TH67261B - Traditional Wi-Fi (WI-FI) architecture for ?802.11 networks - Google Patents

Abstract

DC60 (22/01/47) The invention is a software-based wireless utility system. The system includes a driver that communicates with the network stack and a network interface card (NIC). The host station communicates with the station driver and the 802.1X request or 802.1X authentication module. Each NIC provides station and/or access point support functionality. The driver discards received packets if they are not authenticated and associated. Fragmented or encrypted packets are reassembled and decrypted. A management module, in conjunction with a management grid, supports customizing the appearance of the station and access point via a management packet. The management module receives 802.1X data packets from the packet processor and forwards them to the host station, which communicates with the user-mode application and the 802.1X request or 802.1X authentication module, which serves as the authentication or de-authentication station and access point. It also provides application programming interfaces (APLS) to enable communication between components.

Claims (3)

Disclaimer (all) which will not appear on the advertisement page. : ------ 19/10/2018 ------ (OCR) Page 1 of 4 pages Claim 1. A method of operating a converted device for communication over a wireless network. interface)! # Match with wireless network and operating system, resolution together with network stack (network stack) and driver ^ driver) network interface. There is a network driver interface that consists of a) receiving a network interface packet over a wireless network in the form of a protocol. Wireless network protocol b) The first processing of packets received in the network interface c) communicating via a network driver interface. interface) The second part of the packet received from the network interface to the driver of the network interface. An operating system in the form of a wireless network protocol d) Processing the second part of various packets within the operating system drivers to It creates different packets in the form of a second protocol differently than the wireless network protocol and e) the arrangement of packets in the form of a second protocol to the stack of the framework Network (network stack) 2. The method of claim 1 also includes: timing synchronization, matching, and network interface 3. The second claim method, which performs timing synchronization, consists of generating a beacon on the wireless network, TST synchronization (TST synchronization), passive scanning. At least 4. The method for claim 1 also includes a complementary action, with the division function. The network interface function consists of page 2 of total 4 pages 0 PHY function, MAC data service and iii) MAC frame function at least one function 5. The method according to claim 1 that rests the first process, of which the received packet contains the Combines the first part of the received packet within the network interface and the communication.The second part of the received packet contains the communication packets that are not included in the network interface. 6. The method according to claim 1, where the second part of the packet contains the packet. Data and processing to generate various packets in the form of a second protocol include It is chosen by creating a reformatted data packet from the second part and providing packets in the form of a second protocol consisting of packet arrangement. The data gate has been changed (reformatted data packet) 7. The method, according to claim 1, removes the wireless network protocol, identifying different packet types, including various data packets and various management and communication packets, and the second part of the packet. Packets containing communication management and data packets 8. Devices that are converted for communication over a wireless network. Devices consist of a) a wireless network interface consisting of: The physical network interface card and the first network driver interface card were converted to transmit and / Or receive packets over a wireless network in the form of a wireless network protocol, and b) a driver that is converted for packets to communicate through the driver interface. The first network driver interface, the second network driver interface, and the driver are converted to communicate packets in the form of a protocol that Two pass part Connect a second network driver interface and to process packets on page 3 of 4 pages to convert different packet formats between the formats of the first driver interface (first driver interface) and second driver interface 9. Device according to claim 8, where the driver is a virtual miniport 1 0. Equipment according to claim 8, which contains the first network driver interface and the second network driver interface of the NDIS links. (NDIS interface). The device, according to claim 8, the driver is also equipped with an IOCTL (IOCTL interface) 1 2. The equipment according to claim 11 is also supplemented. The server has been converted to make it possible to participate. Interconnect one or more of the request layer components (application layer components) and the IOCTL interface (IOCTL interface) 1 3. The devices according to claim 8, where the wireless network interface is converted to scan for BSSs, in response to commands received through the driver interface 1 4. The device according to claim 8, where the wireless network interface is converted to perform the power management function! With commands received through the driver interface 1 5. The equipment, according to claim 8, where the wireless network interface is converted to function in conjunction with the device to the utility network, in response to With the command received through the driver interface 1 6. Method according to claim 1 that rests communication the second part of the received packet. It consists of the second communication part through the NDIS 1 connection 7. The method according to claim 1 that executes the second part of the packet consists of: Process the second part of the packet within the optimization system page 4 of the number 4 page 1 8. Method according to claim 8, which removes the first network driver interface and interface. The second network driver is the software interface ------------ ------ 21/11/2017 ------ (OCR) Page 4. Of 5 pages a) The first link for the exchange of packets in the form of a wireless network protocol and the provision of commands through the network driver interface; b) filtering modules. At least one to select at least one packet transmission received over the first interface c) at least one data packet processing module d) at least one mole process to one handling packet e) Mole routing for picking directly to packets passed by one filter mole is Less to one or more data packet processing modules or to one or more data packet processing modules. Manage at least one f) A second interface for exchanging packets with interconnection protocol modules. The second protocol form and g) mole. The packet converters match between the moles, processing one data packet. Little and the second connection 1 7. Computer storage media according to claim 16 where the first interface was converted for Exchange various packets in the form of 802 protocol. 1X, and the second connecting part is converted. For exchanging various packets in the form of 802 protocol. 