KR100600728B1 - Server system communicating through the wireless network and its operating method - Google Patents

Abstract

The present invention relates to a server system for communicating via a wireless network including at least one client device for transmitting and receiving data through a wireless network, and a server device for monitoring or controlling the status of the at least one client device. The server device may include a copper wire monitoring unit for monitoring a copper wire according to a movement of a client device user, a copper wire storage unit for storing a wireless communication channel variation state according to the movement of the client device, and the client device monitored by the copper wire monitoring unit. Channel assignment for wireless data communication with the client device by allocating a wireless line determination unit searching for a copper wire matching the current copper line in the copper line storage unit and a wireless communication channel corresponding to the copper line found in the copper line determining unit. Including a control unit Configured, it is possible to reduce unnecessary retransmission attempts by applying predict a communication channel in accordance with the main circulation of the client device, to prevent transmission delay due to this so that a reliable and rapid than the radio communication performed in accordance with.

Wireless network, server, client, auto fallback, copper

Description

Server system communicating through the wireless network and its operating method             

1 is a schematic diagram of a server system for communicating over a wireless network according to the prior art,

2 is a configuration diagram of a server device according to the present invention;

3 is a flowchart illustrating a method of operating a server system according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: server device 20: client device

100: server device 110: copper wire monitoring unit

120: copper line determination unit 130: copper line storage unit

140: channel allocation control unit 150: network renderer

The present invention provides a server system using a wireless network network, which monitors a moving line of a client device receiving data from a server device and stores a communication channel variation state according to a main moving line to predict a communication channel matching the currently monitored copper line. And it relates to a server system for communicating over a wireless network that can reduce the number of data retransmissions by applying and a method of operating the same.

First, FIG. 1 relates to a server system for communicating through a wireless network according to the related art, and with reference to this, a conventional problem will be described.

Basically, a server system that communicates through a wireless network includes a server device 10 and one or more client devices 20, and the server device 10 and the client device 20 transmit data through a wireless network. Since it transmits and receives a wireless network modem for this. In the conventional and the present invention of the present specification, the server device 10 is exemplified as a home server (Internet refrigerator) for controlling a home network network built in a home, and the client device 20 is wirelessly transmitted by the home server. A web pad capable of receiving data will be described as an example.

The home server 10 may be connected to an external medium such as a radio or TV antenna to receive video data. The home server 10 may also be connected to a cable network or an internet network to receive digital content transmitted from a specific server. In response to the request of 20), the received content is wirelessly transmitted.

At this time, if a client device such as a portable web pad moves during communication to move away from the home server 10, the transmittable bandwidth of the wireless network network is reduced, thereby causing a data transmission delay. As a result, not only data loss but also a playback delay occurs and the server device 10 retransmits the lost data when the client device 20 does not receive the normal acknowledgment signal (ACK).

As a result, in a server system that communicates through a conventional wireless network, a communication channel cannot be predicted due to its own instability. In order to overcome this, the client device 20 approaches the server device 10. In this case, an auto fall-back function is implemented to increase the transmission bandwidth.

However, even if the auto-fallback function is implemented in the conventional server device 10, since the distance with the server device 10 had to be calculated after each movement of the client device 20, the communication channel according to the distance had to be applied. There was a problem in that the load was increased because the data throughput was large.

The present invention has been made to solve the above problems of the prior art, the object of which is that the movement of the client device to the server device that communicates with one or more clients over a wireless network network is substantially constant. Through the wireless network network which can reduce the number of data retransmissions by accumulating and storing the change of the moving line and the communication channel according to the predetermined time and predicting and applying the communication channel according to the moving line that matches the storage history when the client device moves. It is intended to provide a server system for communicating.

The configuration of a server system for communicating through a wireless network according to the present invention for solving the above problems is as follows.

A server system for communicating via a wireless network, the server system including at least one client device for transmitting and receiving data through a wireless network, and a server device for monitoring or controlling the status of the at least one client device. A copper wire monitoring unit for monitoring a copper wire according to the movement of the device user, a copper wire storage unit for storing a wireless communication channel variation state according to the movement of the client device, and matching with the current copper wire of the client device monitored by the copper wire monitoring unit. And a channel assignment controller for allocating a wireless communication channel corresponding to the copper wire searched by the copper determination unit and performing wireless data communication with the client device. It is composed.

 In addition, a method of operating a server system that communicates through a wireless network network of the present invention includes a first step of monitoring the copper wire according to the movement of the client device user, and stores the state of the wireless communication channel change according to the copper wire, and the first step A second step of comparing whether the copper wires stored in the network with the current client device are matched with each other; and as a result of the comparison of the second step, the communication is performed by applying a wireless communication channel fluctuation state corresponding to the copper wire of the current client device. And a third step of allocating channels.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. 2 is an internal configuration diagram of a server device according to the present invention, Figure 3 is a flow chart illustrating a method of operation of the server system according to the present invention.

The server device 100 is a device capable of controlling or monitoring one or more client devices connected through a network built in a home. In this embodiment, the server device is illustrated as an Internet refrigerator, and the client device is the Internet refrigerator. An example is a device such as a web pad that receives data from the Internet refrigerator by performing data communication wirelessly with.

