KR20140027595A - Network access device and method for processing data thereof - Google Patents

Abstract

The present invention relates to a network access device and a method of processing data in a network access device, and more particularly to a network access device which can classify unnecessary packets of data packets transmitted through a communication network and charges electric power by using the unnecessary packets to use the electric power in the network access device, thereby saving energy, and a method of processing data in a network access device. A network access device connected to a communication network includes: a reception unit for receiving a data packet through the communication network, a packet determining unit for receiving the data packet received from the reception unit to recognize a destination address of the data packet, and setting the data packet as a charging data packet if the destination address of the data packet does not coincide with a destination address set in advance after comparing the destination address of the data packet with the set destination address, a power charging unit for receiving a charging data packet from the packet determining unit and charging electric power by using an electrical signal of the charging data packet, and a power supply unit for receiving electric power from the power charging unit and supplying electric power to the network access device. [Reference numerals] (10) Reception unit; (20) Packet determining unit; (30) Power charging unit; (40) Power supply unit; (50) Data processing unit; (AA) Communication network

Description

TECHNICAL FIELD [0001] The present invention relates to a network access device and a method for processing data in a network access device.

The present invention relates to a network access device and a method for processing data in a network access device, and more particularly, to a network access device and a network access device that distinguish unnecessary packets among data packets transmitted through a network communication network, charge power using unnecessary packets, And a method for processing data in a network access device and a network access device capable of saving energy by using the same in an access device.

As the number of Internet users increases and Internet application technology develops, Internet Protocol (IP) is widely used not only for existing data networks but also related technologies such as wired / wireless communication networks.

In addition, the network access device receives a data packet from a network communication network constituted by an Internet protocol network, obtains a destination address included in the data packet, and transmits the destination address to the destination.

In recent years, as the network evolves into the ubiquitous environment, the amount of information flowing into the network is increasing exponentially, and there are many unnecessary and meaningless data packets transmitted to the network devices, .

In order to solve the above problem, in the patent document 1 (Korean Patent Laid-Open Publication No. 10-2011-0033730, "Network Access Device and Packet Delivery Method Performed in the Device"), a garbage packet or an abnormal- Of the world.

However, the network access device disclosed in Patent Document 1 filters and blocks garbage packets. There is no way to recycle such garbage packets. As the size of the network access device and the throughput of data packets increase, the usage of the external power source increases There is a problem.

KR 10-2011-0033730 (published on March 31, 2011)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a network access apparatus capable of reducing power consumption by charging power using unnecessary garbage packets transmitted to a network access apparatus, And to provide a method for processing data in a network access device and a network access device that can be saved.

A network access apparatus according to an embodiment of the present invention includes a receiving unit that receives a data packet through the network communication network, the network access apparatus being connected to a network communication network; Receiving a data packet received from the receiving unit, determining a destination address of the data packet, comparing a destination address of the data packet with a destination address set in advance, and setting the data packet as a charging data packet Discrimination unit; A power charging unit for receiving a charging data packet from the packet determining unit and charging the power using the electric signal of the charging data packet, and a power supply unit for receiving power from the power charging unit and supplying power to the own network accessing unit And a power supply unit.

The destination address set in advance is an address of the network access device itself.

Here, the packet discrimination unit analyzes the application layer information of the data packet received from the receiving unit to determine a MAC address, and compares the MAC address with a MAC address of a previously set destination address.

In addition, the packet discriminator sets a data packet excluding a MAC address part as a data packet for charging in a data packet.

The network access device may further include a data processor for receiving the data packet and performing data processing when the destination address of the data packet is compared with a predetermined destination address.

The power charging unit stores a signal based on a potential difference between binary data of 0 and 1 in the received charging data packet.

A method for processing data in a network access device in accordance with an embodiment of the present invention includes the steps of: (a) receiving a data packet from the network communication network; (b) determining a destination address of the data packet in the received data packet; (c) comparing the destination address of the data packet with a preset destination address to determine whether they match; and (d) if the destination address of the data packet does not match the destination address set in advance And charging electric power using the electric signal of the data packet.

The destination address set in advance is an address of the network access device itself.

The determining of the destination address of the data packet in the received data packet is performed by analyzing application layer information of the data packet to determine a MAC address and comparing the MAC address with a predetermined destination address .

Here, the destination address of the data packet is compared with a destination address set in advance, and if the destination address matches, the data packet is processed.

If the destination address of the data packet does not match the destination address set in advance, the data packet excluding the MAC address part in the data packet is set as the charging data packet.

The charging of the electric power using the electric signal of the data packet is characterized by storing a signal by the data potential difference of the binary data packet of 0 and 1.

Thus, the data processing method in the network access device and the network access device according to the present invention is a method of charging the power using the unnecessary garbage packet transmitted to the network access device, supplying the charged power to the network access device Thereby, the power energy of the network access device can be reduced.