3 1 8. Computer storage media according to claim 17, where the first interface and the second interface. It is a connecting part to NDIS 1 9. Computer-readable media per claim 18, where drivers for a wireless network are made up of operating system components 2 0. Computer storage media according to claim 18, where the drivers for the wireless network are the station drivers and the modules that the computer can process. Also includes: h) Station Connection Management Division ------------ ------ 21/11/2017 ------ (OCR) Page 4 of 5 pages a) The first link for exchanging packets in the form of a wireless network protocol and providing commands through the network driver interface. B) At least one filter module of choice. Transmission of received packets through the first interface c) at least one data packet processing module d) at least one molar processing of one management packet e) molar routing For selecting exactly the packets passed by one filter molule. Less to one or more data packet processing modules or to one or more data packet processing modules. Manage at least one f) A second interface for exchanging packets with interconnection protocol modules. The second protocol form and g) mole. The packet converters match between the moles, processing one data packet. Little and the second connection 1 7. Computer storage media according to claim 16 where the first interface was converted for Exchange various packets in the form of 802 protocol. 1X, and the second connecting part is converted. For exchanging various packets in the form of 802 protocol. 3 1 8. Computer storage media according to claim 17, where the first interface and the second interface. It is a connecting part to NDIS 1 9. Computer-readable media per claim 18, where drivers for a wireless network are made up of operating system components 2 0. Computer storage media according to claim 18, where the drivers for the wireless network are the station drivers and the modules that the computer can process. Also includes more. H) Station Connection Management Section ------------ Edit 10/02/2017 1. A method of operating a converted device for communication over a wireless network. The device has an interconnection (network). interface), coupled with a wireless network and an operating system with a network stack and a driver (driver). The network interface provides a driver interface. A network driver interface method consists of a) receiving a network interface packet over a wireless network in the form of a wireless network protocol. protocol) b) processing of the first part of the packet received in the network interface c) communicating through the network driver interface the second part of the packet From the network interface to the driver of the The operating system as a wireless network protocol d) Processing the second part of the packets within the operating system drivers to Creating different packets in a second protocol format is different than wireless network protocol and e) the arrangement of packets in the form of a second protocol to the stack of the framework. Network (network stack) 2. The method of claim 1 also includes timing synchronization and the network interface. 3. The second claim method, where timing synchronization is performed, consists of creating a beacon on the wireless network, TST synchronization (TST synchronization), passive scanning. (passive scanning) active scanning and at least probe response 4. The method for claim 1 is also complemented by operating in conjunction with the section function. The network interface function consists of i) PHY function, ii) MAC data service, and iii) one or more MAC frame functions.5. The method based on claim 1 where the first part of the received packet consists of Combines the first part of the received packet within the network interface and the communication.The second part of the received packet contains the communication packets that are not included in the network interface. 6. Method according to claim 1, where the second part of the packet contains the packet Data and processing to generate various packets in the form of a second protocol include It is selected by creating a reformatted data packet from the second section and providing packets in the form of a second protocol consisting of packet arrangement. The reformatted data packet 7. Claim 1 method where wireless network protocol identifies various packet types, including various data packets and metering and communication packets, the second part of the packet. A packet consisting of measurement, communication and data packets 8. A device converted for communication over a wireless network. The device consists of a) the wireless network interface consists of a card. Physical network interface card and first network driver interface card physical network interface card is converted to send and / or receive packets over A wireless network in the form of a wireless network protocol and b) a driver that is converted to packets to communicate through the first network driver interface. A driver has a second network driver interface, and the driver is converted to packets to communicate in the form of a second protocol through a segment. Connect a second network driver interface and to process the packets. To convert different packet formats between first driver interface and second driver interface 9. Device according to claim 8, where the driver is a virtual miniport 1.0. Device according to claim 8, where the first network driver interface and the second network driver interface are the NDIS interfaces. ) 1 1. Device according to claim 8, where the driver additionally includes an IOCTL (IOCTL interface) 1 2. The equipment according to claim 11 is also supplemented. The server has been converted to make it possible to participate. Connect one or more application layer components and IOCTL interfaces (IOCTL interface) 1 3. Device according to claim 8, where the wireless network interface is converted to scan for BSSs in response to commands received through the driver interface 1 4. Device according to claim 8, where the wireless network interface is converted to perform the power management function in response to With commands received through the driver interface 1 5. Device according to claim 8, where the wireless network interface is converted to function in conjunction with the device to the utility network to meet With the command received through the driver interface 1 6. Computer storage media contains modules that the computer can process, that is, to make the drives. Effective power for wireless interconnection devices for communicating with young media over the wireless network. Calls according to the wireless network protocol when it is processed The wireless interconnection section is an interconnection. Network Driver The module consists of a) the first link for the exchange of packets in the form of a wireless network protocol and the provision of commands through the network driver interface; b) one filtering module is At least for selecting packet transmission received over the first interface c) at least one data packet processing module d) at least one management packet processing module e) module routing For selecting exactly the packets passed by one filter module. Less to one or more data packet processing modules or to one or more data packet processing modules. Manage at least one f) A second interface for exchanging packets with interconnection protocol modules. A second protocol format and g) a paired packet converter module between the module processes one data packet. Little and the second connection 1 7. Computer storage media according to claim 16 where the first interface was converted for Exchange various packets in the form of 802 protocol. 1X, and the second connecting part is converted. For exchanging various packets in the form of 802 protocol. 