KR100981127B1 - Infrastructure-based direct STA-to-STA data transfer method in IEEE 802.11e WLANs - Google Patents

Abstract

The present invention relates to a direct data transmission method between stations using polling in an infrastructure wireless LAN environment, by using a DL-HCCA manager which provides an interworking procedure and a data transmission scheme between DLS and HCCA proposed in IEEE 802.11e. The purpose of the present invention is to provide a link utilization rate and quality assurance service when data is transmitted between two QSTAs in an infrastructure mode wireless LAN environment.

It is an object of the present invention that the source QSTA delivers the DLS connection request message to the destination QSTA via QAP, and the DL-HCCA manager of the destination QSTA makes an HCCA resource reservation to the QAP using TSPEC, and the result is a DLS response message. Transmitting to the source QSTA through the QCA, HCCA resources are allocated from the QAP, if the DLS configuration is successful, storing the DLS information and TSPEC information in the DL-HCCA connection list, the source QSTA DL-HCCA manager uses the TSPEC The process of setting up resource reservation between QSTA and QAP, storing the information when HCCA resource allocation and DLS connection is established, QAP forwarding polling message to each QSTA DL-HCCA manager, polling QAP to each QSTA As a result, if the TSID is registered for DLS, a process of directly transmitting data to a DLS connection establishment destination for a given TXOP is characterized in that it is made.

DLS, HCCA, Wireless LAN, IEEE 802.11e, Interoperable

Description

{Infrastructure-based direct STA-to-STA data transfer method in IEEE 802.11e WLANs} using polling in infrastructure WLAN environment

The present invention relates to a direct transmission technique using polling in a wireless LAN environment of an infrastructure mode, and more particularly, to interwork a DLS (Direct-Link Setup) proposed by IEEE 802.11e with an HCF controlled channel access (HCCA). The present invention relates to a direct data transmission method between stations using polling in an infrastructure wireless LAN environment using a direct-link HCCA (DL-HCCA) manager.

In general, data transmission between two wireless stations (QSTA) belonging to the same infrastructure is transmitted through an access point (hereinafter referred to as QAP). This requires more than twice the capacity of direct transmission between QSTAs.

The IEEE 802.11 Working Group (WG) has standardized IEEE 802.11e to solve the QoS problems of 802.11.

IEEE 802.11e adds a new hybrid coordination function (HCF) based on existing 802.11 to provide QoS.

HCF consists of media access methods called Enhanced Distributed Channel Access (EDCA) and HCF Controlled Channel Access (HCCA).

EDCA provides differentiated services by dividing user traffic into four access categories (ACs) using min / max contention window size, AIFS (Arbitration Interframe Space), and TXOP (Transmission Opportunity).

HCCA, like the existing PCF function, allocates media access time to each node based on the QoS connection between AP and AP using poll-based access point (AP) and TSPEC (Traffic Specification). Unlike conventional PCF, it provides CAP (Controlled Access Phase).

Existing PCF has service cycle for each node based on superframe, but HCCA can additionally allocate non-competitive CAP based on beacon signal as needed, and assigned media access Time uses the concept of TXOP to prevent exceeding a given TXOP, providing beacon delay prevention and efficient resource management.

IEEE 802.11e provides additional features in addition to the new channel access scheme to provide QoS.

DLS allows direct transmission of data between two QSTAs in infrastructure mode without going through QAP. To this end, DLS provides procedures and message formats for connection establishment and teardown. The procedure for establishing a DLS connection is as follows.

First, the source QSTA sends a DLS connection request message to QAP. QAP decides whether to support DLS from the administrator's point of view, and if it allows DLS, it sends a connection establishment message to the destination QSTA. After receiving the DLS connection request message, the destination QSTA determines whether to accept the DLS connection, and transmits the result to the QAP by putting the result in the DLS connection response message.

In this case, if the destination QSTA accepts the connection, the destination QSTA can directly transmit the data to the source QSTA from this point without going through QAP. Upon receiving the DLS connection response message, the QAP forwards the result to the source QSTA. The source QSTA receiving the result of the DLS connection request may directly transmit data to the destination QSTA when the result of the DLS connection request is successful.

