KR101877976B1 - Apparatus and method for supporting access in communication system - Google Patents

Abstract

The present invention relates to a system and method for supporting multi-user communication by using multiple channels efficiently in a communication system of a multi-user environment having a multi-node, A plurality of stations (STAs) to be connected to an access point (AP) in multiple channels are searched for usable bands, and a transmission for transmitting a packet in the searched usable band is performed. Band, and supports access to the access point over the determined transmission band; and wherein the access band is determined to be in the available available band via an ad-hoc multi-channel Media Access Control (MAC) protocol Thereby determining the transmission band.

Description

[0001] Apparatus and method for supporting communication in a communication system [0002]

In particular, the present invention relates to a communication system, and more particularly, to a communication system in a multi-user environment having a multi-node, The present invention relates to an apparatus and a method for supporting a connection to perform a connection.

BACKGROUND ART [0002] In the current communication system, active research is being conducted to provide various quality of service (QoS) services having a high transmission rate to users. As an example of such a communication system, in a wireless local area network (WLAN) system, a method for transmitting a large amount of data through a limited resource at a high speed and stably, Is progressing actively. Particularly, in communication systems, researches on data transmission through wireless channels are under way. Recently, WLAN systems have been proposed to effectively transmit and receive large amounts of data by effectively using limited wireless channels.

Meanwhile, in a current communication system, for example, a WLAN system, each user has a network environment having a plurality of access nodes so that a plurality of users can efficiently use a limited channel and receive services at a high speed. However, in the above-described WLAN system, there are many times when channels are not used depending on the number and type of users and traffic allocated to the channels, thereby causing a problem that usage efficiency of a limited channel is lowered . In order to solve these problems, a multi-channel media access control (MAC) technique (hereinafter referred to as a multi-channel MAC) technique There are various schemes for performing communication using a limited channel more efficiently by using a plurality of channels. However, concrete methods have not been proposed yet.

Accordingly, in a communication system, for example, a WLAN system described above, in a network environment in which a plurality of users each have a plurality of access nodes, a concrete connection scheme for each user to perform communication through a plurality of access nodes Is required.

It is therefore an object of the present invention to provide an apparatus and method for connection support in a communication system.

It is another object of the present invention to provide a connection support apparatus and method in a communication system of a multi-user network environment having multiple nodes.

Another object of the present invention is to provide a communication system in which a plurality of users each have a plurality of access nodes and efficiently utilize a limited channel in a network environment to allow each user to perform communication via a plurality of access nodes Apparatus and method.

It is another object of the present invention to provide an access support apparatus and method for a multi-user WLAN system having multiple nodes, which can reliably provide services through multiple channels using multi-channel MAC technology, Method.

According to another aspect of the present invention, there is provided a connection assisting apparatus in a communication system, the apparatus including: a plurality of stations (STAs) to be connected to an access point (AP) A search unit for searching for a search result; A determination unit for determining a transmission band for packet transmission in the searched usable band; And a connection supporting connection to the access point via the determined transmission band; The determination unit determines the transmission band by ad-hoc through an ad-hoc multi-channel Media Access Control (MAC) protocol in the retrieved available band.

According to another aspect of the present invention, there is provided a method for supporting a connection in a communication system, the method comprising the steps of: (a) providing a plurality of access points (STAs) ; Determining a transmission band for packet transmission in the retrieved available band; And supporting a connection to the access point via the determined transmission band; The determining step determines the transmission band by ad-hoc through an ad-hoc multi-channel media access control (MAC) protocol in the retrieved available band.

The present invention supports a multi-channel MAC technology in a multi-user network environment having multiple nodes, so that multiple users can be easily connected to a network, and multiple users can smoothly perform communication through each of multiple nodes . In addition, the present invention applies multi-channel MAC technology to enable multiple users to communicate through each of multiple nodes, thereby maximizing resource utilization efficiency by efficiently using limited channels (e.g., multiple channels) It is possible to stably provide the service to multiple users through multiple channels.