3 1 8. Computer storage media according to claim 17, where the first interface and the second interface. It is a connection for NIDS 1 9. Computer storage media according to claim 18, where drivers for a wireless network are made up of operating system components 2.0. Computer storage media according to claim 18, where the wireless network drivers are the drivers, stations, and modules the computer can process. Also includes additional h) Connected Management Division 2 1. Computer storage media according to claim 16, where wireless network drivers are the drivers, access points, and modules that the computer can process, also includes h) Connected Management Access Point 2 2. . Computer storage media according to claim 16, where the wireless network driver is a virtual mini-port driver 2 3. Computer storage media according to claim 16, where the network protocol module is a network stack 2 4. Computer storage media according to claim 16, where the protocol structure is bridge (bridge) 2 5. Method according to claim 1, where the second communication part of the received package It consists of the second communication part through the NDIS 2 connector 6. The method according to claim 1 where the second part of the packet process consists of: Process the second part of the packet within the operating system 2 7. Method according to claim 8, where the first network driver interface and interface The second network driver is the software interface. -------------------------------------------------- ----- The thing that holds the rights is 1. Software-oriented wireless infrastructure includes Station driver for communicating with the first network stack and the first communicating interconnect card. With a wireless local area network (LAN) host station which communicates with station drivers and Devices using 802. 1X Driver for the access point to communicate with the second interconnection card and One of the network bridges and the second network stack. Communicating With a wired network, the second interconnection card that communicates with Local network, wireless LAN, and host for access points. It communicates with the driver, access point, and 802 credentials. 1X 2. The system in claim 1 where the station drivers consist of The first filtering mechanism for receiving packets (packets) consisting of data packets 802 data packets 1X and first packet handling filter mechanism for cull. Discard data packets and 802 packets. 1X if the packet has not been authenticated or linked Packet processor It communicates with the filtering mechanism, the packet processor receives the pack. Certified gets and Connected from the first filter mechanism The packet processor reassembles the packets that have been fragmented that has been fragmented again. The interoperability manipulation of the receiving station. Management from the body Process packets The second filter mechanism does Discards data packets sent by the sending device. That were not certified and delivered data packets which were sent by The resulting transmission device Get certified to the first network stack and the station manager which receives Data packets 802. 1X from the packet processor with the station manager communicating Message to the station host 3. The system in claim 2 where the packet processor does Packet decoding Which has been encrypted 4. The system in claim 2, where the station driver also includes the first demux between the station processor segment and the second collector mechanism, where the first splitter receives a packet from the pack processor. Get And send handling packets To the Link Management Division of the Station and the Second Section Between the first separation and the second filter mechanism, the second separation is possible. Get the packet from the first split and perform Send handling packets 802. 1X to the management section Stations and packages Transfer the data to the second filter mechanism 5. The system in claim 2, where the station drivers also include adjustment schedules. Compose which communicates with the station's connected handler 6. The system in claim 5 also includes a control mux that communicates with the station host, the station's connected management. And tuning tables 7. The system in claim 2 that also includes a packet converter. For pack conversion Data packets which are sent to the network stack. From data packets 802. 11 to 802 data packets. 3 packet converters that communicate with the network stack and a second filter mechanism 8. The system in claim 1 at the access point driver contains the first filter mechanism for receiving packets. The packet consists of a data packet, 802 data packet. 1X and the first packet handling filter mechanism is discarded. Data packets and 802 packets. 1X If the packet is not authenticated and is connected, the packet processor communicates with the filtering mechanism. Receive packets that are certified. And was connected by the first filtering mechanism, the packet processor part Reassembling packets that have been fragmented again. The connected management section of the access point Which receives handling packets from the packet processor section A second filtering mechanism that receives data packets from a segment. The second filtering mechanism discarded the packet message. Data which was transmitted by an unauthorized transmission device. And send data packets which are sent by the sending device Be certified to The first network stack and the access point management that receives 802 data packets. 1X from the packet processor, the access point management section communicating with the parent. Access point network 9. The system in claim 8 where the packet processor does Packet decoding Which has been encrypted 1 0. The system in claim 8 where the access point driver also includes the first demux between the packet processor. And the second filter mechanism The first splitter which receives the packet from the segment. It processes the packets and sends the handling packets to the connected manager of the access point and the second splitter between the split devices. The first signal and the second filter mechanism, the second separation performs Receives the packet from the first splitter and transmits the 802 handling packet. 1X to the management area of the access point and send a packet Manure to the second filter mechanism 1 1. System in claim 8, where the access point driver It also includes an adjustment table. Composed that communicates with the management Connections of the access point 1 2. The system in claim 11, which also includes separate devices Control signal The message is with the host, the system entry point, the association management of the access point And the adjustment table of different 1 3. The system in claim 10 also includes a third splitter to indicate that the destination Of that packet is A device in a wireless LAN (wireless LAN) network? Bridge the access point communicating with the third intersection. The access point bridge receives the pack. The packet from the third intersection with a point Refers to a device on the wireless local area network. The bridge access point sends packets that are intended to Devices on a local network Wireless to adapter Network for transmission to equipment 1 4. Method for receiving packets in one of the station drivers. And access point driver From a device that communicates with a wireless network, a packet consists of one of the 802 packets of data packets. One 1X and one handling packet This method includes several steps of receiving packets. Determining whether a packet is a packet of 802 packet data. 1X or packet abandonment management packet if the device has not been received. Associate or be connected And the packet is one of the packets Data and packets 802. 1X Discarding the packet if the device has not been received. Subscriber and that packet It is not an 802 packet. 1X and converting that packet into 802 packets. 