep mode when the switch to the sleep mode is determined. Entering.

The requesting delegation may include discovering the proxy device.

The requesting delegation may include transmitting a type of network protocol, a message type, and a sleep mode period to the proxy device to request delegation, and the receiving may include a type of network protocol that the proxy server can process; Receiving a message type and a sleep mode period from the proxy server.

The entering may include setting a time corresponding to a sleep mode period to a timer, and the sleep control method may further include switching from the sleep mode to an active mode when the timer expires. have.

The switching to the active mode may include transmitting a wakeup notification message to the proxy device to notify the user of switching to the active mode, receiving a wakeup confirmation message for the wakeup notification message from the proxy server; And switching to the active mode.

The sleep control method may include receiving a wakeup request message indicating that there is traffic to be processed by the communication terminal from the proxy server in the sleep mode period, and transmitting a confirmation message for the wakeup request message to the proxy server. And switching from the sleep mode to the active mode.

The sleep control method may further include receiving traffic buffered by the proxy server during the sleep mode period from the proxy server after switching to the active mode.

According to another embodiment of the present invention, a method for controlling a sleep mode of a communication terminal in a proxy server is provided. The sleep control method may include receiving a request for delegation of a function of a part of a network protocol from a communication terminal to switch to a sleep mode, determining whether the function of the part of the network protocol is possible, and providing the function of the part of the network protocol. Responding to the communication terminal, and performing a delegation function of the some network protocols upon receiving the response and when the communication terminal enters a sleep mode.

The responding may include transmitting a type of network protocol that can be processed, a message type, and a sleep mode period.

The performing of the delegation function may include buffering traffic of the some network protocol among traffic destined for the communication terminal during the sleep mode period.

The performing of the delegation function may further include transmitting the buffered traffic to the communication terminal when the communication terminal is switched from the sleep mode to the active mode.

The performing of the delegation function may further include transmitting a wakeup request message for waking the communication terminal to the communication terminal when real time traffic destined for the communication terminal is received during the sleep mode. have.

The sleep control method may further include terminating the delegation function when the sleep mode period of the communication terminal expires.

According to another embodiment of the present invention, a communication terminal for controlling a sleep mode is provided. The communication terminal includes a delegation negotiation unit and a mode determination unit. The delegation negotiating unit delegates the functions of some network protocols to the proxy device when the switch to the sleep mode is determined. The mode determination unit determines to switch to the sleep mode or the active mode, and enters the sleep mode when the function of the some network protocols is delegated to the proxy device.

The delegation negotiating unit may negotiate with the proxy device a type of network protocol, a message type, and a sleep mode period that the proxy device can process.

According to another embodiment of the present invention, a proxy device for controlling a sleep mode of a communication terminal is provided. The proxy device includes a delegation determination unit, a delegation negotiation unit, and a delegation function performing unit. The delegation decision unit determines whether provision of the delegation function is possible. When the delegation negotiating unit is capable of providing the delegation function, the delegation negotiation unit delegates the functions of some network protocols of the communication terminal through negotiation with the communication terminal to switch to the sleep mode. The delegation function performing unit performs a delegation function for the traffic of the partial network protocol during the sleep mode period of the communication terminal.

When the delegation function performing unit receives real-time traffic destined for the communication terminal, the delegation function performing unit may switch the communication terminal from the sleep mode to the active mode by transmitting a wake-up request message to the communication terminal.

According to an embodiment of the present invention, when the communication terminal does not have network traffic transmitted and received by the communication terminal, the network protocol may be delegated to the proxy server on the link so that the network connectivity may be maintained even when the communication terminal enters the sleep mode. It is possible to solve the problem that the communication terminal cannot enter the sleep mode for energy saving due to the transmission and reception of unnecessary broadcast traffic on the link. As a result, the communication terminal enters the sleep mode when there is no network traffic to transmit and receive, thereby effectively reducing the energy of the communication terminal.