1 schematically shows a structure of a communication system according to an embodiment of the present invention;
2 to 5 are diagrams illustrating multi-channel MAC protocols for supporting connection of STAs in a communication system according to an embodiment of the present invention;
6 to 10 are diagrams schematically illustrating a frame structure for supporting multi-channel access in a communication system according to an embodiment of the present invention.
11 is a view schematically showing a structure of a connection support apparatus in a communication system according to an embodiment of the present invention.
12 is a diagram schematically illustrating an operation procedure of a connection support apparatus in a communication system according to an embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, only parts necessary for understanding the operation according to the present invention will be described, and the description of other parts will be omitted so as not to disturb the gist of the present invention.

The present invention proposes an apparatus and method for transmitting and receiving data in a communication system, for example, a wireless local area network (WLAN) system. Although the WLAN system, for example, IEEE (Institute of Electrical and Electronics Engineers) 802.11 system is described as an example in the embodiment of the present invention, the data transmission / reception scheme proposed in the present invention can be applied to other communication systems.

Also, in the embodiment of the present invention, multiple users, for example, terminals of a plurality of users, for example, a plurality of stations (STA) access nodes, In a communication system of a multi-node network environment, it is possible to efficiently use a limited channel to support connection of a WLAN system so that the plurality of STAs perform communication via each of multiple nodes. Herein, in an embodiment of the present invention, a multi-channel media access control (MAC) is performed so that a plurality of STAs connect to a network through a plurality of connection nodes, respectively, (Hereinafter referred to as " multi-channel MAC ") protocol, and a plurality of STAs communicate with each other through connection nodes using the multi-channel MAC protocol. Thereby stably providing the service to a plurality of users through a limited channel, e.g., multiple channels. For example, the channel includes three orthogonal channels in the IEEE 802.11b system and 12 available channels in the IEEE 802.11a system, as an example of the IEEE 802.11 system.

In an embodiment of the present invention, a multi-channel MAC protocol is proposed as a protocol between STAs of each network so that a plurality of STAs can simultaneously perform communication in a network environment having a plurality of access nodes, The multi-channel MAC protocol is supported, and the STAs of the network are connected through the respective access nodes to perform communication. Here, in the embodiment of the present invention, M multiple channels and N STAs are set, N × M access nodes are determined in the network according to the setting, and the determined N × M access nodes A multi-channel MAC protocol is applied to establish a connection within the network. At this time, in the embodiment of the present invention, in order to apply the multi-channel MAC protocol to the NxM access nodes, first, an Ad-hoc multi- Applies to N × M access nodes corresponding to all of the plurality of STAs, and applies a grouped multi-channel MAC protocol.

In addition, in the embodiment of the present invention, an example of a communication system is a network formation of multiple devices occurring in an ad-hoc wireless networks system, an arbitrary one of the multiple elements Only supports the use of radio resources due to interference, and the sharing of such radio resources through a multi-channel MAC. Here, the ad-hoc wireless network system is a system that can be adaptively adapted to a communication environment of a network, which is a self-organizing system without a separate infrastructure.

In an embodiment of the present invention, a multi-channel MAC is used in a basic service set (BSS) of a WLAN system as an example of a communication system. A plurality of access points (APs), access points (APs), access points (APs), access points (APs), access points Connection. In the embodiment of the present invention, when each STA has a plurality of access nodes in a communication system of a multi-channel network environment including a single AP and a plurality of STAs, for example, a WLAN system, a multi-rendezvous ), And a multi-channel MAC protocol is applied to support the multi-rendezvous.

In addition, in the embodiment of the present invention, a communication system of a multi-channel network environment in which a single AP and a plurality of STAs each having a plurality of connection nodes exist exists in a WLAN system, And a multi-channel MAC is supported. Then, a connection is made through a band that is searched for, and service data is transmitted / received through multiple channels to provide services to multiple users. At this time, as the service data is transmitted and received using at least two or more channels having a minimum interference between the channels, the interference during transmission and reception of service data is minimized and the throughput of the system as a whole can be improved . Hereinafter, the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG.

1 is a diagram schematically showing a structure of a communication system according to an embodiment of the present invention. 1 is a diagram schematically showing a structure of a WLAN system as an example of a communication system according to an embodiment of the present invention.