3 if that packet It is a data packet 1 5. The methodology in claim 14 also includes a number of procedures. To arrange packets The fragmented information is aligned together. (defragmenting) if the card is connected Network With one of the stations and access points not yet aligned scattered packets 1 6. The methodology in claim 14 also includes a number of procedures. In decoding packets If the interconnection card that communicates Stay with one of the stations and access points where the packet code has not been decrypted 1 7. The method in claim 14 also includes a procedure for Connect the equipment for It is in response to receiving packets. Manage from device 1 8. The methodology in claim 14 also includes the procedure for obtaining Deputy equipment for It is in response to receiving 802 packets. 1X 1 9. The method for claim 14 also includes procedures for Send packets through bridge The access point if the packet is assigned. To have a target to another device on the wireless network 2 0. An interconnection card that communicates with one of the stations. And an access point, which contains inputs for receiving packets from devices on a wireless network. Output for sending packets to one of the stations and the access point and the processor communicating with the input and output, where the processor is Act steps of Established at least One parameter of an interconnection card in response to receiving a parameter establishment request from one of the stations and an access point establishment request. The parameters consist of At least one temperature range request Maximum MPDU length request (Media Access Control Protocol Data Unit) MAC address request (Media access control) Station ID request Current TX antenna request Current RX antenna Current TX power level, supported TX antenna request and supported RX antenna request 2 1. Interconnection card in claim 20, where the processor still does At least one step in establishing Interconnection card capability to respond to receiving requests from one of the stations and access points, where the request consists of at least one of the offload requests, the current capability, the mode request. Current operation, current PHY type request, ability request, current option. And requesting a variety selection RX 2 2. Interconnection card in claim 20, where the processor is also Complete at least one staging step. The ability of the interconnection card to As a response Per receipt of a request from one of the stations and an access point, a request consists of at least a transfer request, a capacity request. In the current transfer, the operating mode capability request. Request Optionally, WEP Transfer Request, WEP Entry Request, Initial WEP Transfer Request, WEP Entry Request, and MPDU Maximum Length Request (Media Access Control Protocol Data Unit) 2 3 . Interconnection card in claim 20, where if the interconnection card Supports at least one of the direct sequence spread spectrum physical layer, orthogonal frequency-division multiplexing physical layer, packet binary convolution coding physical layer and complementary code keying physical layer.Parameter setting requests also include at least one of the current channel requests. Supported CCA mode request, current CCA mode request, and ED threshold request 2 4. Interconnection card in claim 20, where, if the interconnection card supports an infrared physical layer, the parameter-setting request also contains at least one of the CCA watchdog timer max (CCA watchdog timer max) requests. Maximum watchdog count CCA (watchdog count max call CCA) minimum watchdog count limit CCA (watchdog timer min call) request and minimum watchdog count max call CCA request (CCA watchdog count min call) 2 5. Interconnection Card in claim 20, where if the interconnection card supports frequency-hopping spread spectrum physical layer, the request for setting up a parameter also consists of at least one of the Request hop time. Request current number of channels. Time-of-stay request Longest Time-of-stay request Current establishment request. Requesting a current scheme and requesting a current index 2 6. Interconnection card in claim 20, where the processor still does The procedure for establishing at least one para The meter of the local network of an interconnection card in response to receiving requests from one of the stations and access points. To establish para The local network meter. The request consists of at least one ATM window request, a beacon period call request, an operating rate establishment request. Current reg domain request, current TX antenna request, current RX antenna, current TX power level, supported TX antenna request and RX antenna request RX 2 diversity assortment request 7. Interconnection card in claim 26, where if the interconnection card supports frequency-hopping spread spectrum physical layer, the request also contains at least one hop time request, number request. Current channel Longest Stay Time Request Current Time-of-Stay request Current Establishment request Current schema request And requesting current index 2 7. Interconnection card in claim 26, where if the interconnection card supports direct sequence spread spectrum physical layer, the request also contains at least the current channel request. Supported CCA mode request, current CCA mode request and ED threshold request 2 8. The interconnection card on claim 26, where if the interconnection card supports an infrared physical layer, the request will also consist of at least one watchdog timer max request. Maximum watchdog (CCA watchdog count max call) Minimum CCA timer request (CCA watchdog timer min call) CCA minimum watchdog count request (CCA watchdog count min call) 2 9. A method for communication between an interconnect card and One of the stations and An access point consists of the different stages of being provided by an interconnection card. Mode capabilities Operations supported by an interconnection card (NIC) in response to accepting requests for security Can of mode Operates from one of the stations and access points provided by an interconnection card. Operating mode Which cards are connected The network will begin operations to respond. Continues to receive requests for current operating mode from one of the stations and access points provided by an interconnection card. Group survey Basic services available Potential which the station may later choose to Try to participate in response to the reception. Request to request Cry to scan from one of the stations and access points provided by an interconnection card. Media type The physical present that should Is used by an interconnection card to Responds to certifications requesting the current PHY type from one of the default stations and access points by an interconnection card. Floor service group Base in response to Accepting requests for begging to begin From one of the stations and access points Renewal By an interconnection card Of the welding card Connect the network to answer Respond to receiving requests to Start over from one of the stations and access points 3 0. The methodology in claim 29 also includes the different stages of provisioning by an interconnection card. Window size Message for The announcement shows traffic in response to the reception. Request ATIM windows from station and beat synchronization. (synchronizing) by the interconnection card with BSS in response to receiving a request for requesting to join from the station 3 1. The methodology in claim 29 also includes the process of being prepared by an interconnection card. Selectable point coordinate function Which is supported by the adapter Network to respond to receiving requests Selected abilities Available from one of the stations and access points and provisioned by an interconnection card. The currently selected point coordinate function Which is supported by an interconnection card In response to Request the ability that is selectable in Current from one of the stations and access points and 3 2. The methodology in claim 29 also includes the procedure for being delivered by an interconnection card. List of supported functions which Get