KR20120021564A - Method and apparatus for allocating dynamic bandwidth in the access point - Google Patents

Abstract

PURPOSE: A method for dynamically allocating a bandwidth of an AP and a system thereof are provided to dynamically allocate a bandwidth in consideration of a transmission rate of a wireless Internet service that a terminal uses. CONSTITUTION: If a change of a transmission rate of a wireless Internet service that a terminal uses is recognized, an access point changes a bandwidth allocated to a corresponding terminal according to the change of the transmission rate(S303,S305,S307,S311). The access point changes a clock by a clock adjusting request according to the changed bandwidth(S309,S313). A PCI(Peripheral Component Interconnect) and a WAN(Wide Area Network) operate according to the changed clock.

Description

APD dynamic bandwidth allocation method and system {METHOD AND APPARATUS FOR ALLOCATING DYNAMIC BANDWIDTH IN THE ACCESS POINT}

The present invention relates to a method and system for allocating a dynamic bandwidth of an AP. Specifically, the present invention relates to a dynamic bandwidth allocation according to a transmission rate of a terminal connected to a wireless access point (AP), which is a wireless network access device, and to changing a clock in consideration of bandwidth. The present invention relates to a method and system for allocating dynamic bandwidth of an AP so that power can be saved through the present invention.

The bandwidth allocation method currently used by the AP or the wired / wireless router allocates the maximum bandwidth that can be provided according to the received signal strength of the access terminal. Wireless access equipment that conforms to the IEEE 802.11g standard allocates a maximum bandwidth of 54Mbps when the received signal strength is above a certain amount. If the terminal is receiving Internet search service using the bandwidth of 3 Mbps, the bandwidth of 51 Mbps between the terminal and the AP is wasted, which eventually causes the AP to consume power and waste energy in order to allocate more unnecessary 51 Mbps bandwidth. have.

That is, the conventional maximum bandwidth allocation according to the received signal strength of the terminal has a problem of radio resources and power waste.

The present invention has been made in view of the above problems, and allocates dynamic bandwidth according to the transmission rate of a terminal accessing a wireless AP, which is a wireless network access device, and saves power by changing a clock in consideration of bandwidth. The purpose is to provide a dynamic bandwidth allocation method of an AP.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In accordance with an aspect of the present invention, there is provided a method for dynamically allocating an AP according to an aspect of the present invention. step; Changing a bandwidth allocated to a corresponding terminal in response to a change in a transmission rate with respect to a transmission rate of the wireless Internet service; And requesting clock adjustment according to the changed bandwidth, and changing a clock of a phase locked loop (PLL) according to the clock adjustment request, wherein the PCI and WAN operate according to the clock changed from the PLL. It is characterized by that.

Preferably, the rate change is characterized by determining that the rate change occurs when the rate increase is confirmed by checking the rate of increase and decrease of the corresponding terminal to the allocated bandwidth of each terminal.

Preferably, the step of changing the bandwidth, if the change in the rate is recognized, determining whether the change in the rate of change; Adjusting the bandwidth allocated to the terminal when the rate of change increases; And if the change in the transmission rate decreases, adjusting the bandwidth by downgrading the bandwidth allocated to the terminal.

Preferably, the step of changing the clock may include: adjusting the clock of the PLL if the bandwidth is adjusted upward; And adjusting the clock of the PLL when the bandwidth is down adjusted and changed.

According to another aspect of the present invention, there is provided a dynamic bandwidth allocation system of an AP, comprising: a plurality of terminals having a built-in WLAN module and receiving a wireless Internet service in a wireless environment; And when a change in a transmission rate for a transmission rate of a wireless Internet service requested by the plurality of terminals is used, the bandwidth of the terminal is changed in response to the changed transmission rate, and the clock corresponding to the changed bandwidth is changed to a changed clock. PCI and WAN to operate, characterized in that it comprises an Access Point (AP) for providing the wireless Internet service.