1 is a diagram illustrating a network system according to an exemplary embodiment of the present invention.
2 is a flowchart illustrating a method of delegating processing of a network protocol to a proxy server in a communication terminal according to an exemplary embodiment of the present invention.
3 is a diagram illustrating an example of a sleep request message according to an embodiment of the present invention.
4 is a flowchart illustrating a method for delegating a function of a network protocol from a communication terminal in a proxy server according to an exemplary embodiment of the present invention.
5 is a diagram illustrating a communication terminal according to an exemplary embodiment of the present invention.
6 is a diagram illustrating a proxy server according to an exemplary embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out 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, and like reference numerals designate like parts throughout the specification.

Throughout the specification and claims, when a section is referred to as "including " an element, it is understood that it does not exclude other elements, but may include other elements, unless specifically stated otherwise.

In the present specification, a communication terminal includes a mobile station (MS), a mobile terminal (MT), a subscriber station (SS), a portable subscriber station (PSS), a user equipment (User Equipment, It may also refer to a device capable of communication, such as a UE, an access terminal (AT), a computer, a laptop, and the like.

A communication terminal, a proxy device, and a sleep control method according to an embodiment of the present invention will now be described in detail with reference to the accompanying drawings.

1 is a diagram schematically illustrating a network system according to an exemplary embodiment of the present invention.

Referring to FIG. 1, a network system includes a plurality of communication terminals 100, a proxy device aka, and a proxy server 200.

The communication terminal 100 communicates with other communication terminals 100 through the communication network 300. The communication terminal 100 may process various network protocols to communicate with other communication terminals 100. The communication network 300 may include all communication networks, such as wired and wireless complex networks, including wired communication networks and wireless communication networks.

The communication terminal 100 operates by receiving energy through a battery or a power supply device connected through a cable.

The communication terminal 100 operates an active mode and a sleep mode according to the state of the communication terminal 100 to save energy. The communication terminal 100 processes the traffic in the active mode. The communication terminal 100 switches to the sleep mode to save energy when there is no traffic directly transmitted and received. Traffic directly transmitted and received by the communication terminal 100 may be, for example, real-time traffic.

The communication terminal 100 negotiates with the proxy server 200 a network protocol to be proxyed to the proxy server 200 and a sleep mode period among various network protocols for switching to the sleep mode, and processes the negotiated network protocol. Delegate to the proxy server 200. In this case, a message that can be processed for each network protocol may also be negotiated.

The communication terminal 100 enters the sleep mode when the negotiation with the proxy server 200 is completed.

The proxy server 200 checks whether the provision of the delegation function is possible, and negotiates a network protocol and a sleep mode period to proxy with the communication terminal 100 when the delegation function is provided.

When the negotiation with the communication terminal 100 is completed, the proxy server 200 processes the network protocol of the communication terminal 100 on behalf of the communication terminal 100 during the sleep mode period of the communication terminal 100. The proxy server 200 buffers the traffic of the network protocol of the communication terminal 100 negotiated during the sleep mode period of the communication terminal 100, and transmits the buffered traffic to the communication terminal 100 when the sleep mode period expires. .

In particular, the proxy server 200 may process traffic such as, for example, broadcast messages that are not directly transmitted or received by the communication terminal 100 during the sleep mode period.

The broadcast message is a message transmitted to all communication terminals 100 of the network system. Although the communication terminal 100 tries to enter the sleep mode, the communication terminal 100 may not enter the sleep mode to process the broadcast message.

However, as in the embodiment of the present invention, when the communication terminal 100 delegates the processing of the network protocol such as the broadcast message to the proxy server 200 during the sleep mode period, the proxy server 200 processes it instead, Not only the network connectivity of the communication terminal 100 is still maintained, but also the communication terminal 100 may enter a sleep mode, thereby saving energy.

Next, a sleep control method of the communication terminal 100 for energy saving will be described in detail with reference to FIGS. 2 to 4.

2 is a flowchart illustrating a method of delegating processing of a network protocol to a proxy server in a communication terminal according to an exemplary embodiment of the present invention.

Referring to FIG. 2, when there is no traffic directly transmitted and received by the communication terminal 100, the communication terminal 100 determines switching to the sleep mode (S202). When the switch to the sleep mode is determined, the communication terminal 100 performs a delegation procedure of the network protocol to maintain network connectivity during the sleep mode period.