supported By an interconnection card to one of the Stations and access points in response to receiving transfer capability requests from one of the stations and access points. Provided by an interconnection card Ability to Transfer current Of the interconnection card to one of the Stations and access points in response to receiving current transfer capability requests from one of the stations and access points 3 3. The method in claim 29 also includes the different stages of receiving by the WEP row interconnect card in response to the Receiving requests Transfers from one of the stations and access points. This defines an algorithm to implement row direction, WEP MAC (Media Access Control), peer address, key length in bytes, and actual key transmitted by the defined WEP row interconnection card. but Early in response to Receiving an early-defined WEP transfer request from one of the preset WEP transfer request stations and access points, which defines an algorithm to use the indexes in the originally-defined WEP table. Where the WEP row wants to be entered, the type of address to which the WEP row is associated. The key length in bytes and the actual key transmitted by the designated WEP row interconnect card. Tree to one of Stations and access points in response to reception An originally defined WEP transfer request from one of the Station and access point 3 3. The method in claim 29 also includes the submission process. By an interconnect card, the maximum length of the MAC protocol (media access control) data to one of the stations and points. Access in response to receiving requests for the maximum length of MPDU (Media Access Control Protocol Data Unit) from one station and 3 access points 4. The methodology in claim 29 continues to include a procedure. For preparing By an interconnection card Packet type Which the interconnection card supports to answer Respond to Request filtering part of the current packet from one of the stations and up to 3 5. The methodology in claim 29 also includes the procedure of provisioning by an interconnection card, a station ID to one of the stations and an entry point. To respond to receiving station ID requests from one of the stations and an access point provided by an interconnection card. Group of Article Rates Data which the station may make Sending information to one of the stations and points Access to respond to receiving requests for setting operating rates from one of the stations and access points provided by interconnection card, warning period (beacon period) to one of the stations and the access point to respond. Responding to receiving warning period requests from one of the stations and access points and provisioning by the interconnection card. Take the exam for unity Also one of the stations and access points in response to receiving WEP ICV fault count requests from one station and 3 access points 6. The methodology in claim 29 continues to include the different steps provided by the interconnection card. Value that much time Best to the access point which Point coordination may control the Use wireless media without compromising control for a long enough time for at least one range of service facilities. Data to reach Also media in response to reception Requesting the boundary of the media from the access point provided by the interconnect card, the number of DTIM intervals between the originating points. The beginning of the contention free period is given to an access point in response to receiving a contention free period request from an access point provided by an interconnection card. The maximum duration of the non-competitive period that may have been created by the funk. Coordinate point To the access point In response to receiving CFP maximum period request from the access point is provided by the interconnection card. Message period Indicate traffic in Arrival response of the DTIM period called from the access point 3 7. The methodology in claim 29 also includes the various stages of obtaining by an interconnection card. Indication by the station whether the station is able to respond to the CF-Poll with the SIFS time frame, in response to receiving the CF pollable request from the interconnection card and provisioning by interconnection. Give the station power management mode. Station in response to receiving power management mode requests, station 3 8. The method in claim 29 also includes the different procedures for provisioning by the unique MAC address (media access control) interconnection card that has been defined for. One of the stations and access points To one of the stations and an access point in response to receiving a MAC address (media access control) request from one of the stations and an access point provided by the network card RTS threshold value to one of the stations and points. Access In response to receiving requests for RTS thresholds from one of the stations and access points provided by the network card. The maximum number of attempts Frame transmission Give to one of the stations and the access point to answer Respond to receiving requests for scope Make a brief duplicate attempt from one of the stations and access points provided by the network card. The maximum number of attempts Frame transmission Give to one of the stations and the access point to answer Respond to receiving requests for scope Long repeated efforts from One of the stations and access points provided by the network card. The current maximum number of MPDU (Media Access Control Protocol Data Unit), which may be sent to the PHY layer to one of the stations and access points in response to the request of the splitting threshold by one of the stations. And the access point provided by the network card The maximum MSDU (Media Access Control Services Data Unit) transmission expiration time, after which time additional attempts to pass MSDU (Media Access Control Services Data Unit) will be canceled to one of the stations and the access point. In response to Request the expiration time of the MSDU transmission (Service Data Unit Control media access), max by one station and the access point provided by the network card. The elapsed time after the reception Initial knowledge of the MPDU (Media Access Control Protocol) or MSDU (Service Data Unit) Control of access to the media), which is then further attempted to Reassemble the MPDU (Protocol Data Unit Media Access Control) or MSDU (Media Access Control Service Data Unit) will be terminated to one of the stations. And access point In response to the receipt of the request, the maximum reception expiration time from one of the stations and access points, and provisioned by the network card, the establishment of a statistics counter. To one of the stations and to the point of arrival in response to receiving requests from a counter from one of the stations and 3 access points 9. The methodology in claim 29 also includes the process of being prepared by an interconnection card. Physical media type Supported by the card Network connection To one of the stations and an access point in response to receiving a supported PHY type request from one of the stations and an access point provided by the current regulartory domain interconnect card at the current case of the ascent. With physical media to certify rights To one of the stations and access points in response to receiving current mandatory domain requests. From one of the stations And access points and provision by interconnection cards The ability of the physical layer's operating temperature range to one station and an access point in response to a request. Request the capability of the temperature range from one of the stations and access points 4 0. The methodology in claim 29 also includes the process of being prepared by an interconnection card. Current antenna Used to pass To one of the stations and the