DLS allows twice the transmission efficiency by allowing direct transmission in infrastructure mode wireless LAN environment, but can provide differentiated service when transmitting data using competitive EDCA, but does not provide quality service. You may not.

The present invention is to solve the conventional problems as described above, an object of the present invention by using the DL-HCCA manager providing an interworking procedure and data transmission scheme between the DLS and HCCA proposed in IEEE 802.11e, It is to provide a direct data transmission method between stations using polling in an infrastructure wireless LAN environment that provides link utilization and quality guaranteed services when data is transmitted between two QSTAs in a wireless LAN environment of a mode.

In order to achieve the object of the present invention as described above, the direct data transmission process between the stations using polling in the infrastructure wireless LAN environment according to the present invention is the interworking procedure and data transmission DLS proposed in IEEE 802.11e and HCCA In an infrastructure wireless LAN environment for performing direct data transmission between source QSTA and destination QSTA using a DL-HCCA manager providing a scheme, the source QSTA transmits a DLS connection request message to QAP. And, the QAP transfers it to the destination QSTA, and the destination DL-HCCA manager receiving the DLS connection request message determines whether the DLS is a direct data transmission request using the HCCA, and if the DLS connection request is the HCCA, In the case of data transmission using, the HCCA resource reservation is made to the QAP using TSPEC (Traffic Specification). The second step of transmitting the HCCA resource allocation result to the source QSTA through the DLS response message, and if the HCCA resource is successfully allocated from the QAP, and the DLS configuration is successfully set, the DL-HCCA manager is the DLS information. A third step of storing TSPEC information in a DL-HCCA connection list, and a fourth step of setting a resource reservation between the source QSTA and the QAP by using the TSPEC, the source QSTA DL-HCCA manager receiving the DLS response message; In step 4, if HCCA resource allocation and DLS configuration are successful, step 5 of storing the DLS and TSPEC information in the DL-HCCA connection list, and after the connection configuration is completed, QAP polling messages for each QSTA DL-. The sixth process of forwarding to the HCCA manager, and as the QAP polls each QSTA, if a TSID (Traffic Stream IDentifier) is registered for DLS, a given TXOP (Transmission Opportunity) And a seventh process of directly transmitting data to a DLS connection establishment destination.

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In the infrastructure WLAN environment according to the present invention, direct data transmission between stations using polling is performed using DLS and HCCA channel access techniques for data transmission between two QSTAs belonging to the same infrastructure WLAN mode. The service has a more efficient link utilization.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, the DL-HCCA manager proposed in the present invention is located in each QSTA (QoS Station) 200, 300 to provide a direct data transmission function based on DLS connection establishment and polling using HCCA in infrastructure WLAN mode. It provides connection setting and data transmission function for interworking between DLS and HCCA.

1 is a network configuration diagram for direct data transmission between stations using polling in an infrastructure WLAN environment according to an embodiment of the present invention, FIG. 2 is a data flow diagram between each QSTA and QAP according to the present invention, and FIG. Is an overall flowchart of a direct data transmission process between stations using polling in an infrastructure WLAN environment according to an embodiment of the present invention.

First, the DL-HCCA manager of the source QSTA 200 which makes a DLS setup request for DLS connection setup starts the connection setup of the DLS and HCCA, and transmits a DLS connection request message to the QAP 100. At this time, the DLS connection request message uses a standard format defined in IEEE 802.11e.
The QAP 100 delivers the DLS connection request message received from the source QSTA 200 to the destination QSTA 300.
The destination QSTA 300 receives the DLS connection request message from the QAP 100, releases the DLS connection if the DLS setup fails through the DL-HCCA manager, and if successful, the destination QSTA 300 sets the TSPEC. Send a message to the QAP (100).
If the TSPEC resource reservation is successful, the TSPEC information and the DLS connection information are stored in the list, and the HCCA polling standby state is entered.

