KR101124747B1 - Data transfer method for saving energy - Google Patents

Abstract

PURPOSE: A data transfer method for saving energy is provided to save energy of a network system by reducing energy consumption of a network device. CONSTITUTION: A network system activates a network relay module in a virtual line(110). The network system transfers data from a source to a destination along with a transfer route through a route table of the network relay module(120). The network system eliminates the virtual line between the source and the destination. The network system automatically switches the network relay module into an energy saving state(130).

Description

Energy-saving data transmission method that recognizes the data transmission path {DATA TRANSFER METHOD FOR SAVING ENERGY}

Embodiments of the present invention relate to an energy saving data transmission technique using a virtual circuit network.

In general, a communication resource allocation method used in a wireless communication system is largely divided into a circuit switching method and a packet switching method. First, a circuit switched scheme refers to a communication method in which a fixed amount of radio resources, that is, dedicated channels are allocated to a specific user, and data is transmitted and received using the dedicated channels.

Unlike the circuit-switched system, the packet-switched system shares system resources (for example, TCP / IP-based Internet circuits, Walsh codes in CDMA systems, and subcarriers in OFDMA systems) instead of allocating dedicated channels to specific users. The wired / wireless communication system using the packet switching scheme schedules and uses which user to allocate system resources to every transmission time point.

Although the circuit-switched or packet-switched schemes described above are used for data transmission, the system that transmits data in the circuit-switched scheme increases the waste of communication resources during the off period, making it difficult to efficiently operate the communication resources. For example, a system for transmitting data in a packet-switched method transmits a small amount of data in a short period, and thus, there is a problem in that control information for receiving a packet must be transmitted every time according to an irregular feature.

For this reason, a virtual circuit network (MPLS, for example, Multi Protocol Label Switching) method, which combines the advantages of circuit switched and packet switched, is widely used. A virtual circuit network is a circuit network management method that facilitates the management of hand-offs. The circuit is determined before the communication is made. It is the same as the circuit-switched method, but the circuit is logical rather than a physical circuit. It is called a virtual circuit because it is a circuit. In other words, the virtual circuit network generally collects communication paths that are discontinuously existing between both ends located in the network so that each communication subject can communicate without being aware of the intermediate path.

As climate change and energy issues have emerged as global challenges, power consumption and carbon emissions have emerged as key issues, and energy-saving data transmission techniques are required to save energy in IT.

It provides an energy-saving data transmission method that can save energy of network equipment in a communication network that transmits data using a virtual circuit network.

A data transmission method of a network system that transmits data by using a virtual circuit network, the data transmission method comprising: establishing a virtual circuit between a source and a destination and enabling data transmission of a network relay module existing on the virtual circuit Setting a line to switch to; A data transmission step of transmitting data from a source to a destination according to a transmission path set through a path table of a network relay module; And a circuit releasing step of releasing the virtual circuit between the source and the destination and automatically switching the network relay module to the power saving state when the transmission of the data is completed.

According to one side, the circuit setting step, specifying the incoming port (incoming port), the path that the data flows in and outgoing port (outgoing port), the data outgoing port in accordance with the circuit setup request from the source; Assigns an incoming virtual circuit identifier (VCI) and an outgoing VCI, which are circuit identifiers for incoming and outgoing ports, to generate a route table consisting of incoming and incoming VCIs, and outgoing and outgoing VCIs. step; And switching, by the network relay module, the incoming port and the outgoing port to which the incoming VCI and the outgoing VCI are assigned.

According to another aspect, the circuit release step may include transmitting a release acknowledgment frame for releasing the virtual circuit at the destination to the source according to the transmission path according to the source release request; And switching the incoming port and the outgoing port to a power saving state in the network relay module that receives the release acknowledgment frame in the process of transmitting the release acknowledgment frame to the source. Here, the incoming port and incoming VCI and the outgoing port and outgoing VCI constituting the route table may be deleted from the network relay module that receives the release acknowledgment frame.

When a connection between a source and a destination is established in a communication network using a virtual circuit network, the network equipment existing on the virtual circuit is activated to transmit data, and then the connection between the source and the destination is released. The network equipment can be automatically put into sleep state.

Therefore, by applying the method of switching to the activation mode or the power saving mode depending on whether the state of the network equipment in the communication network of various environments, it is possible to realize the energy saving of the network system by improving the energy use of the network equipment that is always on. Here, the power saving mode refers to a mode for energy saving, and may include a standby mode, an idle mode, a sleep mode, an off mode, and the like.