access point in response to the reception. Requesting a current TX antenna from one of the stations and an access point is provided by an interconnection card. A diversity support value is given to one station and an access point in response to receiving requests, support for variation from one station and access point, and provisioning by an interconnect card. The current antenna used to receive packets to one of the stations and access points in response to receiving current RX antenna requests from one of the stations. And access point 4 1. The methodology in claim 29 also includes the different stages of provisioning by an interconnection card. Number of levels Energy supported and Level transmission output energy Milliwatts for all The power level supported to one of the stations and the access point. In response to the receipt of the request Supported power levels from one of the stations and access points provided by an interconnection card. The power level transmitted current to the access point station. In response to receiving Requesting the current TX power level from one of the stations and 4 access points 2. The methodology in claim 29 also includes the different stages of provisioning by an interconnection card. Time in millis Seconds for It changes as the physical media variation from the first channel to the second channel. To one of Station and access point In response to receiving hop time requests from one of the stations and access points provided by the interconnection card, the current channel number of the output frequency. From the RF synthesis section to one of the stations and the access point In response to receiving requests for the current channel number From one of the stations and access points provided by an interconnection card Most time Which the transmitter receives It is allowed to work on one channel for one station and an access point. In response to receiving requests for maximum stay time From one of the stations and access points provided by an interconnection card Current time which The transmitter will operate on a single channel as set by the MAC (Media Access Control) to one of the stations and access points. In response to receiving the current address time request from one of the stations and access points provided by an interconnection card. The current pattern group of the physical layer management entity is currently in use to indicate that the sequence of each step is given to one of the stations and access points. In response to receiving current group requests from one of the stations And the access point provided by the interconnection card The current pattern in which the physical layer management entity (PHY LME) is being used to indicate the sequence of steps. To one of the stations And access point In response to receiving current schema requests from one of the stations and access points provided by an interconnection card. The current index value that PHY LIME is using to indicate the current channel number for one of the stations and access points. In response to receiving the request for the current index. From one of the stations and access points 4 3. The method in claim 29 also includes the steps provided by the interconnection card, the current operating frequency of a DSSS (direct sequence spread spectrum) physical layer to one of the stations and an access point in response to the Accepting current channel requests from one of the stations and access points provided by an interconnection card. Evaluation mode Channel clearing (clear channel assessment, CCA) to one of the stations and access points. In response to receiving a CCA mode support request from one of the stations and access points provided by the current CCA mode interconnection card currently operating to one of the stations and access points. In response to receiving current CCA mode requests from one of the stations and access points provided by an interconnection card. Threshold value of Sensing power Currently it is being used by direct sequence spread spectrum physical layer to one station and an access point in response to receiving an ED threshold request from one of the stations and an access point provided by an interconnect card. Time checking fee Maximum surveillance (maximum CCA watchdog timer value) for one of the stations and access points in response to the request. Ask for the maximum monitoring time From one station and an access point provided by an interconnection card, the highest watch dog count (CCA watch dog count) is given to one of the stations and the access point in response to receiving a surveillance count (CCA) request. watch dog count) maximum from one of the stations and access points provided by an interconnection card. The minimum CCA watchdog timer value is given to one of the stations and access points in response to receiving requests. Minimum monitoring time value From one of the stations and the access point provided by an interconnection card. The lowest CCA watch dog count to one of the stations and access points in response to receiving the lowest CCA watch dog count from one station and 4 4 access points. . The methodology in claim 29 continues to comprise the different stages of provisioning by an interconnection card. Mandatory domains in which physical layer convergence protocol and support are established. With physical media in its current implementation in response to reception Domain support request required From one of the stations and access points 4 5. The methodology in claim 29 also consists of the different steps provided by the interconnection card. The truth value of the pole Air passes through the receiver to one of the stations and the access point. In response to receiving requests for a supported TX antenna from one of the stations and an access point provided by an interconnection card. The truth value of the pole Supported receiver air to one of the stations and access points. In response to receiving a supported RX antenna request from one of the stations and access points provided by an interconnection card. Sending and receiving rates Supported information is provided to one of the stations and access points in response to receiving requests. Supported data rates from one of the stations and access points 4 6. Methods of communication between interconnection cards And one in the station and An access point consisting of different stages of pick-up by one of the stations and an access point. The ability of the operating mode supported by the interconnection card to respond to the transmission of the capability request. Operating mode to the receiving interconnection card by one of the stations and the access point. Operating mode Which cards are connected The network will begin operating in response to sending mode capability requests. Operating current for an interconnection card The current operating mode request has one request indicating the operating mode. And a call to establish a mode of operation, reception by one of the stations and access points. Survey about Basic service group Potential, which the station may choose to replace Try joining later In response to submitting a request for a call to scan To the interconnection card received by one of the stations and the access point Physical media type Now that it should be used By an interconnection card in response to sending requests to a type of physical media Present to Interconnection card Physical media type request Nowadays there is one word Bellow to indicate the type of physical media Present and request calls to establish the current physical media type received by one of the stations and access points. Request status To initiate a call to respond to the submission of the request. To call for initiation To the interconnection card received by one of the stations and the access point Request status To