First, the communication terminal 100 searches whether there is a proxy server 200 available on the communication link (S204). The search of the proxy server 200 may use a preset address of the proxy server 200 or use a proxy server search message.

When the proxy server 200 is found (S206), the communication terminal 100 transmits a sleep request (Sleep_Request) message to the proxy server 200 (S208). The sleep request message may be as shown in FIG. 3, for example. That is, the sleep_Request message includes the type of the delegation request target network protocol, the delegation request target message type, the message processing method, and the request sleep mode period, which the communication terminal 100 wants to request for delegation to the proxy server 200. May be included.

The communication terminal 100 receives a sleep confirmation (Sleep_Ack) message for a sleep request (Sleep_Request) message from the proxy server 200 (S210). The sleep acknowledgment (Sleep_Ack) message may include a kind of network protocol that the proxy server 200 can process, a message type, a message processing method, and a request sleep mode period.

The communication terminal 100 checks the sleep confirmation message and determines the type of network protocol, message type, message processing method, and sleep mode period to be finally delegated. That is, the communication terminal 100 transmits a sleep request message to the proxy server 200 and receives a sleep acknowledgment message from the proxy server 200, thereby delegating the network to the proxy server 200. Negotiate the protocol's functions.

The communication terminal 100 sets the sleep mode period to the timer and operates the timer to enter the sleep mode (S212). The timer generates an interrupt at the time when the sleep mode period expires, and the sleep mode period ends when an interrupt is generated from the timer.

The proxy server 200 performs the negotiated processing on behalf of the communication terminal 100 for a network protocol and a message destined for the communication terminal 100 as a destination during the sleep mode period of the negotiated communication terminal 100.

Meanwhile, when the proxy server 200 receives traffic that cannot be processed, such as real-time traffic or an unnegotiated network protocol, the proxy server 200 wakes up the sleep of the communication terminal 100 (Wake-up_Request). ) Transmits a message to the communication terminal 100.

When the communication terminal 100 receives the wake-up request message from the proxy server 200 (S214), the communication terminal 100 receives a wake-up request confirmation (Wake-up_Request_ACK) message for the wake-up request message. Transmit to the proxy server 200 (S215), and switch to the active mode to process the traffic.

If the communication terminal 100 does not receive a wake-up request message from the proxy server 200, the communication terminal 100 maintains a sleep mode state.

When the timer of the communication terminal 100 expires (S216), the communication terminal 100 transmits a wake-up notification (Wake-up_Notify) message to inform the proxy server 200 that the switch to the active mode (S218).

When the communication terminal 100 receives the wake-up confirm message for the wake-up notification message from the proxy server 200 (S220), the communication terminal 100 switches to the active mode (S222).

The communication terminal 100 entering the active mode receives and processes traffic buffered by the proxy server 200 during the sleep mode period of the communication terminal 100 from the proxy server 200 (S224).

3 is a diagram illustrating an example of a sleep request message according to an embodiment of the present invention.

As shown in FIG. 3, the sleep_Request message may include a sender address, a recipient address, a delegation request target network protocol type, a delegation request target message type, a message processing method, and a request sleep mode period. The delegation request target network protocol type is a type of network protocol requested by the communication terminal 100 to the proxy server 200, and the delegation request target message type indicates a delegation request message type for each delegation target network protocol. The message processing method indicates a method of processing a message for delegation request. The message processing method is possible by setting in advance a message that the proxy server 200 can process for each network protocol. The request sleep mode period represents the sleep time requested by the communication terminal 100.

The communication terminal 100 transmits a delegation request target network protocol and a message, a message processing method, and a request sleep mode period to the proxy server 200 through a sleep request message. The proxy server 200 responds to the communication terminal 100 through the sleep acknowledgment message (Sleep_Ack) to the network protocol and the message that it can process. Network protocols that can be delegated by the communication terminal 100 may include Address Resolution Protocol (ARP), Neighbor Discovery Protocol (NDP), Dynamic Host Configuration Protocol (DHCP), and the like. Can be.