Preferably, the AP, the wireless access unit for performing a wireless connection by allocating a bandwidth to each of the plurality of terminals so as to service the wireless Internet; And changing the bandwidth allocated to the terminal in response to the transmission rate of the wireless Internet service being used by the plurality of terminals, and changing the clock in consideration of the changed bandwidth, so that the terminal may use the wireless Internet service through the wireless access unit. It characterized in that it comprises a main controller for controlling so that.

Preferably, the main controller, the clock generator for generating a clock for the operation of the main controller; A clock adjusting unit for adjusting a clock according to a clock adjusting request and outputting a clock adjusted to PCI and WAN; And a bandwidth controller for recognizing a change in transmission rate of each terminal for a plurality of terminals, changing a bandwidth allocated to the corresponding terminal in response to the change in the transmission rate, and requesting the clock adjustment unit to adjust a clock according to the changed bandwidth. Characterized in that.

Preferably, if the rate change is recognized, the bandwidth controller determines whether the rate change is increased or decreased, and when the rate change increases, the bandwidth controller adjusts the bandwidth allocated to the corresponding terminal, and if the change rate decreases, It is characterized by adjusting the allocated bandwidth down.

Preferably, the bandwidth controller requests that the clock adjuster's clock be adjusted upward when the bandwidth is adjusted upward, and when the bandwidth is adjusted after the bandwidth is lowered, the bandwidth controller requests to adjust the clock of the clock adjuster. .

According to the above-mentioned problem solving means, the present invention allocates bandwidth in consideration of the transmission rate of the wireless Internet service used by the terminal in the bandwidth allocation of the terminal in the wireless connection environment between the AP and the terminal, thereby reducing resource waste according to the bandwidth. It has the effect of reducing.

In addition, the power can be reduced by changing the clock to allocate the dynamic bandwidth according to the transmission rate of the terminal accessing the wireless AP.

1 is an exemplary diagram for explaining a schematic operation of a dynamic bandwidth allocation system of an AP according to an embodiment of the present invention.
2 is a block diagram showing the internal configuration of the AP in FIG.
3 is a flowchart illustrating a dynamic bandwidth allocation method of an AP according to an embodiment of the present invention.

In the following description, specific details of the method for dynamic bandwidth allocation of an AP of the present invention are presented to provide a more general understanding of the present invention, in which the present invention may be readily implemented without these specific details and also by modification thereof. It will be apparent to those skilled in the art.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail, focusing on the parts necessary to understand the operation and action according to the present invention.

1 is an exemplary diagram for describing a schematic operation of a dynamic bandwidth allocation system of an AP according to an embodiment of the present invention.

Referring to FIG. 1, first of all, a schematic operation of a dynamic bandwidth allocation system of an AP in order to help understanding of the present invention may include a plurality of terminals and an AP. Here, the AP is the same as the function of the general AP, and connects the wired and wireless network to enable data transmission and reception between the wireless customer and the wired network. In addition, the terminal is a mobile device, which is any one of a laptop, a PDA, a mobile phone, and a wireless Internet-enabled terminal, and must be equipped with a wireless LAN module to perform wireless communication with the AP 500 to receive wireless Internet service. This will be explained on the premise.

In order to help the understanding of the present invention, the terminal # 1 (200) and the terminal # 2 (210) are illustrated as a plurality of terminals in FIG.

The dynamic bandwidth allocation system of the AP of the present invention is configured such that the terminal # 1 (200) and the terminal # 2 (210) in a wireless environment and a wireless network with the AP (Access Point) 500, which is a wireless network access device, AP (500) ) Is configured to support and service the wireless Internet service requested by the terminal # 1 (200) and the terminal # 2 (210), respectively. In this case, the AP 500 includes a wireless access unit 510 and a main controller 520. The wireless access unit 510 transmits and receives a wireless signal to and from the terminal # 1 200 and the terminal # 2 210. The main controller 520 is the same as the kernel for driving the AP 500 and performs control and operation for hardware operation.

The terminal # 1 200 and the terminal # 2 210 are each provided with a wireless Internet service through the AP 500 in a wireless environment.