initiate a call to respond to receiving requests To call for a fresh start To the interconnection card 4 7. The methodology in claim 46 also includes the different stages of receiving by one station. The size of the message window about the Notice to indicate traffic conditions in response to the transmission of an ATIM window request to an interconnection card and received by a station. Status of the Request for Attendance in response to the submission of the Request for Attendance. To the interconnection card 4 8. The methodology in claim 46 also includes the various procedures for receiving by one station and an access point. Function Coordination section Optional point style Which supported by the card Network connection In response to submission Request Can be selected Given to an interconnection card and a reception by one of the stations and access points. Current selectable point interface function Which supported by the card Network connection In response to Send request Can be selected at present To the Interconnection Card, the currently selectable capacity request has one word. Sing to indicate the chosen talent. Was in the present and Call for the establishment of the currently optional talent 4 9. The methodology in claim 49 also includes the procedures for receiving by one station and an access point. List of functions Supports which cards are connected Connect the support network In response to Send requests for transfer capability to the receiving interconnection card by one of the stations and access points. The ability to take Current transfer of An interconnection card to transmit and receive Requests current transfer capability to the interconnection card.Current transfer capability requests are requested to indicate current transfer capacity and a request to establish. Current transfer capability 5 0. The methodology in claim 46 also includes the various procedures for receiving by one station and an access point. WEP Transfer Response In response to sending a WEP transfer request that contains a WEP row, an algorithm has been determined to be used for the direction of the peer WEP MAC address row. Byte-level and physical key lengths to the receiving interconnection card by one of the stations and the WEP row access points that are assigned in response to the WEP transfer request. To the interconnection card received by one of the stations and the access point Initially defined WEP transfer response in response to sending a predefined WEP transfer request that has a WEP algorithm defined to use. Index in the originally defined WEP table where WEP rows are required to be populated, the type of address where the WEP row is associated with byte-level key length and the actual key to the receiving interconnection card by one. In stations and access points, the WEP row is originally defined in response to the submission of the originally scheduled WEP transfer request. To the interconnection card 5 1. The method in claim 46 also includes the procedure for receiving by one of the stations. And access point Unit length MAC (Media Access Control Protocol) data protocol in response to sending requests of the maximum length MPDU (Media Access Control Protocol) to the interconnection card 5 2. The method in claim 46 also includes the procedure for receiving by one of the stations. And access point The type of packet that Interconnection card supported In response to sending the request of the current packet filter part. To an interconnection card 5 3. The method in claim 46 also includes the various procedures of receiving by one station and the station ID access point in response to the submission of the station ID request to the Interconnection Card Station ID request. There was one request for station ID identification and a request for the establishment of a receiving station ID by one of the stations and access points. Establishment of the rate Information which one station May pass information To respond to Submitting a request to establish an operating rate for an interconnection card. Requesting to establish an operating rate There is one petition for Indicates the establishment of the rate Actions and requests to establish a reception operating rate by one of the stations and an access point, the warning period in response to the transmission. Requesting a warning period Given to the interconnection card.The warning period request has One of the petitions To indicate warning periods and requests to establish warning and reception periods by one of the stations and access points, WEP unity check value, error count value in response to request submission. To count WEP ICV errors to the interconnection card 5 4. The methodology in claim 46 also includes the various stages of receiving by the access point. The maximum amount of time the point interface may control the use of wireless media without losing control is. Long enough to cause at least the case of Providing media access information services in response to sending media access boundary requests to the receiving interconnection card by the access point. The number of text ranges indicates. Shipping traffic During the beginning of the non-competitive period in response to the submission of the CFP period request to the interconnection card. The CFP period request includes one of the requests and the request to establish a reception by an access point. The longest period of the period Without competition which May be generated by a coordinate function Point form to the access point In response to receiving the CFP maximum interval request to the interconnection card, the CFP maximum interval request has one request to indicate the time period. The longest And a call to arrange Set the longest period and reception by the access point. The time period of the delivery traffic indication message in response to receiving the DTIM period request to the interconnection card. The DTIM period request has one request to indicate the DTIM period and the request to Establish a DTIM period 5 5. The method in claim 46 also includes the different stages of transmission by the station, indicating to the interconnection card that Is the station able to respond to the CF-Poll with the SIFS time frame data in response to receiving the CF Pollable request from the interconnection card and by the station's power management mode station in response to the transmission? Power management mode request To the interconnection card, the management mode request. The energy is traced. To indicate the power management mode and request to establish Power Management Modes 5 6. The method in claim 46 also includes the different stages of receiving by one of the stations and a unique MAC (Media Access Control) access point assigned to one of the Station and access point In response to sending a request for a MAC address (media access control) to the reception interconnect card by one of the stations and the access point, the RTS threshold in response to the transmission. Requesting an RTS threshold for an interconnection adapter. An RTS threshold request includes one request to indicate an RTS threshold and a request to establish an RTS threshold received by one of the stations and access points. The maximum number of Attempts to pass one of the frames in response to the sending of the request. Short recursive effort to interconnect cards, requesting short recursion boundaries. There was one petition to briefly indicate the scope of the repeated efforts and Request for Scope Establishment Of a brief repeated attempt, reception by one of the stations and access points The maximum number of Attempts to pass one of the frames in response to the sending of the request. The scope of long iterative efforts To the interconnection card, long recursive effort boundary requests are one. In the petition to indicate the extent of that long