Referring to FIG. 1, the WLAN system includes any one AP 110 in a BSS and, for example, N STAs 120, 130 and 140 as a plurality of user terminals. Herein, the N STAs 120, 130, and 140 have at least one access node, for example, M access nodes, whereby the WLAN system includes NxM access nodes, and the NxM access nodes Channel MAC protocol to support the connection of the N STAs 120, 130,

Although not shown in detail in FIG. 1, a control unit (not shown) existing in each of the STAs 120, 130 and 140 or at the upper ends of the STAs 120, 130 and 140 is connected to NxM access nodes Lt; / RTI > Hereinafter, the multi-channel MAC protocol in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG. 2 to FIG.

FIGS. 2 to 5 are diagrams illustrating multi-channel MAC protocols for supporting connection of STAs in a communication system according to an embodiment of the present invention. 2 to 5 are diagrams schematically illustrating examples of methods using the multi-channel MAC protocol, FIG. 2 is a diagram schematically illustrating a dedicated control channel approach, 3 schematically shows a split phase approach scheme, FIG. 4 schematically shows a common hopping scheme, and FIG. 5 schematically shows a multi-channel MAC scheme.

Referring to FIG. 2, in the DPCCH scheme, one channel among multiple channels, for example, Ch1 202, Ch2 204, and Ch3 206, for example, Ch1 202, And the remaining channels Ch2 204 and Ch3 206 are used as channels for data transmission and reception. Accordingly, an RTS (Request To Send) packet, a CTS (Clear To Send) packet and an RSV packet are transmitted through the Ch1 202 and a data packet and a data packet are transmitted through the other channels 204 and 206, An acknowledgment (ACK) signal is transmitted according to the reception status. Here, the RTS and the CTS packets are transmitted through the dedicated channel Ch1 202 to perform channel negotiation of the channels Ch2 204 and Ch3 206 for data packet transmission, And a data packet is transmitted through the acquired data channel.

In this dedicated control channel access method, data channels are transmitted in the data channel corresponding to the transmission / reception of RTS and CTS packets transmitted on the dedicated channel, which is a control channel, by separating the control channel and the data channel, Synchronization for transmission of data packets is unnecessary. Also, in the dedicated channel access method, transmission of RTS and CTS packets is performed in a rendezvous and competitive manner for transmission of a data packet in a dedicated channel as a control channel. In the dedicated channel access control method, one element for performing data transmission / reception for data transmission / reception requires two transceiver modules each of which includes a transmitting module and a receiving module, thereby increasing the complexity and power consumption of the device, Since the control channel is concentrated due to the limitation of the dedicated channel, which is a control channel for transmitting the data packet, if the multiple channels are narrow band, the ratio of the control channel in the entire available channels increases, so that the channel can be inefficiently used .

Referring to FIG. 3, in the split phase access scheme, time periods of three channels (e.g., Ch0 302, Ch1 304, and Ch2 306) are divided into multiple channels and used in different sections, A control phase 310 and a data transfer phase 320. In the control period 310, a HELLO signal, an ACK signal, and a RSV packet are transmitted through the multi-channel Ch0 302, And an RTS packet, a CTS packet, an ACK signal, and a data packet are transmitted through the multiple channels Ch0 302 and Ch1 304 in the data transmission interval 320. [

In the split phase approach, a time interval is divided into a control interval 310 and a data transmission interval 320, and a control related signal is transmitted in the control interval 310. In the data transmission interval 320, Related signals, such as channel negotiation-related packets and data packets for transmission of data packets, can be implemented through a single transceiver. In the split phase access scheme, unlike the above-mentioned dedicated control channel approach, negotiation of a channel for transmission of a data packet, that is, transmission of an RTS packet and a CTS packet, Lt; / RTI >

In the split phase approach, as the transmission of the RTS packet and the CTS packet in the channel negotiation for data packet transmission in the data transmission period 320 is performed through the common channel, for example, Ch0 302 and Ch1 304 ), Synchronization is required for the transmission of data packets over multiple channels. When the packet size of a control related signal transmitted through multiple channels, for example, Ch0 302, is small in the control phase section 310, all of the multiple channels of the control section 310 are small in size The use efficiency of the limited channel may be lowered.