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4 is a diagram illustrating an operation process of a destination QSTA for establishing a DL-HCCA connection, and the QAP 100 receiving the DLS connection request message transmits the message to the destination QSTA 300. The destination QSTA 300 receiving the DLS connection request message from the QAP 100 determines whether the currently requested DLS requests direct data transmission using the HCCA.
In this case, the criterion for determining uses the fields "CF-Pollable", "CF-Poll Request", and "QoS" in the "Capability" element of the DLS connection request message. That is, when configured as shown in Table 1 below, data transmission request using HCCA is defined in DLS environment.

CF-Pollable CF-Poll Request QoS One 0 One

If the DLS connection request is not an HCCA use request, an HCCA unsupported message is included in a DLS response message and transmitted to the QAP 100. When the DLS connection request requests data transmission using the HCCA, the destination QSTA 300 The DL-HCCA manager of) performs HCCA resource reservation between the destination QSTA 300 and the QAP 100 using TSPEC.
At this time, if the TSPEC resource reservation fails, the TSPEC resource reservation failure code is marked on the "Reason code" and loaded on the DLS response message to be transmitted to the QAP 100.

If the resource reservation is successful, the TSPEC information and the DLS connection information are stored in the DL-HCCA manager module as shown in FIG. 5.
FIG. 5 is DL-HCCA manager module information stored in a DL-HCCA manager, and is composed of an index number, a source QSTA MAC address, a destination QSTA MAC address, a TSID, and a TCLASS. When the connection establishment is successful and receives an HCCA polling message from QAP for data transmission, it is used to distinguish whether the HCCA polling message is a polling message for DLS.
If the TSPEC resource reservation by the DL-HCCA manager module succeeds, the TSPEC information and the DLS connection information are stored in the list, and the result is transmitted to the QAP 100 by putting the result in the DLS response message and waiting for the HCCA polling message.
Meanwhile, the QAP 100 delivers a DLS response message from the destination QSTA 300 to the source QSTA 200. The source QSTA DL-HCCA manager receiving the DLS response message first checks the "Reason code" of the DLS response message, and immediately releases the DLS connection if the "Reason code" indicates a failure. Follow the procedure given in 802.11e.

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On the contrary, when the TSPEC resource of the destination QSTA is successfully reserved, HCCA resource reservation between the source QSTA and the QAP is executed by using the TSPEC. If the HCCA resource reservation is not successful, the DLS connection is released immediately. If the HCCA resource reservation is successful, the TSPEC information and the DLS connection information are stored as shown in FIG. 5.

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The source QSTA 200 waits for the HCCA polling message from the QAP 100 for data transmission after storing the TSPEC connection information and the DLS connection information.

FIG. 6 is a flowchart illustrating data transmission between QSTAs after successful DL-HCCA connection establishment according to the present invention. First, the source QSTA DL-HCCA manager receives a polling message from QAP (QoS Poll). The TSID determines whether the polling message is for DLS.

If it is not a DLS polling message, it is sent to QAP according to the normal HCCA polling procedure.

On the contrary, in case of DLS polling message, it checks TCLASS information and checks whether the data to be transmitted to DLS is in the MAC queue.

7 is a flowchart illustrating a data transmission procedure between the source QSTA 200 and the destination QSTA 300. Each QSTA 200 and 300 receiving a polling message check TSPEC information and check whether it is polling for DLS. In case of DLS polling, data is transmitted to the QAP 100. In case of DLS polling, data between stations 200 and 300 is directly transmitted during TXOP given to the connected counterpart QSTA.

In the infrastructure wireless LAN environment according to the present invention described above, the direct data transmission method between the stations using polling is not limited to the above-described embodiment, and without departing from the gist of the present invention as claimed in the following claims. Anyone with ordinary knowledge in the field of the invention has the technical spirit to the extent that it can be variously modified and implemented.

