KR20110070794A - Adaptive power-saving/power-saving support method in wireless communication system and apparatus using the same - Google Patents

Abstract

PURPOSE: An adaptive power saving/power saving support method of a wireless communication system and an apparatus implementing the same are provided to adaptively save power minimizing the modification of the MAC layer of an existing system. CONSTITUTION: The PSC(Power Save Coordinator) module of an AP(Access Point) transmits the power saving capability information of the AP to the MAC(Medium Access Control) layer module of the AP(S302). The MAC layer module of the AP transmits the power saving capability information of a station transmitted from the MAC layer module of the station to the PSC module of the AP(S312). The PSC module of the AP creates power saving support policy information on the basis of the power saving policy information of the station. The PSC module supports the power saving of the station(S320).

Description

ADAPTIVE POWER-SAVING / POWER-SAVING SUPPORT METHOD IN WIRELESS COMMUNICATION SYSTEM AND APPARATUS USING THE SAME}

The present invention relates to an adaptive power saving method / power saving support method and a device for performing the same in a wireless communication system.

In an IEEE 802.11 wireless LAN system, one access point (AP) communicates with one or more stations. At this time, when the station enters a power-save mode, the access point stores the packet to be transmitted to the station and delivers the stored packet when the station can receive it. As such, the various forms of power-save schemes defined by IEEE 802.11, 802.11e, and 802.11n focus on more efficiently delivering packets stored at the access point to the station. It is customized and may be added in the future as various schemes are proposed. On the other hand, power saving support methods and implementations in access points are described as non-standard.

Therefore, it is not easy to effectively utilize the power-save scheme, which can be further discussed in the implementation situation of numerous stations and access points and future compatible systems.

In addition, there is a problem in that there is no method that can effectively support traffic having different characteristics caused by various situations of the station and various services on the station-side. In addition, there is a problem in that there is no method that can more effectively support power saving in consideration of the situation of such a station at the access point side.

Accordingly, an object of the present invention is to solve the above problems, and to provide an adaptive power saving method that effectively utilizes various power-save schemes in a wireless communication system and reflects the situation of stations and access points. For work purposes.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention, which are not mentioned above, can be understood by the following description, and more clearly by the embodiments of the present invention. It will also be appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

In order to achieve the above object, an adaptive power saving method in a station of a wireless communication system according to an embodiment of the present invention is a method of adaptively power saving in a station of a wireless communication system. Receiving first power-save capability information from the access point, the first power-save capability information including information on a supported power saving scheme; In response to the first power saving capability information, transmitting second power saving capability information including information on a power saving scheme supported by the MAC layer of the station to the access point; Transmitting power-save policy information reflecting characteristics of traffic used at the station to the access point; And performing a power saving function in association with the MAC layer of the station according to the power saving policy information based on a predetermined power saving scheme, wherein the predetermined power saving scheme includes: The power saving scheme supported and the power saving scheme supported by the MAC layer of the station are common.

In a method of supporting adaptive power saving in an access point of a wireless communication system according to an embodiment of the present invention, the method for supporting an adaptive power saving of a station by an access point of a wireless communication system, the MAC layer of the access point Transmitting first power saving performance information to the station, the first power saving performance information including information on a power saving scheme that the system supports; Receiving second power saving performance information transmitted by the station in response to the first power saving performance information, the second power saving performance information including information on a power saving scheme supported by the MAC layer of the station; Receiving power saving policy information from the station reflecting characteristics of traffic used at the station; And performing a power saving support function for the station in association with a MAC layer of the access point according to power-save support policy information based on a predetermined power saving method. The predetermined power saving scheme is common between a power saving scheme supported by the MAC layer of the access point and a power saving scheme supported by the MAC layer of the station, and the power saving support policy information is based on the power saving policy information. As such, it is created taking into account the situation of required resources.