Referring to FIG. 4, in the common hopping scheme, time zones (1, 2, 3, 4, 5, 6, ..., 11) are operated in accordance with a common hopping sequence, and channel negotiation is performed through the common hopping sequence, that is, RTS packets and CTS packets are transmitted through multiple channels . In the common hopping scheme, an RTS packet is transmitted in a predetermined time interval from Ch0 402 to Ch4 408 in a multi-channel. When a CTS packet is transmitted and a channel negotiation is performed, that is, The channel to which the channel negotiation has been performed is left, and the ACK signal for the data packet and the reception of the data packet is transmitted through the channel 410 left.

In this common hopping scheme, when channel negotiation is performed through the respective common time hopping sequences in multiple channels, data packets are transmitted through the remaining channels while leaving the channels in which the channel negotiation is performed, so that they are implemented through a single transceiver This is possible. In the common hopping scheme, since the RTS packet and the CTS packet are transmitted through the common channel, and the data packet is transmitted through the channel-negotiated channel, the data packets are transmitted through the multi- There is a switching penalty because synchronization is required for transmission and switching is required in correspondence with the common hopping sequence, respectively.

In the three schemes described above, namely the dedicated control channel approach, the split phase approach, and the common hopping scheme, only one rendezvous channel is included in a given time period. In the dedicated control channel approach and the split phase approach, Ch1 202 and Ch0 302 are rendezvous channels. In the common hopping scheme, one rendezvous channel is provided in a given time interval according to a common hopping sequence can be changed. At this time, the parallel rendezvous protocol allows at least one rendezvous channel.

Referring to FIG. 5, in the multi-channel MAC scheme, STA-specific access nodes, for example, accesses (for example, accesses) through STA in each time period through two channels, for example, Ch0 504 and Ch1 502, The node 1 and the node 3 send a watting to send 510, an RTS packet, a CTS packet, and a data packet transmission (RTS / CTS / DATA) 520, hopping stopped during data transfer 530, and hopping resumes 540. Here, the Ch0 504 and the Ch1 502 are channels in which interferences between channels are minimized, and can be independent channels. Accordingly, data packets are transmitted through multiple channels including the Ch0 504 and the Ch1 502 When transmitting, interference during transmission is minimized, thereby improving the overall data throughput of the system. 5, a transmission wait 510 exists first in the Ch1 502, a packet transmission 520 is generated in the Ch0 504, and a packet transmission 520 is generated in the Ch0 502 according to the packet transmission 520 After hopping is stopped, there is a hopping between Ch1 502 and Ch0 504 by hopping restart 540. [

In this multi-channel MAC scheme, STAs perform hopping in multiple channels, and when the probability of transmitting a packet in a visited channel visited on any one channel in multiple channels is p, Recognizes a home channel of the visited channel using a seed, and returns the home channel after completing packet transmission.

Here, the WLAN system according to the embodiment of the present invention includes a MAC protocol such as a multi-channel Carrier Sense Multiple Access (CSMA) protocol as well as a multi-channel MAC protocol And the performance of the multi-CSMA channel is better than that of the single-channel CSMA when the multi-channel CSMA protocol is applied, for example, a fixed aggregate bandwidth. In addition, the multi-channel CSMA protocol is more efficient than a single channel having a data throughput at the MAC layer that does not have a linear scale, such as a data throughput at a physical (PHY) Obtain excellent performance. In particular, as the multi-channel CSMA protocol is applied, it increases the MAC data throughput by eliminating a number of collisions that can occur simultaneously corresponding to the simultaneous transmission of data packets. Hereinafter, the transmission of the RTS / CTS packet over the multiple channels for connection support in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG. 6 to FIG.

6 to 10 are views schematically showing a frame structure for supporting multi-channel access in a communication system according to an embodiment of the present invention. 6 to 10 are diagrams illustrating an example of a case where a WLAN system according to an embodiment of the present invention searches for a usable band for transmitting an RTS packet or a CTS packet in multiple channels and then transmits the ad- And transmits the RTS packet or the CTS packet as an ad-hoc packet to the searched available band. At this time, the WLAN system searches for the usable band in consideration of interference or collision due to a band already occupied and used by any STA in the multiple channels, that is, a band to which the STA is connected, Interference, collision, or the like is searched for by the usable band.