1 is a diagram showing the configuration of a network for implementing a direct data transmission method between stations using polling in an infrastructure WLAN environment according to the present invention;

2 is a view showing a connection procedure using the DLS and HCCA in the present invention,

3 is a flowchart illustrating a direct data transmission process between stations using polling in an infrastructure WLAN environment according to an embodiment of the present invention.

4 is a diagram illustrating an operation process of a destination QSTA for establishing DL-HCCA connection according to an embodiment of the present invention;

5 is a data configuration diagram of a DL-HCCA manager module according to the present invention,
6 is a diagram illustrating a polling-based data transmission procedure according to the present invention;

7 is a diagram illustrating an operation of a QSTA receiving a polling message according to the present invention.

<Description of the symbols for the main parts of the drawings>

100: QAP 200: Origin QSTA

300: Destination QSTA

Claims (6)

delete Direct-Link Setup (DLS) proposed by IEEE 802.11 is based on HCCA (HCF Controlled Channel Access) and DL-HCCA Manager (Direct Link-HCCA manager), which provides interworking procedures and data transmission techniques. A method of transmitting data between stations in an infrastructure WLAN environment performing direct data transmission between The first step of transmitting the DLS connection request message to a QAP (QoS Access Point), and transmitting the same to the destination QSTA; The DL-HCCA manager of the destination QSTA receiving the DLS connection request message determines whether the DLS is a direct data transmission request using HCCA, and if the DLS connection request is data transmission using HCCA, uses TSPEC (Traffic Specification). Making a HCCA resource reservation in the QAP, and transmitting the HCCA resource allocation result to a source QSTA through a DLS response message; A third step of storing, by the DL-HCCA manager, the DLS information and the TSPEC information in the DL-HCCA connection list if the destination QSTA has been successfully allocated the HCCA resource from the QAP and the DLS configuration has been successfully configured; A fourth step of setting, by the source QSTA DL-HCCA manager receiving the DLS response message, resource reservation between the source QSTA and the QAP in the QAP using a TSPEC; A fifth step of storing DLS and TSPEC information in a DL-HCCA connection list if HCCA resource allocation and DLS configuration have been successfully performed in the QAP; A sixth step of, after the connection establishment is completed, the QAP forwarding a polling message to each QSTA DL-HCCA manager; And As the QAP polls each QSTA, if a Traffic Stream IDentifier (TSID) is registered for DLS, a seventh process of directly transmitting data to a DLS connection establishment destination for a given TXOP (Transmission Opportunity); Direct data transmission method between stations using polling in an infrastructure wireless LAN environment. The method of claim 2, The determination of whether the destination QSTA requests direct data transmission using the HCCA in the second process may be performed by "CF-Pollable", "CF-Poll Request", and "CF-Pollable" in the "Capability" element of the DLS connection request message transmitted from the source QSTA. Direct data transmission method between stations using polling in an infrastructure wireless LAN environment, characterized by discriminating by a DL-HCCA manager module distinguishing using a QoS "field value. The method of claim 2, When the resource reservation fails as a result of executing the TSPEC (Traffic Specification) in the second process, the infrastructure wireless LAN characterized in that the TSPEC resource reservation failure code is marked on the "Reason code" and put on the DLS response message and transmitted to the QAP. Direct data transmission between stations using polling in environment. The method of claim 2, In addition to the fifth process, the DL-HCCA manager module determines TPEC information (TSID, TCLASS) and DLS connection information (source QSTA MAC address, destination) to distinguish between general polling message and DLS polling message when HCCA resource reservation is successful for the DLS. QSTA MAC address) further comprising the step of storing a direct data transmission method between stations using polling in an infrastructure wireless LAN environment. The method of claim 2, The seventh step may include determining whether a polling message received from the QAP is for DLS; In the case of the DLS polling message, checking TCLASS information and checking whether data to be transmitted to the DLS is in a MAC queue; And If there is data to be transmitted as a result of the MAC queue check, directly transmitting the corresponding data during the TXOP given to the destination QSTA by referring to the DLS connection information; and directly between stations using polling in an infrastructure WLAN environment. Data transfer method.

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