In addition, the sleep request message may further include a sender's upper layer address, a receiver's upper layer address, and a sleep_Request message's time stamp. The time stamp is used to indicate the order of message transmission between the communication terminal 100 and the proxy server 200. The sender's upper layer address may include the sender port. The upper layer address of the receiver may include the receiver port.

4 is a flowchart illustrating a method for delegating a function of a network protocol from a communication terminal in a proxy server according to an exemplary embodiment of the present invention.

Referring to FIG. 4, the communication terminal 100 may use a proxy server discovery message to search for the proxy server 200.

When the proxy server 200 receives the proxy server search request message from the communication terminal 100 (S402), it determines whether provision of a delegation function is possible (S404). In order to determine whether the provision of the delegation function is possible, the proxy server 200 may consider the capacity, the number of communication terminals capable of providing the delegation function, and the like.

When the proxy server 200 may provide the delegation function, the proxy server 200 transmits a proxy server response message to the proxy server search request message to inform the communication terminal 100 that the delegation function can be provided (S406). Then, the proxy server 200 waits until receiving a sleep_Request message from the communication terminal 100.

When the proxy server 200 receives a sleep request message (Sleep_Request) from the communication terminal 100 (S408), the proxy server 200 determines a processable network protocol type, a message type, a delegation provision time, that is, a sleep mode period, and the like. The type, the message type, and the sleep mode period are transmitted to the communication terminal 100 through the sleep confirmation message (Sleep_Ack) (S410). That is, the proxy server 200 negotiates the function of the network protocol delegated by exchanging a sleep_Request message and a sleep_Ack message with the communication terminal 100.

When the proxy server 200 transmits a sleep confirmation message to the communication terminal 100, the proxy server 200 sets a sleep mode period to a timer, operates a timer, and performs a delegation function for a network protocol negotiated during the sleep mode period ( S412). The timer generates an interrupt when the sleep mode period expires, and the delegation function ends when an interrupt is generated from the timer.

The proxy server 200 processes network protocols and messages destined for the communication terminal 100 on behalf of the communication terminal 100 during the sleep mode period of the negotiated communication terminal 100. The proxy server 200 buffers traffic such as a network protocol and a message destined for the communication terminal 100 (S414).

On the other hand, when the proxy server 200 receives traffic that cannot be processed, such as real-time traffic or an unnegotiated network protocol (S416), the proxy server 200 wakes up the sleep of the communication terminal 100 (Wake-up_Request) message It transmits to the communication terminal 100 (S418). Next, the proxy server 200 receives a wake-up request confirmation (Wake-up_Request_ACK) message for the wake-up request message from the communication terminal 100 (S419).

The proxy server 200 may receive a wake-up notification message from the communication terminal 100 before the timer expires. When the proxy server 200 receives the wake-up notification message from the communication terminal 100 before the timer expires (S420), the proxy server 200 recognizes that the communication terminal 100 is to switch to the active mode and confirms the wakeup. A (Wake-up_Ack) message is transmitted to the communication terminal 100 (S422).

When the timer expires (S424), the proxy server 200 terminates the delegation function (S428).

The proxy server 200 receives a wake-up request message from the communication terminal 100, transmits a wake-up acknowledgment message to the communication terminal 100, or the timer expires. In step S426, the buffered traffic during the sleep mode period of the communication terminal 100 may be transmitted to the communication terminal 100, and the delegation function may be terminated.

5 is a diagram illustrating a communication terminal according to an exemplary embodiment of the present invention.

Referring to FIG. 5, the communication terminal 100 includes a mode determination unit 110, a search unit 120, a delegation negotiation unit 130, a network processing unit 140, and a communication unit 150.

The mode determination unit 110 switches to the sleep mode when the communication terminal 100 corresponds to the sleep mode condition, and switches to the active mode when the communication terminal 100 corresponds to the active mode condition. The sleep mode condition may include, for example, when there is no traffic transmitted and received by the communication terminal 100. The active mode condition may include a case where there is traffic directly transmitted and received by the communication terminal 100. Traffic directly transmitted and received by the communication terminal 100 may include real-time traffic. In addition, the active mode condition may include, for example, a case where a wake-up request message is received from the proxy server 200. In addition, the active mode condition may include, for example, when a timer for which the sleep mode period is set expires.