1 is a flowchart illustrating an energy saving data transmission method that recognizes a data transmission path according to an embodiment of the present invention.
2 and 3 are diagrams for explaining a process of setting up a virtual line between a source and a destination in an embodiment of the present invention.
FIG. 4 is a diagram for describing a configuration and state control of a route table generated for setting a transmission route in a network relay module according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Embodiments of the present invention can be applied to a network system that provides a transmission path between two ends to communicate in a communication network. In particular, an embodiment of the present invention can be applied to a network system that designates a transmission path between two ends using a virtual circuit method. For example, it can be used for network equipment using MPLS, x.25, Frame relay, ATM, and the like.

1 is a flowchart illustrating an energy saving data transmission method that recognizes a data transmission path according to an embodiment of the present invention. In the energy saving data transmission method according to the present embodiment, each step may be performed by a network system that transmits data using a virtual circuit network.

In step 110, the network system establishes a virtual circuit between a source and a destination (for example, a Label Switch Path (LSP) tunnel may be a circuit in the case of MPLS). Switch the network relay module in the enabled state to enable data transmission. The virtual circuit scheme uses a network relay module, such as a switch, to provide a transmission path from the source to the destination. Here, the network relay module provides a path selection function for determining where to send the received data after receiving the data. The network system according to an embodiment converts a state of a network relay module required in a setting mode for a virtual circuit into an active state before transmitting data between a sender and a destination to create a virtual circuit for data transmission in a corresponding section. Here, the activation state may mean a state in which the network relay module is in communication with a terminal (source, destination) or a higher system, and may continue or immediately resume data transmission.

In step 120, the network system transmits data from the source to the destination according to the transmission path set through the path table of the network relay module. Network systems need a route table to transfer data from the source to the destination. Here, the route table may be generated in the network relay module existing on the virtual circuit, and may be configured with a VCI corresponding to a port and a circuit identifier for the source and the destination. Here, the VCI means a circuit identifier substantially used for data transmission, and is used only between two systems and may be represented by a small number. If a path for passing the corresponding virtual circuit is designated in the route table of the network relay system, the data transmission step 120 may transmit data through the route determined by searching the route table using the VCI.

In step 130, when the transmission of data from the source to the destination is completed, the network system tears down the virtual circuit between the source and the destination and automatically switches the network relay module to the power saving state. The virtual circuit method releases the virtual circuit when data transmission from the source to the destination is completed. According to an embodiment of the present invention, the network system provides a power saving state in a network relay module that provided a path between the source and the destination in the circuit release step 130. You can switch. Here, the power saving state is a state in which only the minimum functions necessary for the system are operated without data transmission with the terminal or the upper system, and may mean a state in which power consumption of the system can be reduced. The power saving state may include a standby mode, an idle mode, a sleep mode, an off mode, and the like.

2 and 3, a process of setting up a virtual circuit between a source and a destination will be described in detail.

First, a process of requesting setting of a virtual circuit will be described with reference to FIG. 2.

The source 210 transmits a setup frame corresponding to the circuit setup request to the network relay modules 220, 230, and 240 (hereinafter, referred to as “switches”) necessary for setting up a circuit with the destination 250. In this case, the switches 220, 230, and 240 generate a path table 221, 231, 241 by receiving a setup frame from the source 210 and selecting a path to transmit the frame through a path selection function. The route table 221, 231, 241 consists of four columns, namely incoming port, incoming VCI, outgoing port, and outgoing VCI. The incoming port is a path for inflowing data, and the outgoing port is a path for outgoing data. The incoming port and the outgoing port are designated at the time of receiving the setup frame and are recorded in the path table. In addition, an incoming VCI means a circuit identifier for an incoming port and is allocated at the time of receiving a setup frame and recorded in a path table. Incoming and outgoing ports, and incoming VCIs can be defined by the switch, or can be defined according to the needs of the traffic in the circuit resource management pool of the network system. The outgoing VCI means a circuit identifier for the outgoing port, but cannot be known until the connection between the source 210 and the destination 250 is established. When destination 250 is ready to receive a setup frame from source 210, it specifies the VCI for the frame coming from source 210 and distinguishes the VCI for source 210 from other sources.

A process of authenticating a virtual circuit between a source and a destination will be described with reference to FIG. 3.