A station of a wireless communication system according to an embodiment of the present invention includes a station adaptively saving power in a wireless communication system, comprising: a MAC layer; A receiving module for receiving first power saving performance information from the access point, the first power saving performance information including information on a power saving scheme supported by an MAC layer of an access point; A transmission module for transmitting second power saving performance information including information on a power saving scheme supported by the MAC layer of the station and power saving policy information reflecting characteristics of traffic used in the station; And a power saving coordination module controlling the MAC layer and the transmitting module of the station to transmit the second power saving performance information in response to the first power saving performance information, and to transmit the power saving policy information. The power saving adjustment module performs a power saving function in association with the MAC layer of the station according to the power saving policy information based on a predetermined power saving scheme, and the predetermined power saving scheme is the access point. The power saving scheme supported by the MAC layer and the power saving scheme supported by the MAC layer of the station are common.

An access point of a wireless communication system according to an embodiment of the present invention comprises: an access point supporting adaptive power saving of a station in a wireless communication system, comprising: a MAC layer; A transmission module for transmitting first power saving performance information including information on a power saving scheme supported by the MAC layer of the access point to the station; Receive second power saving performance information transmitted by the station in response to the first power saving performance information, the second power saving performance information including information on a power saving scheme supported by the MAC layer of the station, and transmitted by the station; A receiving module for receiving power saving policy information reflecting characteristics of traffic used at the station; And a power saving adjustment module for controlling the MAC layer and the transmission module of the access point to transmit the first power saving performance information to the station, wherein the power saving adjustment module is based on a predetermined power saving scheme. According to the power saving support policy information, the power saving support function for the station is performed in association with the MAC layer of the access point, and the predetermined power saving method is a power saving method supported by the MAC layer of the access point and the The power saving scheme supported by the MAC layer of the station is common, and the power saving support policy information is generated in consideration of the necessary resource situation based on the power saving policy information.

According to the present invention, it is possible to expect the effect of adaptive power saving while minimizing modification to the MAC layer of the existing system. In addition, according to the present invention, the access point as well as the station dynamically changes the power saving policy and the power saving support policy in consideration of the current situation, whereby the power can be adaptively saved. In addition, since the present invention is a MAC-independent power saving method that adaptively utilizes various MAC-dependent power saving methods, a new power saving method can be easily applied to an existing system through minimal function upgrade such as firmware upgrade. can do.

1 is a diagram illustrating the structure of a wireless communication system.
2 is a diagram illustrating a configuration of a station and an access point according to an embodiment of the present invention.
3 is a view showing a power saving method according to an embodiment of the present invention.

The above and other objects, features, and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings, which are not intended to limit the scope of the present invention. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

1 is a diagram illustrating the structure of a wireless communication system. Referring to FIG. 1, a wireless communication system to which the present invention is applied includes one base station (or access point) 100 and one or more terminals (or stations) 110-1,..., 110-n. . Hereinafter, description will be made using terms of an IEEE 802.11 wireless LAN for convenience of description and ease of presentation of a service model, and the present invention is described in terms of an access point (hereinafter, referred to as an 'AP') and a station. It is not limited.

The present invention utilizes a power-save scheme in various existing media access control (MAC) layers in a wireless communication system, and considers a situation of a station and an AP. It's about saving. In other words, it is possible to efficiently utilize various power saving methods defined or newly added, and at the same time, to adaptively save power by considering the situation of stations and APs, and related APs and stations. It is about.

First, a configuration of a station and an AP will be described with reference to FIG. 2. The station and the AP each use an application layer module 202, a power save coordinator (PSC) module 206, a MAC layer module 210, and a physical layer module 212. Include.

The application layer module 202 may provide various applications for communication and data reproduction / management through a network. The application layer module 202 may receive data from a user and transmit the data to a module of a lower layer through various applications, and transmit data received from the module of the lower layer to the user. The data may include various types of data such as image data, audio data, image data, and text data.

The power saving adjustment module 206 (hereinafter referred to as a 'PSC module') is interworked with the upper application layer module 202 through the PS-user-interface Application Programming Interface (API) 204 and the MAC-interface API 208. In conjunction with the lower MAC layer module 210 through, to perform the power saving method according to the present invention.