When the timer expires, the mode determination unit 110 may notify the switch to the active mode by sending a wake-up notification (Wake-up_Notify) message to the proxy server 200, the wake-up confirmation from the proxy server 200 Enter the active mode after receiving the (Wake-up_Ack) message.

The mode determiner 110 notifies the searcher 120 to switch to the sleep mode when the switch to the sleep mode is determined.

The search unit 120 searches whether there is a proxy server 200 available on the communication link. The search unit 120 transmits the searched proxy server 200 information to the delegation negotiation unit 120.

The delegation negotiation unit 130 performs negotiation for delegating the function of the network protocol with the proxy server 200 searched by the search unit 110. The delegation negotiating unit 130 transmits the type of the delegation request target network protocol, the type of the delegation request target message, the message processing method, and the request sleep mode period to the proxy server 200 through the sleep_Request message. The delegation negotiating unit 130 checks the network protocol type, message type, and sleep mode period that can be processed by the proxy server 200 through the sleep confirmation message (Sleep_Ack) message from the proxy server 200, and finally the network protocol to be delegated. Determine the type of, message type and sleep mode duration.

The network processor 140 processes traffic such as a corresponding network protocol and a message in an active mode.

The communication unit 150 transmits and receives a message with the proxy server 200.

6 is a diagram illustrating a proxy server according to an exemplary embodiment of the present invention.

Referring to FIG. 6, the proxy server 200 includes a delegation determination unit 210, a delegation negotiation unit 220, a delegation function performing unit 230, and a communication unit 240.

The delegation determination unit 210 checks whether the delegation function can be provided in consideration of the capacity of the proxy server 200 and the number of communication terminals capable of providing the delegation function. The delegation determination unit 210 informs the communication terminal 100 that the delegation function can be provided when the delegation function can be provided.

The delegation negotiating unit 220 negotiates with the communication terminal 100 to delegate the function of the network protocol of the communication terminal 100. The delegation negotiating unit 220 confirms the type of the delegation request target network protocol, the type of delegation request target message, the request sleep mode period, and the like through the sleep_Request message from the communication terminal 100, and the processable network protocol type. Determine message type, sleep mode duration, and more. The delegation negotiating unit 220 transmits a network protocol type, a message type, a sleep mode period, and the like which the proxy server 200 can process to the communication terminal 100 through a sleep_Ack message.

The delegation function performing unit 230 processes a network protocol, a message, and the like for the communication terminal 100 as a destination during the sleep mode period of the negotiated communication terminal 100. The delegation function performing unit 230 buffers traffic such as a network protocol and a message destined for the communication terminal 100. When the sleep mode period of the negotiated communication terminal 100 expires, the delegation function performing unit 230 transmits the buffered traffic to the communication terminal 100 and terminates the delegation function.

The delegation function performing unit 230 transmits a wake-up request message to the communication terminal 100 when receiving a traffic that cannot be processed, such as real-time traffic or an unnegotiated network protocol. Wake up 100) In addition, when the delegate function performing unit 230 receives a wake-up notification message from the communication terminal 100, the delegation function performing unit 230 recognizes that the communication terminal 100 switches to the active mode, and confirms the wake-up_Ack. The message is transmitted to the communication terminal 100.

In addition, the delegation function performing unit 230 may recognize that the communication terminal 100 switches to the active mode when the wake-up request acknowledgment (Wake --_ Request_ACK) message is received from the communication terminal 100. The communication unit 240 transmits and receives a message with the communication terminal 100.