6, when the WLAN system transmits an RTS packet 652 in an 80MHz-to-RTS band 650 in a multi-channel bandwidth, a redundancy of the 80MHz-RTS band 650 In the duplicate-RTS band 600, a usable band for RTS packet transmission is searched, and the usable bands are searched in consideration of the interference bands 620 and 625. Here, the WLAN system separates the multiple channels into subchannels, and searches for the usable bands in a plurality of bands.

The WLAN system searches for a band that does not overlap with the interference bands 620 and 625 in a usable band, i.e., the RTS bands 602 and 604 in the redundant-RTS band 600, . If it is difficult to use any RTS band among the RTS bands 602 and 604, that is, if the connection to the connected RTS band can not be maintained, It supports connection to be used ad-hoc by one RTS band.

In addition, during transmission of the RTS packets through the RTS bands 602 and 604, another STA, for example, the RTS bands 602 and 604 of the retrieved RTS bands 602 and 604 by the STA having priority in the retrieved RTS bands 602 and 604 If it is not possible to maintain the connection to the connected RTS bands, the RTS bands 606 and 608 overlapping with the interference bands 620 and 625 are searched for in a usable band, And to transmit RTS packets ad-hoc to the RTS bands (606, 608) via the MAC protocol.

7, when the WLAN system transmits a CTS packet 752 in a 40 MHz-CTS band 750 to any STAs in a multi-channel bandwidth, a redundancy of the 40 MHz-CTS band 750 In the -CTS band 700, a usable band for CTS packet transmission is searched, and the usable band is searched in consideration of the interference bands 720 and 725. Here, the WLAN system separates the multiple channels into subchannels, and searches for the usable bands in a plurality of bands.

In addition, the WLAN system searches for a band that does not overlap with the interference bands 720 and 625 in a usable band, i.e., CTS bands 702 and 704 in the redundant CTS band 700, . If it is difficult to use any one of the RTS bands 702 and 704 during the use of the CTS band, that is, if the connection to the connected CTS band can not be maintained, It supports connection to be used ad-hoc by one RTS band.

8, in the WLAN system, any STAs in the multi-channel bandwidth can transmit RTS packets in 80MHz-RTS bands 802, 804, 806, and 808 (subchannel 1, subchannel 2, subchannel 3, subchannel 4) In the case of transmission, a usable band for CTS packet transmission is searched in the RTS bands of the 80 MHz-RTS bands 802, 804, 806, and 808, and the usable bands are searched in consideration of the sub- do. In addition, the WLAN system searches bands of adjacent subchannels, i.e., subchannel 1 and subchannel 2 according to the size of data, in a data band 870. Here, the WLAN system separates the multiple channels into subchannels, and searches for the usable bands in a plurality of bands.

The WLAN system searches for available bands, i.e., CTS bands 850, 852, and 854, in the 80 MHz-RTS bands 802, 804, 806, and 808 except for the RTS band 806, And supports connections to transmit CTS packets.

In addition, the WLAN system can be used when it is difficult to use any RTS band or CTS band in the RTS bands 802, 804, 806, 808 and the CTS bands 850, 852, 854, It is possible to add or use the RTS band or the CTS band through the ad-hoc multi-channel MAC protocol.

9, in the WLAN system, any STAs in a multi-channel bandwidth can transmit RTS packets in 80MHz-RTS bands 902, 904, 906, 908 (subchannel 1, subchannel 2, subchannel 3, subchannel 4) In the case of transmission, a usable band for CTS packet transmission is searched for in the RTS bands of the 80 MHz-RTS bands 902, 904, 906, and 908, and the usable bands are searched in consideration of the sub- do. In addition, the WLAN system searches bands of adjacent subchannels, that is, subchannel 1 and subchannel 2, in a data band 970 according to the size of data. Here, the WLAN system separates the multiple channels into subchannels, and searches for the usable bands in a plurality of bands.