1 is a block diagram illustrating a network access apparatus according to an embodiment of the present invention.
2 is an exemplary diagram illustrating a frame of a data packet in a network access apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating a data processing method in a network access apparatus according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the drawings.

1 is a block diagram illustrating a network access apparatus according to an embodiment of the present invention.

As shown in the figure, the network access apparatus according to an embodiment of the present invention is connected to a network communication network and includes a receiving unit 10, a packet determining unit 20, a power charging unit 30, a power supply unit 40, 50).

In the network access apparatus including the above-described components, the receiving unit 10 receives the data packet through the network communication network. Here, a data packet transmitted through a network communication network is a signal form in which binary codes of 0 and 1 are line-coded. That is, the binary coded data packet is transmitted through a physical transmission medium via an electric signal through a line coding operation. Referring to the IEEE 802.3 standard, line coding is performed in Manchester (Manchester) or NRZI (Non-Return-to-Zero) according to a transmission medium. And forwarded to the receiving unit 10.

Here, as a form of digital encoding in the Manchester type information communication, it is a method used when the physical layer of the OSI 7 layer transmits certain signals. In the Manchester method, when one bit is transmitted, a voltage transition occurs at the center of each bit time, and the receiver can find the transmission speed only by looking at the transmitted signal. Therefore, the Manchester method has the effect of facilitating synchronization between the sender and receiver and reducing errors.

The NRZI method is a type of digital encoding and is a method used when a physical layer transmits a certain signal. Each of binary values of '0' and '1' is divided into a positive voltage value and a negative voltage value Value and transmits it.

The packet determining unit 20 receives the data packet received from the receiving unit 10, determines the destination address, and compares the destination address of the data packet with the destination address set in advance. If the destination address is not the same, Packet. Here, the previously set destination address is the address of the network access device itself (the MAC address of the network access device).

The packet discriminator 20 analyzes the application layer information of the data packet received from the receiver 10 to determine the MAC address and compares the MAC address with the MAC address of the destination address set in advance do.

At this time, the packet determining unit 20 refers to the OS layer 7 (Open Systems Interconnection 7 Layer), checks the MAC address managed in the L2 layer of the data packet, Is a predetermined MAC address or the MAC address of its own network access device. Then, the packet discriminator 20 sets the data packet excluding the MAC address part in the data packet as the charging data packet.

A more detailed description of the charging data packet will be described with reference to Fig.

2 is a diagram illustrating a frame of a data packet in a network access apparatus according to an exemplary embodiment of the present invention.

The diagram shows a framework of a data packet and a division of a region. A data packet includes a PREAMBLE 501, a SFD 502, a DESTINATION ADDRESS 503, a SOURCE ADDRESS 504, a LENGTH / TYPE 505 ), A MAC CLIENT DATA 506, a PAD 507, a FRAME CHECK SEQUENCE 508, and an EXTENSION 509.

Here, the packet discrimination unit 20 checks the destination MAC address in the DESTINATION ADDRESS 503, confirms the PREAMBLE 501, the SFD 502, and the DESTINATION ADDRESS 503, The LENGTH / TYPE 505, the MAC CLIENT DATA 506, the PAD 507, the FRAME CHECK SEQUENCE 508, and the EXTENSION 509 to the power charging unit 30.

For example, referring to the IEEE 802.3 standard, a frame size of a data packet received through the receiving unit 10 has a minimum size of 64 bytes to a maximum of 1518 bytes, and a frame size from a preamble (PREAMBLE) to a destination MAC address is 14 bytes . Accordingly, when the received MAC address is not the destination MAC address, the data signal of at least 50 bytes to a maximum of 1504 bytes excluding the destination MAC address confirmation frame of 14 bytes can be transmitted to the power charging unit 30, It is possible to charge the electric power.

If the destination address of the received data packet matches the destination address set in advance, the packet discrimination unit 20 transmits the data packet to the data processing unit 50 if they match.

The data processing unit 50 receives the data packet from the packet determining unit 20 and performs data processing for the next step. That is, the data processor 50 processes the data packet so that the received data packet is operated in the next layer.

On the contrary, the packet discrimination unit 20 compares the destination address of the received data packet with the destination address set in advance, and if the destination address does not match, transmits the charging data packet to the power charging unit 30. That is, the power charging unit 30 receives the charging data packet from the packet determining unit 20 and charges the power using the electric signal of the charging data packet.

Here, the power charging unit 30 stores a signal based on a potential difference between binary data of 0 and 1 in the received charging data packet. More specifically, the power charging unit 30 is configured by a power charging circuit. When the binary data packets of 0 and 1 are transmitted from the packet determining unit 20, the frequency components are supplied through the capacitors included in the power charging circuit And is charged for a time constant (tau) through the DC component of the frequency component.

On the other hand, the time constant (τ) is the time until the quantity reaches 62.3% of the normal value when the physical quantity changes exponentially with time and reaches the normal value. In the case of the series RC circuit, Can be represented by the product of the capacitance of the capacitor (see Equation 1). Then, when 5τ, which is five times the time constant (τ), the capacitor is fully charged and then discharged after 5τ.