In the above embodiment, although the communication terminal 100 delegates the function of the network protocol to the proxy server 200, the communication terminal 100 is another module inside the communication terminal 100, for example, a network interface card. You can also delegate to a central processing unit. In this case, the central processing unit of the network interface card may perform at least a part of the above-described proxy server 200 to negotiate a network protocol function to be delegated with the communication terminal 100, and negotiate the communication terminal 100. During the sleep mode period of the communication terminal 100 can be processed in place of the network protocol function.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (20)

In the method for controlling the sleep mode in the communication terminal,
Requesting delegation of a function of some network protocol to a proxy device when it is determined to switch to the sleep mode,
Receiving a delegation response to the delegation request from the proxy device, and
Entering the sleep mode
Sleep control method comprising a. In claim 1,
And requesting delegation includes discovering the proxy device. In claim 1,
The requesting delegation may include transmitting a type, a message type, and a sleep mode period of a network protocol to request delegation to the proxy device.
The receiving step includes receiving from the proxy server a type of network protocol, a message type, and a sleep mode period that the proxy server can process. In claim 1,
The step of entering comprises setting a time corresponding to the sleep mode period in the timer,
When the timer expires, switching from the sleep mode to the active mode
Sleep control method further comprising. 5. The method of claim 4,
Switching to the active mode,
Transmitting a wake-up notification message to the proxy device informing that the user wants to switch to the active mode;
Receiving a wakeup confirmation message for the wakeup notification message from the proxy server, and
Sleep control method comprising the step of switching to the active mode. In claim 1,
Receiving a wake-up request message indicating that there is traffic to be processed by the communication terminal from the proxy server in the sleep mode period,
Transmitting a confirmation message for the wakeup request message to the proxy server, and
Sleep control method comprising the step of switching from the sleep mode to the active mode. In claim 4 or 6,
After switching to the active mode, the proxy server receiving traffic buffered during the sleep mode from the proxy server
Sleep control method further comprising. In claim 1,
The proxy apparatus includes a central processing unit of a network interface card mounted on the communication terminal. In the method for controlling the sleep mode of the communication terminal in the proxy server,
Receiving a request for delegation of some network protocols from a communication terminal to switch to a sleep mode,
Determining whether it is possible to provide the functions of the some network protocols;
Responding to the communication terminal when the function of the some network protocols is possible; and
Receiving the response and performing a delegation function of the some network protocols when the communication terminal enters a sleep mode
Sleep control method comprising a. The method of claim 9,
The responding step includes transmitting a processable network protocol type, a message type, and a sleep mode period. 11. The method of claim 10,
The performing of the delegation function includes buffering traffic of the some network protocols among traffic destined for the communication terminal during the sleep mode period. 12. The method of claim 11,
The performing of the delegation function may further include transmitting the buffered traffic to the communication terminal when the communication terminal is switched from the sleep mode to an active mode. 12. The method of claim 11,
The performing of the delegation function may further include transmitting a wakeup request message for waking the communication terminal to the communication terminal when real time traffic destined for the communication terminal is received during the sleep mode period. Control method. The method of claim 9,
Terminating the delegation function when the sleep mode period of the communication terminal expires;
Sleep control method further comprising. In the communication terminal for controlling the sleep mode,
A delegation negotiating unit for delegating the functions of some network protocols to the proxy device when the switch to the sleep mode is determined, and
A mode determination unit which determines to switch to a sleep mode or an active mode, and enters the sleep mode when a function of the some network protocol is delegated to the proxy device.
Communication terminal comprising a. 16. The method of claim 15,
And the delegation negotiating unit negotiates with the proxy apparatus a type of network protocol, a message type, and a sleep mode period that the proxy apparatus can process. 16. The method of claim 15,
And the mode determining unit receives a wake-up request message indicating that there is traffic to be processed from the proxy server during the sleep mode period, or switches to the active mode when the sleep mode period expires. The method of claim 17,
The network processing unit for receiving and processing the traffic buffered by the proxy device from the proxy device during the sleep mode period, when switching to the active mode.
Communication terminal further comprising. In the proxy device for controlling the sleep mode of the communication terminal,
Delegation decision unit to determine whether the provision of the delegation function,
If the delegation function can be provided, a delegation negotiating unit for delegating a function of some network protocol of the communication terminal through negotiation with the communication terminal to switch to the sleep mode, and
Delegation function performing unit performing a delegation function for the traffic of the partial network protocol during the sleep mode period of the communication terminal
Proxy device comprising a. 20. The method of claim 19,
And, when the delegation function execution unit receives real-time traffic destined for the communication terminal, converts the communication terminal from the sleep mode to the active mode by transmitting a wake-up request message to the communication terminal.

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