The MAC layer module 210 may perform a power saving scheme supported by the existing MAC layer, and may further perform various newly added power saving schemes. The MAC layer module of the station receives signals from the PSC module 206 of the station, drives various kinds of power saving schemes according to the received signals, and controls each hardware module for power saving.

The physical layer module 212 is responsible for transmitting and receiving substantial data. That is, the transmitting module in the physical layer 212 converts the data received from the upper layer into an electrical signal and transmits it to the receiving side through the network, and the receiving module in the physical layer 212 receives the electrical signal received from the transmitting side through the network. Restores the data to the upper layer.

What the respective components of the station and the AP perform in connection with the present invention will be described in detail below.

Hereinafter, a power saving method according to an embodiment of the present invention will be described with reference to FIG. 3. In this case, message transmission and reception between the MAC layer module 104 of the AP and the MAC layer module 114 of the station is performed through the physical layer module of the AP and the physical layer module of the station, as described with reference to FIG. 2. Also, power-save capability information of the AP, power-save performance information of the station, power-save policy information of the station, and power-saving support policy information of the AP described in FIG. The power-save support policy information may be transmitted through a newly defined information element or available reserved field in an existing message, or may be transmitted through a new message.

First, in step S302, the PSC module 102 of the AP transmits power saving performance information of the AP to the MAC layer module 104 of the AP. For example, the power saving performance information of the AP may include information about whether the AP supports the PSC module and a power saving scheme supported by the AP. The power saving performance information will be described below.

In step S304, the MAC layer module 104 of the AP transmits power saving performance information of the AP received from the PSC module 102 of the AP to the MAC layer module 114 of the station. In one embodiment, the power saving performance information of the AP may be transmitted in a beacon message or probe response message used in IEEE 802.11. Here, the beacon message refers to a message that is periodically broadcasted by the AP, including the information necessary for the station to access it, and the probe response message is actively used by the station to discover what AP is in its vicinity. ) A response message to a probe request message broadcasted to an AP.

In step S306, the MAC layer module 114 of the station transmits power saving performance information of the AP received from the MAC layer module 104 of the AP to the PSC module 112 of the station.

In step S308, the PSC module 112 of the station transmits power saving performance information of the station to the MAC layer module 114 of the station. In one embodiment, the power saving performance information of the station may include information on whether the station supports the PSC module and the power saving scheme supported by the station. The power saving performance information will be described below.

In step S310, the MAC layer module 114 of the station transmits power saving performance information of the station received from the PSC module 112 of the station to the MAC layer module 104 of the AP. In one embodiment, the power saving performance information of the station may be transmitted as included in an association related message defined in the existing MAC. In other words, a process in which a station that selects an appropriate AP by the discovery process connects to the AP is called a joining process. It can be included and transmitted.

In step S312, the MAC layer module 104 of the AP transmits power saving performance information of the station received from the MAC layer module 114 of the station to the PSC module 102 of the AP.

Hereinafter, power saving performance information defined in the present invention will be described. The power saving performance information may include one or more of information on whether the PSC module is supported, a supported power saving scheme, a notification period of the power saving performance information, and a valid period of the power saving performance information.

The power saving scheme refers to a power saving mechanism supported by the MAC layer. For example, the power saving scheme may be Legacy, Automatic Power Save Delivery (APSD), and Power Save Multi-Poll (PSMP) used in IEEE 802.11. In this case, a unique identifier may be assigned to each scheme, and the AP and the station may inform the counterpart by displaying an identifier of a power saving scheme supported by the AP and the station, respectively.

The notification period of the power saving performance information refers to a period of notifying the other party of the power saving performance information, and may be expressed as a single value (for example, one day) or may be represented by a minimum value and a maximum value (for example, 1 day to 1 month).

The validity period of the power saving performance information means a period during which the transmitted power saving performance information is valid. Therefore, the device receiving the power saving performance information no longer uses the power saving performance information after this validity period. In another embodiment, when the notification period of the power saving performance information is represented by one value, the notification period may indicate the valid period of the power saving performance information.