The server device 100 and the client device are each equipped with a network modem for wireless networking, and the network modem mounted in the server device is called a network renderer 150.

Since the web pad is portable, wireless communication can be performed within a certain radius around the Internet refrigerator, and have a different transmittable bandwidth according to an access radius to the home server. In this way, the server device 100 implements an auto fall back function to automatically optimize the data rate according to the distance from the access point, and the auto fall back function is an ad-hoc method (one-to-one method) and an infrastructure method ( Networking using access points).

The copper line monitoring unit 110 monitors the copper line according to the movement of the client device. In particular, during the initial predetermined time period in which the server device 100 is constructed, the copper line change of the client device user is continuously tracked and stored in the copper line storage unit 130. The copper line determiner 120 calculates a copper line pattern through accumulated copper lines for a predetermined time stored in the copper line storage unit 130.

That is, the place in the building where the client device user carries and moves from the point where the server device 100 is located is limited to a specific room, a front of a TV, a veranda, and the like, and thus the patterning of copper wires is possible.

And, according to the auto-fallback function implemented in the server device 100 stores the change state of the communication channel applied to each patterned copper wire in the copper wire storage unit 130. As such, a plurality of copper wire patterns generated by the copper line determination unit 120 are generated during a predetermined time period when sufficient statistical data enough to determine the copper line pattern is accumulated.

When the current copper wire of the client device monitored by the copper wire monitoring unit 110 is transferred to the copper wire determination unit 120, the copper wire determination unit is the current copper wire and the copper wire history stored in the copper storage unit 130 (copper pattern) Search for a matching copper wire pattern by comparing

If the copper line pattern matching the current copper line is searched by the copper line determination unit 120, the channel assignment control unit 140 calculates based on the copper line stored in the copper line storage unit 130 and the communication channel change state accordingly. Changes the bandwidth of the communication channel with the client device.

However, when a copper pattern matching the current copper line is not found, the copper line determining unit 120 determines that the new copper line is not a previously patterned copper line and stores it in the copper line storing unit 130, and has an auto fallback function. The communication channel state that changes along the new copper wire is also stored in the copper wire storage unit 130.

Referring to Figure 3 describes the operation of the server system for communicating over the wireless network of the present invention.

First, the server device may monitor the copper wire according to the movement of the user of the client device, and pattern the copper wire based on the accumulated data by storing the wireless communication channel variation state according to the copper wire.

Determine the moving line according to the movement of the current client device.

Comparing whether the currently monitored copper wire matches the previously stored copper wire pattern (S3), and when the matching copper wire pattern is found as a result of the comparison, the communication channel state according to the copper wire is applied as it is, reducing the calculation amount of the server device, and a faster communication channel. Allow changes to be made (S4).

If a copper wire pattern matching the currently monitored copper wire is not found, it is determined as a new copper wire and the communication channel applied in real time by auto fallback is stored so that the communication channel can be directly applied without further calculation. S5)

As described above with reference to the illustrated drawings a server system for communicating via a wireless network according to the present invention on a copper wire, the present invention is not limited by the embodiments and drawings disclosed herein, the technical idea of the present invention It can be applied by those skilled in the art within this protected range.

The server system and the operation method for communicating through the wireless network of the present invention configured as described above and the copper wire pattern of the client device for a predetermined time by accumulating and storing the communication channel, and generates a copper wire pattern, the currently monitored client device By directly applying a communication channel along a copper wire pattern that matches the copper wire of, the computational throughput of the server device can be reduced and the number of data retransmissions can be reduced, thereby improving the stability of the wireless network system.

Claims (5)

At least one client device for transmitting and receiving data over a wireless network; In the server system for communicating over a wireless network including a server device for performing the status monitoring or control of the at least one client device, The server device may include a copper line monitoring unit configured to monitor a copper line according to a movement of a client device user; A copper wire storage unit for storing a wireless communication channel variation state according to the movement of the client device; A copper line determining unit searching for the copper line matching the current copper line of the client device monitored by the copper line monitoring unit in the copper line storage unit; And a channel assignment control unit for allocating a wireless communication channel corresponding to the copper wire searched by the copper wire determination unit to perform wireless data communication with the client device. . The method of claim 1, The server device is a server system for communicating through a wireless network, characterized in that the automatic fall-back (Auto Fall-Back) function is implemented that the transmission rate is automatically changed in proportion to the distance to the client device. The method of claim 1, If the current copper line of the client device does not match the details previously stored in the copper line storage unit, the copper line determination unit allows the new copper line and wireless communication channel variation state to be stored in the copper line storage unit. Server system to communicate via.  At least one client device for transmitting and receiving data over a wireless network; In the server system for communicating over a wireless network including a server device for performing the status monitoring or control of the at least one client device, A first step of monitoring a moving line according to the movement of the client device user and storing a change state of the wireless communication channel according to the moving line; A second step of comparing whether the copper wire stored in the first step matches the copper wire of the current client device; And a third step of allocating a communication channel by applying a change state of a wireless communication channel corresponding to a copper wire that matches the current copper wire of the client device as a result of the comparison of the second step. How the server system works. The method of claim 4, wherein The third step may further include a step of newly storing a wireless communication channel variation state according to the current copper line when the copper line matching the copper line of the client device is not found. How server systems work.

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