By specifying the VCI at the destination 350, the source 310 is authenticated, and the destination 350 transfers the switch to the switch 3 340 including the designated VCI. The switch 3 340 designates the VCI received from the destination 350 as its outgoing VCI, records it in the route table, and transmits it to the next switch 2 330 including the incoming VCI specified in the route table. At this time, the switch 2 330 designates the incoming VCI of the switch 3 340 as its outgoing VCI and records it in the route table. Switch 1 320 also receives the incoming VCI of switch 2 330 in the same manner and designates it as its outgoing VCI in the route table. In addition, the acknowledgment of the virtual circuit between the source 310 and the destination 350 is confirmed by confirming that the source 310 is from the destination 350 by looking at the outgoing VCI of the frame received through the switches 320, 330, and 340. Is done. The outgoing VCI of each switch 320, 330, 340 is determined based on the VCI assigned by the destination 350 through the authentication process, and the generation of the route table is completed.

FIG. 4 is a diagram for describing a configuration and state control of a route table generated for setting a transmission route in a network relay module according to an embodiment of the present invention.

According to an embodiment of the present invention, in a network relay module, an incoming port allocated to an incoming VCI and an outgoing port assigned to an outgoing VCI are set to an active mode to enable data transmission between a source and a destination. . As shown in FIG. 4, the present embodiment saves energy by setting the power saving state to a normal power saving state for a port that is not allocated or not used with reference to the route table, and the port to which the VCI is allocated according to line authentication is By making it active, you can connect source and destination via virtual circuits.

In addition, the network system according to an embodiment of the present invention requests the circuit release request to the destination after the source transmits all the frames of data to the destination, and confirms the release to release the virtual circuit between the source and the destination according to the circuit release request at the destination. Send the frame to the source. When the network relay module on the circuit receives the release acknowledgment frame in the process of transmitting the release acknowledgment frame to the source, the incoming and outgoing ports involved in the path of the virtual circuit are automatically switched to the power saving state. Then, the route table information of all network relay modules associated between the source and the destination is deleted. That is, the incoming VCI and the outgoing VCI assigned to the incoming and outgoing ports as well as the incoming and outgoing ports involved in the path of the virtual circuit are deleted.

The energy-saving data transmission method according to an embodiment is applied to a network system that provides a transmission path for data transmission between a source and a destination by using a virtual circuit method, and a network of a corresponding section in a circuit setting process for a virtual circuit. You can save energy in the system by turning on the relay module (ports and modules involved in the virtual circuit) and automatically switching the network relay module to the power saving mode when normal or unused data transmission is completed.

As described above, according to embodiments of the present invention, the energy efficiency is improved by improving energy efficiency of network equipment that is always turned on by applying a method of switching to activation or power saving mode depending on whether the state of the network relay module is used in a communication network of various environments. Savings can be realized.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

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

Claims (5)

delete In the data transmission method of a network system for transmitting data using a virtual circuit network,
The data transmission method,
A circuit setting step of establishing a virtual circuit between an originating source and a destination and switching a network relay module existing on the virtual circuit to an active state capable of data transmission;
A data transmission step of transmitting data from the source to the destination according to a transmission path set through the path table of the network relay module; And
A circuit disconnection step of releasing the virtual circuit between the source and the destination and automatically switching the network relay module to a power saving state when the transmission of the data is completed;
Including,
The line setting step,
Specify an incoming port which is a path through which the data flows in the network relay module and an outgoing port that is a path through which the data is drawn out according to the circuit establishment request of the source. Assigning an incoming virtual circuit identifier (VCI) and an outgoing VCI, which are circuit identifiers for the outgoing port, to determine the route table including the incoming port and the incoming VCI, and the outgoing port and the outgoing VCI. Generating; And
Transitioning, by the network relay module, the incoming port and the outgoing port to which the incoming VCI and the outgoing VCI are allocated to the active state;
Energy-saving data transmission method comprising a. The method of claim 2,
Generating the route table,
Allocating a virtual circuit identifier (VCI) for the source at the destination and allocating the outgoing VCI of the network relay module based on the VCI assigned at the destination to the circuit establishment request of the source;
Energy-saving data transmission method characterized in that. The method of claim 2,
The line disconnection step,
Transmitting a release acknowledgment frame for releasing the virtual circuit at the destination to the source according to the transmission path in accordance with the circuit release request of the source; And
Transitioning the incoming port and the outgoing port to the power saving state by the network relay module receiving the release acknowledgment frame in the process of transmitting the release acknowledgment frame to the source;
Energy-saving data transmission method comprising a. The method of claim 4, wherein
The line disconnection step,
Deleting the incoming port and the incoming VCI and the outgoing port and the outgoing VCI constituting the route table in the network relay module receiving the release confirmation frame.
Energy-saving data transmission method further comprising.

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