Through the steps S302 to S312, the AP and the station know the power saving performance information of the other party, respectively. After confirming that both the AP and the station support the PSC module, the power saving method according to the present invention can be used. In addition, the AP and the station may determine which power saving scheme to use based on the power saving performance information. For example, if the AP can support both Legacy, APSD, and PSMP, and the station can support Legacy and PSMP, the AP and station can negotiate and select one of Legacy and PSMP, and the AP and station can You can prepare and manage the resources you need to do it.

Next, in step S314 of FIG. 3, the PSC module 112 of the station determines the power saving policy information of the station and transmits it to the MAC layer module 114 of the station. The power saving policy information is described in detail below.

Then, the MAC layer module 114 of the station transmits the power saving policy information of the station received from the PSC module 112 of the station to the MAC layer module 104 of the AP (S316), and the MAC layer module of the AP ( 104 transmits the power saving policy information of the station received from the MAC layer module 114 of the station to the PSC module 102 of the AP (S318). In one embodiment, in step S314 to S318, the power saving policy information may be transmitted in a message indicating that the station enters a power saving mode (Power-save On Signaling message).

Hereinafter, the power saving policy information defined in the present invention will be described. The power saving policy information refers to information representing a policy on power saving of the station, and may represent a power saving policy in consideration of the situation of the station. The characteristics of the traffic used at the station vary. For example, the characteristics of the traffic for each service of the application layer module 202 may vary. In addition, traffic having mutually opposite characteristics may coexist. Therefore, in one embodiment, the power saving policy may be represented in consideration of the characteristics of the traffic used at the station. The power saving policy information may be represented using one or more of two methods described below.

First, the PSC module 112 of a station may classify the situation of the station into several categories according to its characteristics, and display power saving policy information using one or more of the categories. At this time, each category may have a predetermined weight. In one embodiment, the PSC module 112 of the station is configured to determine the traffic used in the station according to its characteristics, according to the four access categories defined by IEEE 802.11e-VO (voice), VI (video), BK ( background) and BE (best-effort). For example, applications belonging to each category may include VO for voice communication, VI for video communication, BK for e-mail, and BE for web browsing. For example, since traffic belonging to the VO category is most sensitive to delay, traffic belonging to the BE category is least sensitive to delay, giving the highest weight to the VO category, VI being second, BK third, and BE Fourth, high weight can be given. As described above, different characteristics of traffic may coexist at the station. For example, at a station, a web phone (VoIP) belonging to the VO category and web browsing or data download belonging to the BE category can be driven together. In this case, in various embodiments, the PSC module 112 of the station may display only the category with the highest weight in the power saving policy information, or may display only the category of the most used traffic, or two or more categories. Can also be displayed together.

Second, the PSC module 112 of the station defines a key factor indicating the status of the station, and assigns a weight composed of a range of values for each major element to display the power saving policy information in various ways. Can be. In one embodiment, key factors may be defined that represent the characteristics of the traffic used at the station, for example, latency, real-timeness, high performance processing. high-throughput, delay, packet error rate (PER), and the like. When weighting each key element, the weight is given to reflect the sensitivity to each key element. In one embodiment, the more sensitive each element is, the higher the weighting. In addition, the weight may be represented by a constant value (eg, 3) or may be represented by a certain range (eg, 2 to 4). The PSC module 112 of the station may display in the power saving policy information any one or more of weights for each major element and their sum.

The PSC modules 112 and 206 of the station may determine to enter the power saving mode by determining the power saving policy information, comparing the sum of the weights displayed in the power saving policy information with a preset threshold. . For example, in the case where the more sensitive weight is given to the above-described main factor, when the weighted value summed up in the power saving policy information is smaller than the preset threshold, it may be determined to enter the power saving mode. In addition, power saving policy information may be stored.