The WLAN system searches for available bands, i.e., CTS bands 952, 954, and 956, in the 80MHz-RTS bands 902, 904, 906, and 908 except for the RTS band 906, do. In the case where the CTS packet transmission is a 40MHz-CTS band with the subchannel 1 being a primary channel, the WLAN system may transmit the CTS bands except for the CTS band 956 in consideration of the interference band 920 952, 954) to transmit the CTS packet to the usable band.

In addition, the WLAN system can be used when it is difficult to use any RTS band or CTS band in the RTS bands 902, 904, 906, and 908 and the CTS bands 952 and 954, that is, It is possible to add or use the RTS band or the CTS band through the ad-hoc multi-channel MAC protocol.

10, in the WLAN system, in the multi-channel bandwidth, arbitrary STAs are allocated to the 80MHz-RTS bands 1002, 1004, 1006 and 1008 (subchannel 1, subchannel 2, subchannel 3, 4), a usable band for CTS packet transmission is searched in the RTS bands of the 80MHz-RTS bands 1002, 1004, 1006, and 1008, and at this time, (1020). In addition, the WLAN system searches bands of adjacent subchannels, that is, subchannel 1 and subchannel 2, in a data band 1070 according to the size of data. Here, the WLAN system separates the multiple channels into subchannels, and searches for the usable bands in a plurality of bands.

In the WLAN system, the RTS band 1008 in which the interference is present in the 80MHz-RTS bands 1002, 1004, 1006, and 1008, i.e., the remaining subchannels except for the subchannel 4, 1052, 1054, and 1056, respectively. When the CTS packet transmission is the 40MHz-CTS band with the subchannel 1 being the primary channel, the WLAN system considers the interference band 1020 and transmits the CTS bands 1052 and 1054 excluding the CTS band 1056 ) To transmit the CTS packet to the usable band.

In addition, the WLAN system may be used when it is difficult to use any RTS band or CTS band in the RTS bands 1002, 1004, 1006, and 1008 and the CTS bands 1052 and 1054, If the connection to one CTS band can not be maintained, the connection is supported by the add-hoc multi-channel MAC protocol using the other RTS band or the CTS band. Hereinafter, with reference to FIG. 11, description will be given, with reference to FIG. 11, of a connection support device for supporting ad-hoc over the ad-hoc multi-channel MAC protocol in multiple channels as described above in the communication system according to the embodiment of the present invention I will explain.

11 is a diagram schematically showing a structure of a connection support apparatus in a communication system according to an embodiment of the present invention. 11 is a diagram illustrating a connection assisting apparatus allowing a plurality of STAs to be connected to one AP through multiple channels in a WLAN system according to an embodiment of the present invention, And supports connection of the STAs. In particular, the AP supports ad-hoc support over the ad-hoc multi-channel MAC protocol of the STAs in the multiple channels to access the AP itself, as described above.

Referring to FIG. 11, the connection assisting device includes a confirming unit 1110 for confirming a subchannel occupied by STAs in multiple channels and searching for a usable band in the multiple channels, an RTS / CTS band for transmission of the CTS packet, and a connection unit 1130 for supporting connection from the multi-channel to the AP through the determined RTS / CTS band.

Here, the acknowledgment unit 1110 may include a plurality of STAs to be connected via a plurality of channels, a plurality of access nodes of the STAs, and sub-channels, i.e., STAs, Lt; / RTI > The confirmation unit 1110 separates the multiple channels into subchannels and searches for the usable bands in a plurality of bands. At this time, the subchannel in which interference or collision occurs in the multiple channels, that is, And searches for the usable bands.

In addition, the determination unit 1120 supports ad-hoc through the ad-hoc multi-channel MAC protocol in the multi-channel, and when it is difficult to use the RTS / CTS band in use, If the connection to the AP is not maintained, the access point is connected to the AP with the other available bands searched. In other words, when any STA, for example, an STA having a primary to the connected and used band connects, while the arbitrary STA connects and uses the usable band, the determining unit 1120 determines Ad-hoc support is provided via the ad-hoc multi-channel MAC protocol, allowing any STAs to connect to other usable bands. Hereinafter, the connection support operation in multiple channels in the communication system according to the embodiment of the present invention will be described in more detail with reference to FIG.

12 is a diagram schematically illustrating an operation procedure of a connection support apparatus in a communication system according to an embodiment of the present invention. Here, FIG. 12 is a view schematically showing a connection support operation of a plurality of STAs to one AP over multiple channels in the WLAN system as described above.