At this time, the AP 500 performs a wireless communication with a wireless LAN module (not shown) built in the terminal # 1 200 and the terminal # 2 210 through the wireless access unit 300 to use a wireless Internet service. Provide an internet environment. In this case, the AP 500 may restrict access to use the wireless Internet service only for a specific terminal. Then, whether to allow access to the wireless Internet allows access when the password of the preset AP 500 and the password input through the terminal to start the wireless Internet service, and the password input through the terminal and the preset AP ( If the password of 500) does not match, the wireless internet service is restricted.

Thereafter, the terminal # 1 200 and the terminal # 2 210, which are allowed to access the wireless Internet, initiate a wireless Internet service through the AP 500.

At this time, the AP 500 determines whether a change in the transmission rate for the transmission rate of the service used by the terminal # 1 200 and the terminal # 2 210 is recognized, and when the change rate is recognized, the AP 500 optimizes according to the changed transmission rate. Provides a clock that is optimized for power savings. In this case, the recognition of the change in the transmission rate is possible by collecting and transmitting packet measurement and analysis and transmission rate measurement by the AP, and a description thereof is already known, and thus a detailed description thereof will be omitted.

The internal configuration of the AP 500 will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the internal configuration of the AP in FIG.

2, the AP 500 according to the present invention includes a wireless connection unit 510 and a main controller 520.

The wireless access unit 510 performs a wireless connection with a plurality of terminals to service the wireless Internet. At this time, the wireless access unit 510 changes the bandwidth considering the transmission rate of the wireless Internet service used by each of the plurality of terminals and services the wireless Internet.

For example, the WLAN module of the terminal # 1 (200) and the terminal # 2 (210) and the AP 500 of the wireless access unit 510 performs communication for a wireless Internet service.

The main controller 520 changes the bandwidth allocated to the terminal in response to the transmission rate of the wireless Internet service being used by the plurality of terminals, and changes the clock of the clock adjusting unit in consideration of the changed bandwidth.

As illustrated in FIG. 2, the main controller 520 includes a clock generator 521, a clock adjuster 522, a bandwidth controller 523, a memory controller 524, a PCI 525, and a WAN. And 526.

The clock generator 521 generates a clock for the operation of the main controller.

The clock adjuster 522 adjusts the clock received from the clock generator 521 according to the clock adjust request of the bandwidth controller 523. At this time, the clock adjusting unit 522 changes the clock according to each chip.

For example, the clock adjusting unit 522 may be a phase locked loop (PLL). Thus, the PLL outputs the changed clock to the PCI 525 and WAN port 526 sides.

The bandwidth controller 523 recognizes the change in the transmission rate of each terminal for the plurality of terminals, changes the bandwidth allocated to the corresponding terminal in response to the change in the transmission rate, and adjusts the clock according to the changed bandwidth to the clock adjusting unit 522. request. In addition, the bandwidth controller 523 controls the overall operation for the operation of the AP.

The memory controller 524 allows a series of programs related to the operation of the AP to be stored and managed.

Peripheral Component Interconnect (PCI) 525 allows the wireless connection 510 and the main controller 520 to interface with each other. In addition, the PCI 525 operates by a clock received from the clock adjuster 522.

WAN port 526 is a port that can be connected to the wired Internet cable that is introduced into the room for the Ethernet (530).

3 is a flowchart illustrating a dynamic bandwidth allocation method of an AP according to an embodiment of the present invention.

Referring to FIG. 3, first, the AP 500 receives a wireless Internet service request from at least one terminal that wants to use the wireless Internet service, and provides a wireless Internet service to the corresponding terminal (S301).

Thereafter, the AP 500 determines whether a change in a transmission rate with respect to a transmission rate of a wireless Internet service that the terminal is using is recognized (S303).

As a result of the determination, if a change in the transmission rate with respect to the transmission rate of the wireless Internet service is not recognized, the AP 500 periodically recognizes whether the change in the transmission rate.

However, as a result of the determination, when a change in the transmission rate with respect to the transmission rate of the wireless Internet service is recognized, the AP 500 determines whether the change in the transmission rate has increased (S305).

If the change rate is increased, the AP 500 adjusts the bandwidth allocated to the terminal (S307).