The PSC modules 112 and 206 of the station, via the PS-user-interface API 204 and the MAC-interface API 208, respectively, according to the determined power saving policy information, respectively, the upper application layer module 202 and the lower MAC layer module. In conjunction with 210, a power saving function specific to the chip solution is driven. In one embodiment, the PSC modules 112 and 206 of the station determine a power-save level based on power-save policy information and use the power-save level information to determine the upper application layer module 202 and lower MAC. Transfer to the layer module 210. The application layer module 202 determines whether each application is driven (on / off) and the driving degree according to the power saving level information, and the MAC layer module 210 determines the MAC layer module 210 according to the power saving level information. How to work with the power saving scheme of the hardware, and whether to drive (on / off) and the driving degree of each hardware module is determined. For example, it is determined how PSMP, which is a power saving method of the MAC layer module 210 currently used, is linked with power saving level information, and hardware modules A and D are turned off according to the power saving level information, and hardware module B Can only be turned on by 30% and the hardware module C by 100%. In this way, a power saving function is performed. That is, how to connect the power saving level information with the power saving scheme of the lower MAC layer module 210 or the power saving scheme of the chip solution hardware depends on various algorithms of the chip solution itself.

In connection with the above descriptions, for example, when an emergency occurs and the station needs to be kept powered for as long as possible, a power saving policy that saves power for all functions except those related to urgent traffic is described. It is possible to adaptively respond to an emergency by selecting and reflecting it to itself and also notifying the AP.

Upon receiving the power saving policy information of the station through steps S314 to S318, the PSC module 102 of the AP generates the power saving support policy information based on the power saving policy information of the station, and the station based on the power saving support policy information. Supports power saving (S320). Hereinafter, power saving support policy information of an AP defined in the present invention and a power saving support method based on the same will be described.

The AP receives the power saving policy information from the station, so that the AP can know which power saving policy has entered the power saving mode. In this way, the power saving policy information received from the station may be stored in the AP or further included in the power saving support policy information.

The power saving support policy information is information representing a policy of an AP supporting power saving of a station and may be managed for each station. The power saving support policy information of the AP may be represented using any one or more of the two methods described above in the power saving policy information of the station. The data structure of the power saving support policy information may include the data structure of the power saving policy information described above. In other words, the PSC module 102 of the AP may display a policy that the AP can support by using a category based on the power saving policy information of the station using a category, or may display a weighted value for each major element. . In addition, it is possible to set a maximum weight that can be supported by the current system for each main element in the power saving support policy information and use it as a reference value. For example, if the station sets the weight of the 'delay' key element of the power saving policy information to '3', and the AP sets the maximum weight of the 'delay' key element to '5', '3' is the reference value. Since it is smaller than '5', the AP may support by setting the weight of the 'delay' key element in the power saving support policy information for the corresponding station to '3'. Conversely, if the AP has set the maximum weight of the 'delay' key element to '2', since '3' is greater than the threshold '2', the AP is the 'delay' key element in the power saving support policy information for that station. It is supported by setting the weight of to '2'.

The PSC module 102 of the AP manages important resources in supporting power savings of the station. For example, while the station is in sleep mode after entering power saving mode, a memory resource for buffering data to be transmitted to the station and a notification to inform the station of the buffering situation. Manage the information related to the notification period. In addition, if there are resources needed to support the power savings of the station, they are also managed. In one embodiment, in consideration of the situation of resources required to support power saving, as described above, the maximum weight and / or supportable category supported by the current system for each main element may be set in the power saving support policy information. In another embodiment, information about such a resource (eg, an amount of memory supported and a notification period for a buffering situation) may be directly included in the power saving support policy information.

In addition, the PSC module 102 of the AP may set a threshold value for each resource to be managed and manage resources in the AP based on the value. For example, if the AP lacks memory resources, the AP may utilize the power saving policy information and power saving performance information of the station in power saving mode to determine whether the number of data (packets) that should be buffered is at least okay, It is possible to adaptively adjust the memory resources allocated to stations in power saving mode, taking into account whether or not the period of notification is acceptable.