Referring to FIG. 12, in step 1210, the connection support apparatus identifies subchannels occupied by STAs in multiple channels and searches for available bands in the multiple channels.

In step 1220, the searched usable band is determined to be an RTS / CTS band for RTS / CTS packet transmission, and then, in step 1230, connection from the multi-channel to the AP is supported through the determined RTS / CTS band. Here, support for connection of a plurality of STAs to one AP in the multiple channels has been described in detail, and a detailed description thereof will be omitted here.

While the invention has been shown and described with reference to certain preferred embodiments thereof, 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 invention. Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the scope of the appended claims, as well as the appended claims.

Claims (14)

A connection support apparatus in a communication system,
A confirmation unit for searching for a usable band by a plurality of stations (STAs) to be connected to an access point (AP) in multiple channels;
A determination unit for determining a transmission band for packet transmission in the searched usable band; And
And a connection to support access to the access point via the determined transmission band;
Wherein the determining unit determines the transmission band by ad-hoc through an ad-hoc multi-channel MAC (Media Access Control) protocol in the searched usable band. Device.
The method according to claim 1,
Wherein the determining unit determines a new transmission band in the searched available band through the ad-hoc multi-channel media access control protocol when the connection to the transmission band connected to the access point can not be maintained;
Wherein the connection unit supports access to the access point by ad-hoc manner with the new transmission band.
The method according to claim 1,
Wherein the confirming unit identifies the subchannels and bands by separating the multiple channels into a plurality of subchannels, and identifies the access nodes of the STAs and the STAs.
The method of claim 3,
Wherein the confirmation unit identifies subchannels and bands to which the STAs are connected in the subchannels, and searches for the usable bands in consideration of interference due to the connected subchannels and bands.
The method according to claim 1,
Wherein the transmission band is an RTS (Request To Send) band or a CTS (Clear To Send) band.
The method according to claim 1,
Wherein the acknowledgment unit searches for a usable band in an RTS (Request To Send) band that is duplicated in a multi-channel RTS (Request To Send) band;
Wherein the determination unit determines an RTS band for RTS packet transmission in the usable band.
The method according to claim 1,
Wherein the confirmation unit searches the available band in a CTS (Clear To Send) band that is duplicated in the CTS (Clear To Send) band of the multi-channel;
Wherein the determination unit determines a CTS band for CTS packet transmission in the usable band.
A connection support method in a communication system,
The method comprising: searching for a usable band by a plurality of stations (STAs) to access from an access point (AP) in multiple channels;
Determining a transmission band for packet transmission in the retrieved available band; And
Supporting a connection to the access point via the determined transmission band;
Wherein the determining step determines the transmission band by ad-hoc through an ad-hoc multi-channel media access control (MAC) protocol in the retrieved available band. Connection support method.
9. The method of claim 8,
Wherein the determining comprises determining a new transmission band in the searched available band through the ad-hoc multi-channel media access control protocol if the connection to the transmission band connected to the access point can not be maintained;
Wherein the supporting step supports access to the access point ad-hoc by the new transmission band.
9. The method of claim 8,
Wherein the searching step identifies the subchannels and bands by separating the multiple channels into a plurality of subchannels, and verifies the access nodes of the STAs and the STAs.
11. The method of claim 10,
Wherein the searching step identifies subchannels and bands to which the STAs are connected in the subchannels and searches for the usable bands in consideration of interference due to the connected subchannels and bands. Way.
9. The method of claim 8,
Wherein the transmission band is an RTS (Request To Send) band or a CTS (Clear To Send) band.
9. The method of claim 8,
Wherein the searching step comprises: searching for a usable band in an RTS (Request To Send) band that is duplicated in the RTS (Request To Send) band of the multiple channels;
Wherein the determining step determines an RTS band for RTS packet transmission in the usable band.
9. The method of claim 8,
The searching step searches for the usable band in a CTS (Clear To Send) band that is duplicated in the CTS (Clear To Send) band of the multi-channel;
Wherein the determining step determines a CTS band for CTS packet transmission in the usable band.

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