τ = R × C

τ: Time constant (unit: sec)

R: Resistance (in ohms)

C: Capacitor (Unit: F)

Thereafter, the power supply unit 40 receives power from the external power supply and the power charging unit 30, and supplies power to the network access apparatus. Accordingly, the network access device can reduce the use of the external power source by receiving the external power and receiving the charged power from the power charging unit 30, thereby reducing the total power consumption of the network access device .

3 is a flowchart illustrating a data processing method in a network access apparatus according to an embodiment of the present invention.

As shown in the figure, a data processing method in a network access apparatus according to an exemplary embodiment of the present invention includes: (a) receiving a data packet from a network communication network (S100); Here, a data packet transmitted through a network communication network is a signal in the form of a line-coded binary code of 0 and 1, and is transmitted through a physical transmission medium through an electrical signal through a line coding operation.

Then, (b) the destination address of the data packet in the received data packet is recognized (S110). (C) The destination address of the data packet is compared with the destination address set in advance, and it is determined whether or not they match (S120). The destination address set in advance is an address of the network access device. To identify the destination address of the data packet is to analyze the application layer information of the received data packet to determine the MAC address (Media Access Control Address) Compare the MAC address with the MAC address of the destination address set in advance.

This determines whether the received data packet is determined as a garbage data packet and is used as a charging power source for the network access device or transferred to the next layer for data processing.

If it is determined in step S120 that the destination address of the data packet does not match the destination address previously set, power is charged using the electric signal of the received data packet (S130). At this time, the data packet excluding the MAC address portion is set as the data packet for charging, and the power is charged with the set charging data packet. Here, the power charging using the electric signal of the data packet is to store the signal by the data potential difference of the data packet binarized to 0 and 1. In more detail, if the binary data packet of 0 and 1 is determined to be a charging data packet, the frequency component of the data packet is removed through the capacitor included in the power charging circuit, and the time constant (tau).

As a result, the network access device receives the external power and the electric power charged in step S130, and the more the electric power is charged, the more the external power supply can be reduced, and the total power consumption of the network access device can be reduced.

(e) On the contrary, if the destination address of the data packet is compared with the destination address set in advance in step S120, the data packet is processed in step S140. That is, the data processing unit performs data processing on the data packet so that the transmitted data packet is operated in the next layer.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention.

10: Receiving unit 20: Packet discrimination unit
30: Power measurement unit 40: Power supply unit
50: Data processing section

Claims (12)

1. A network access device connected to a network communication network,
A receiving unit for receiving a data packet through the network communication network;
Receiving a data packet received from the receiving unit, determining a destination address of the data packet, comparing a destination address of the data packet with a destination address set in advance, and setting the data packet as a charging data packet Discrimination unit;
A power charging unit which receives the charging data packet from the packet determination unit and charges power using an electrical signal of the charging data packet;
And a power supply unit receiving power from an external power source and the power charging unit to supply power to the network access device.
The method of claim 1,
And said predetermined destination address is the address of said network access device itself.
The method of claim 1,
The packet determining unit analyzes application layer information of the data packet received from the receiving unit to determine a MAC address (Media Access Control Address), and compares the MAC address with a MAC address of a preset destination address. Access device.
The method of claim 3, wherein
And the packet determining unit sets a data packet excluding a MAC address portion as a charging data packet in the data packet.
The method of claim 1,
Wherein the network access device further comprises a data processing unit for receiving the data packet and performing data processing when the destination address of the data packet is compared with a destination address set in advance and there is a match.
The method of claim 1,
The power charger stores a signal due to a potential difference between 0 and 1 binary data in the received charging data packet.
A method for processing data in a network access device connected to a network communication network,
(a) receiving a data packet from the network communication network;
(b) determining a destination address of the data packet in the received data packet;
(c) comparing a destination address of the data packet with a preset destination address to determine whether they match
(d) in step (c), if the destination address of the data packet does not match a preset destination address, charging the power using an electrical signal of the data packet. Method of processing data on the device.
The method of claim 7, wherein
And in step (c), the preset destination address is the address of the network access device itself.
The method of claim 7, wherein
In the step (b), determining the destination address of the data packet in the received data packet is to determine the MAC address by analyzing the application layer information of the data packet, and compares the MAC address with a preset destination address A data processing method in a network access device, characterized in that.
The method of claim 7, wherein
Wherein the step (c) compares the destination address of the data packet with a destination address set in advance, and if the destination address matches the data packet, the data packet is processed.
The method of claim 7, wherein
In the step (c), if the destination address of the data packet and the preset destination address do not match, in the network access device, the data packet except for the MAC address portion of the data packet is set as a charging data packet. How data is processed.
The method of claim 7, wherein
In the step (d), charging the power by using the electrical signal of the data packet, the data processing method in the network access device, characterized in that for storing the signal due to the data potential difference of the data packet binarized to 0 and 1. .

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