In addition, the PSC module 102 of the AP increases the notification period by changing the power saving policy information of the station, for example, when it is indicated that insensitive traffic is used in the 'wait time' main element. Increase the amount of buffering memory allocated to the station. Conversely, if the 'latency' key factor indicates that sensitive traffic is to be used, the notification period can be reduced and the amount of buffering memory allocated to that station can be reduced.

In addition, the PSC module 102 of the AP, in connection with the station through the steps S308 to S312, taking into account the power saving performance information of the station, the power saving performance information of the AP itself, and the situation of necessary resources, By controlling access admission, the overload resulting from power saving support can be optimized. For example, if the station supports only APSD that requires a lot of buffering, and it is determined that the station cannot be accommodated under the current memory resource situation, the station may not be allowed to access the station.

According to the present invention, when any one or more of the power saving performance information and the power saving policy information of the station is changed, steps S322, S324, and S326 may be performed to notify the AP. The PSC module 112 of the station transmits the changed information to the MAC layer module 114 of the station (S322), and the MAC layer module 114 of the station transmits the changed information to the MAC layer module 104 of the AP. In operation S324, the MAC layer module 104 of the AP transmits the changed information to the PSC module 102 of the AP (S326). The PSC module 102 of the AP may reset one or more of its power saving performance information and power saving support policy information by reflecting the changed information of the station (one or more of the power saving performance information and the power saving policy information). have. For example, if it is necessary to change the power saving policy in relation to the characteristics of traffic originating from the station or other situations in which the station is in a situation, the AP can be adjusted by adaptively adjusting the power saving policy to inform the AP. Can lead to power saving support.

Similarly, when any one or more of the power saving performance information and the power saving support policy information of the AP are changed, steps S326, S324, and S322 may be performed to notify the station. The PSC module 102 of the AP transmits the changed information to the MAC layer module 104 of the AP (S326), and the MAC layer module 104 of the AP transmits the changed information to the MAC layer module 114 of the station. (S324), the MAC layer module 114 of the station transmits this changed information to the PSC module 112 of the station (S322). The PSC module 112 of the station may reset one or more of its power saving performance information and power saving policy information by reflecting changed information of the AP (one or more of power saving performance information and power saving support policy information). have. For example, the PSC module 112 of the station selects a power saving policy according to the changed power saving support policy information of the AP. If the AP's power saving support policy information has nothing to choose from, it may not be able to save power, or if the added policy is more suitable for the station's own power state and traffic type, You can change it with the added policy.

The power saving support function (S320) for the station, which is performed by the PSC module 102 of the AP, adaptively supports power saving in consideration of the operation situation of the AP as well as the situation of the station as described above. Doing. This is an implementation issue for most system standards, including IEEE 802.11. Power saving performance information and power already received from stations, depending on available resources such as the number of stations entering power saving mode and memory on the AP. Based on the saving policy information, the power saving support method can be adaptively changed during the power saving mode.

If the station wants to stop the power saving function, steps S328, S330, and S332 are performed to notify the AP. First, in step S328, the PSC module 112 of the station transmits a message indicating that the station exits the power saving mode (hereinafter referred to as a "Power-save Off signaling" message) to the MAC layer module 114 of the station. (S328), the MAC layer module 114 of the station transmits the power-save off signaling message to the MAC layer module 104 of the AP (S330), and the MAC layer module 104 of the AP transmits the power-save. The Off signaling message is transmitted to the PSC module 102 of the AP (S332). The PSC module 102 of the AP releases resources allocated for power saving support for the station.

As described above, the present invention relates to a power saving method that is adaptive to the environment of a system, with or without modification of existing MAC by using a PSC module of a station and an AP. Here, the part of the interface between the PSC module and the MAC can be utilized by using the interface (Interface / API) provided by the MAC of the system to be applied, but the lack of the MAC-related interface or the reserved field available in the applied system. New interfaces may be needed, for example due to lack of significance. However, since this is a data structure for conveying information, hardware modifications in the MAC of the applied system will not be required, so it can be easily applied through a minimum firmware upgrade.