Thereafter, the AP 500 adjusts the clock applied to the PCI 525 and the WAN port 526 in consideration of the bandwidth being increased (S309).

On the other hand, if the change in the transmission rate decreases as a result of the determination in step 305 (S305), the AP 500 adjusts the bandwidth allocated to the terminal down (S311).

Thereafter, the AP 500 adjusts the clock applied to the PCI 525 and the WAN port 526 in consideration of the bandwidth being adjusted downward (S313).

The clocks applied to the PCI 525 and the WAN port 526 in steps 309 and 313 may be performed using, for example, a phase locked loop (PLL).

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

Claims (11)

Determining whether a change in a transmission rate with respect to a transmission rate of a wireless Internet service being used by the terminal is recognized;
Changing a bandwidth allocated to a corresponding terminal in response to a change in a transmission rate with respect to a transmission rate of the wireless Internet service; And
And requesting clock adjustment according to the changed bandwidth and changing a clock according to the clock adjustment request to operate the PCI and the WAN according to the changed clock.
The method of claim 1, wherein the rate change is,
Dynamic rate allocation method of the AP, characterized in that the transmission rate change is confirmed by checking the increase and decrease of the transmission rate of the corresponding terminal to the allocated bandwidth of each terminal, it is determined that the change in the rate.
The method of claim 1, wherein changing the bandwidth comprises:
Determining whether the rate change is increased or decreased when the rate change is recognized;
Adjusting the bandwidth allocated to the terminal when the rate of change increases; And
And if the rate change decreases, the bandwidth is changed by downgrading the bandwidth allocated to the terminal.
The method of claim 1, wherein changing the clock comprises:
If the bandwidth is adjusted upward, changing the clock correspondingly; And
And adjusting the clock accordingly when the bandwidth is down-regulated and changed.
The method of claim 4, wherein the clock change,
Dynamic bandwidth allocation method of an AP characterized by using a phase locked loop (PLL).
A plurality of terminals having a built-in WLAN module and receiving a wireless Internet service in a wireless environment; And
When a plurality of terminals request a change in transmission rate for a transmission rate of a wireless Internet service being used, the bandwidth of the terminal is changed in response to the changed transmission rate, the clock corresponding to the changed bandwidth is changed, and the PCI is changed to a clock. And an access point (AP) providing the wireless Internet service by operating the WAN.
The method of claim 6, wherein the AP,
A wireless access unit configured to perform a wireless connection by allocating a bandwidth to each of the plurality of terminals so as to service wireless Internet; And
In response to the transmission rate of the wireless Internet service being used by the plurality of terminals, the bandwidth allocated to the terminal is changed, and the clock is changed in consideration of the changed bandwidth so that the terminal can use the wireless Internet service through the wireless access unit. Dynamic bandwidth allocation system of the AP comprising a main controller for controlling.
The method of claim 7, wherein the main controller,
A clock generator for generating a clock for the operation of the main controller;
A clock adjusting unit for adjusting a clock according to a clock adjusting request and outputting a clock adjusted to PCI and WAN; And
And a bandwidth controller for recognizing a change in the transmission rate of each terminal for a plurality of terminals, changing a bandwidth allocated to the corresponding terminal in response to the change in the transmission rate, and requesting the clock adjustment unit to adjust a clock according to the changed bandwidth. Dynamic bandwidth allocation system of the AP.
The method of claim 8, wherein the bandwidth control unit,
When the change in the rate is recognized, it is determined whether the change in the rate is increased or decreased, and when the change in the rate is increased, the bandwidth allocated to the terminal is adjusted upward.
If the change rate is reduced, the dynamic bandwidth allocation system of the AP, characterized in that to adjust the bandwidth allocated to the terminal down.
The method of claim 8, wherein the bandwidth control unit,
And if the bandwidth is increased and changed, requesting to increase the clock of the clock adjusting unit, and if the bandwidth is adjusted and changing, the request to lower the clock of the clock adjusting unit.
The method of claim 8 or 10, wherein the clock adjustment unit,
A dynamic bandwidth allocation system of an AP, characterized in that it is a phase locked loop (PLL).

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