202: application layer module 206: power saving adjustment module
210: MAC layer module 212: physical layer module

Claims (20)

A method of adaptively power saving at a station of a wireless communication system,
Receiving first power-save capability information from the access point, the first power-save capability information including information on a power saving scheme supported by the MAC layer of the access point;
In response to the first power saving capability information, transmitting second power saving capability information including information on a power saving scheme supported by the MAC layer of the station to the access point;
Transmitting power-save policy information reflecting characteristics of traffic used at the station to the access point; And
Performing a power saving function in conjunction with the MAC layer of the station according to the power saving policy information based on a predetermined power saving scheme;
Including,
The predetermined power saving scheme is common between a power saving scheme supported by the MAC layer of the access point and a power saving scheme supported by the MAC layer of the station.
Adaptive power saving method at stations in a wireless communication system.

The method of claim 1,
The power saving scheme includes any one or more of Legacy, APSD, and PSMP of IEEE 802.11,
Adaptive power saving method at stations in a wireless communication system.
The method of claim 1,
The first power saving performance information further includes any one or more of information on a period in which the first power saving performance information is notified and a valid period of the first power saving performance information.
The second power saving performance information further includes any one or more of information about a period during which the second power saving performance information is notified and a valid period of the second power saving performance information.
Adaptive power saving method at stations in a wireless communication system.
The method of claim 1,
And the power saving policy information is transmitted in a message indicating that the station enters a power saving mode.
The method of claim 1,
The power saving policy information is displayed by weighting the traffic used in the station by using a category classified according to its characteristics and by weighting key factors representing the characteristics of the traffic used in the station. Adaptive power saving method in a station of a wireless communication system, using any one or more of the methods.
The method of claim 1,
Transmitting at least one of the changed second power saving performance information and the changed power saving policy information to the access point,
The performing of the power saving function is performed by reflecting the changed information.
Adaptive power saving method at stations in a wireless communication system.
The method of claim 1,
Receiving at least one of the changed first power saving performance information and changed power saving support policy information from the access point; And
Changing at least one of the second power saving performance information and the power saving policy information based on the changed information received from the access point;
Further comprising:
The performing of the power saving function is performed by reflecting the changed information.
The power saving support policy information is information generated by the access point based on the power saving policy information based on the power saving policy information in order to support power saving of the station.
Adaptive power saving method at stations in a wireless communication system.
In the method of the access point of the wireless communication system to support the adaptive power saving of the station,
Transmitting first power saving performance information to the station, the first power saving performance information including information on a power saving scheme supported by the MAC layer of the access point;
Receiving second power saving performance information transmitted by the station in response to the first power saving performance information, the second power saving performance information including information on a power saving scheme supported by the MAC layer of the station;
Receiving power saving policy information from the station reflecting characteristics of traffic used at the station; And
Performing a power saving support function for the station in association with the MAC layer of the access point according to a power-save support policy information based on a predetermined power saving method;
Including,
The predetermined power saving scheme is common between a power saving scheme supported by the MAC layer of the access point and a power saving scheme supported by the MAC layer of the station.
The power saving support policy information is generated based on the power saving policy information in consideration of a situation of a required resource.
Adaptive power saving support method in an access point of a wireless communication system.
The method of claim 8,
The power saving scheme includes any one or more of Legacy, APSD, and PSMP of IEEE 802.11,
Adaptive power saving support method in an access point of a wireless communication system.

The method of claim 8,
The first power saving performance information further includes any one or more of information on a period in which the first power saving performance information is notified and a valid period of the first power saving performance information.
The second power saving performance information further includes any one or more of information about a period during which the second power saving performance information is notified and a valid period of the second power saving performance information.
Adaptive power saving support method in an access point of a wireless communication system.
The method of claim 8,
The power saving policy information is transmitted in a message indicating that the station enters a power saving mode.
The method of claim 8,
The power saving policy information is displayed by weighting the traffic used in the station by using a category classified according to its characteristics and by weighting key factors representing the characteristics of the traffic used in the station. Using any one or more of
The power saving support policy information may be displayed based on a method of displaying traffic that the access point can support using a category classified according to its characteristics and key factors representing characteristics of the traffic that the access point can support. Represented using one or more of the methods of displaying weights,
Adaptive power saving support method in an access point of a wireless communication system.
The method of claim 8,
Transmitting at least one of the changed first power saving performance information and the changed power saving support policy information to the station,
The performing of the power saving support function is performed by reflecting the changed information.
Adaptive power saving support method in an access point of a wireless communication system.
The method of claim 8,
Receiving at least one of the changed second power saving performance information and the changed power saving policy information from the station; And
Changing at least one of the first power saving performance information and the power saving support policy information based on the changed information received from the station;
Further comprising:
The performing of the power saving support function is performed by reflecting the changed information.
Adaptive power saving support method in an access point of a wireless communication system.
The method of claim 8,
The resource includes any one or more of a memory resource for buffering data to be transmitted to the station while the station is in sleep mode and a period of notification informing the station of a buffering condition,
Adaptive power saving support method in an access point of a wireless communication system.
In a station that adaptively saves power in a wireless communication system,
MAC layer;
A receiving module for receiving first power saving performance information from the access point, the first power saving performance information including information on a power saving scheme supported by an MAC layer of an access point;
A transmission module for transmitting second power saving performance information including information on a power saving scheme supported by the MAC layer of the station and power saving policy information reflecting characteristics of traffic used in the station; And
A power saving coordination module controlling the MAC layer and the transmitting module of the station to transmit the second power saving performance information in response to the first power saving performance information, and to transmit the power saving policy information.
Including,
The power saving adjustment module performs a power saving function in conjunction with the MAC layer of the station according to the power saving policy information based on a predetermined power saving scheme.
The predetermined power saving scheme is common between a power saving scheme supported by the MAC layer of the access point and a power saving scheme supported by the MAC layer of the station.
Station of a wireless communication system.
The method of claim 16,
The first power saving performance information may be any one of whether the access point supports a power saving adjustment module, information about a period in which the first power saving performance information is notified, and a valid period of the first power saving performance information. Including more
The second power saving performance information may include at least one of whether the station supports a power saving adjustment module, a period in which the second power saving performance information is notified, and a valid period of the second power saving performance information. Including more;
Station of a wireless communication system.
The method of claim 16,
The power saving policy information is displayed by weighting the traffic used in the station by using a category classified according to its characteristics and by weighting key factors representing the characteristics of the traffic used in the station. Using any one or more of the methods shown,
Station of a wireless communication system.
In an access point that supports the adaptive power saving of the station in a wireless communication system,
MAC layer;
A transmission module for transmitting first power saving performance information including information on a power saving scheme supported by the MAC layer of the access point to the station;
Receive second power saving performance information transmitted by the station in response to the first power saving performance information, the second power saving performance information including information on a power saving scheme supported by the MAC layer of the station, and transmitted by the station; A receiving module for receiving power saving policy information reflecting characteristics of traffic used at the station; And
A power saving coordination module controlling the MAC layer and the transmitting module of the access point to transmit the first power saving performance information to the station
Including,
The power saving adjustment module performs a power saving support function for the station by interworking with the MAC layer of the access point according to power saving support policy information based on a predetermined power saving method.
The predetermined power saving scheme is common between a power saving scheme supported by the MAC layer of the access point and a power saving scheme supported by the MAC layer of the station.
The power saving support policy information is generated based on the power saving policy information in consideration of a situation of a required resource.
Access point of wireless communication system.
The method of claim 19,
The power saving policy information is displayed by weighting the traffic used in the station by using a category classified according to its characteristics and by weighting key factors representing the characteristics of the traffic used in the station. Using any one or more of
The power saving support policy information may be displayed based on a method of displaying traffic that the access point can support using a category classified according to its characteristics and key factors representing characteristics of the traffic that the access point can support. Represented using one or more of the methods of displaying weights,
Access point of wireless communication system.

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