iterative effort And requests for Establish lengthy repeat efforts boundary, reception by one of the stations and access points. The current largest size of the MPDU (Media Access Control Protocol Data Unit) that may be supplied to the PHY layer in response to a request submission. To the interconnection card requesting the fragmentation threshold, there is one. In a petition to establish the largest size in Current and Request to establish the largest reception size currently by one of the stations and access points. The transmission expiration time of MSDU (Media Access Control Services Data Unit) is maximum, after which additional attempts to pass MSDU (Media Access Control Services Data Unit) should be discontinued in response to the transmission. Requesting Expiration Time of MSDU Transmission (Data Service Control media access) maximum to the interconnection card The MSDU Transmission Expiration Time Request (Media Access Control Service Data Unit) has one request to indicate Specifies the maximum transmission expiration time of MSDU (Media Access Control Services Data Unit) and request to establish. Expiration time Of transmission MSDU (Media Access Control Service Data Unit) maximum reception by one station and access point Time has passed After the first recognition of the MPDU (protocol data acquisition unit Media Access Control) or MSDU (Media Access Control Service Data Unit), which thereafter additional efforts to assemble MPDU (Media Access Control Protocol Data Unit) and MSDU (Media Access Control Service Data Unit). Once again, it should be canceled in response to the submission of the request at the maximum receiving expiration time. Provided to the interconnection card where the time request expires. Of the maximum reception there was one petition to indicate the lapse and a request to establish the elapsed time and reception by one of the stations and access points. Various settings Of the statistical counter of 802. 11 in response to the submission of the cry Request to enter the member of the counter To the interconnection card 5 7. The methodology in claim 46 also includes the different stages of receiving by one station and an access point. Physical media type Supported by the card Interconnection in response to transmission Requesting a supported PHY type to the receiving interconnection card by one of the stations and the access point. Current mandatory domain Which is the current case of Variation on physical media is currently supported. In response to sending the current control domain request to the network adapter. Where the control domain request There is currently one In the petition to establish a control domain Current and request to establish the current control domain and receiving by one of the stations and access points. Range capabilities The operating temperature of the physical layer in response to Send a request for the temperature range capability to the network adapter. 5 8. The method in claim 46 also includes the various stages of receiving by one station and an access point. The current antenna is used in response to sending the current TX antenna request to the interconnection card, where the current TX antenna request has one to indicate the antenna. Transmit current and Requirements to establish a current transmitting antenna by one station and an access point. Variance support value in response to sending variation correspondence request to To the interconnection card and reception by one of the stations and access points. Antenna current at Is being used to receive packets in response to sending the current RX antenna request to the interconnection card, where the current RX antenna request has one to indicate the current antenna and the request. To set up the current antenna 5 9. The methodology in claim 46 also includes the different stages of receiving by one station and an access point. Number of power levels Supported tasks and Power is transmitted through milliwatts for all power levels supported in response to transmission. Requesting the supported power level to the interconnection card and receiving it by one of the stations and access points. The current transmitted power level in response to sending the current RX power level request to the interconnection card. Where the request for the current TX power level, one of the requests for indicating the current transmit power level, and the request to establish Current transmit power level 6 0. The methodology in claim 46 also includes the different stages of receiving by one station and an access point. The microsecond time for the transition of the physical medium to the transition from The first to the second channel In response to Submit time requests Jump to the interconnection card Receiving by an interconnection card Current channel number of Output frequency by An RF synthesizer to one of the stations and an access point in response to sending the current number of channels requests to the interconnection card. Where the request for the current number of channels has one request to establish the number The current channel and the request to establish the current channel number, received by one of the stations and the access point. The most time at A transponder is allowed. Operate on one channel for one station and an access point. To respond to the greatest amount of stay requests received To the receiving interconnection card at one station and an access point Current time at the transmitter Pass is executed on a single channel as defined by MAC (Media Access Control) to one of the stations and access points. In response to receiving the maximum live-time request to the interconnection card, where the address time request There is currently one petition to indicate the current time and a request for the current schedule, reception by one of the stations and access points. The current stereotype that the management leverage of the physical layer is using to indicate a sequence of steps. To one of the stations and access points in response to receiving current group requests to To the interconnection card where the current group request There is one petition to indicate a group of the current stereotypes and a request to define a group of the current stereotypes, provided by one of the stations and the access point of the current schema used. The management of the physical layer (PHY LME) is being used to indicate sequence of steps. To one of Station and access point In response to receiving current schema requests for an interconnection card. By request The current schema contains one request to indicate sequence of steps and a request to determine the sequence of steps and arrangements by one of the current indexing stations and access points that PHY LIME is using to indicate the channel numbers in the Present to one of the stations and access points in response to receiving the current index request. To the interconnection card where the index request At present there is one petition To indicate the current index and to request that the current index be determined 6 1. The methodology in claim 46 also includes the different stages of receiving by one station and an access point. Practical frequency channel The present direct sequence spread spectrum physical layer in response to transmitting channel requests. Present for the interconnection card Whereby the channel request Currently, there is one petition to Indicates the operating frequency Current and requests to determine the current operating frequency, received by one of the stations and the access point. A supported clear channel asssessment (CCA) mode to respond to sending a CCA mode support request to the receiving interconnection card by one of the operating stations and mode access points of the CCA. Is provided to one of the stations and access points in response to sending the current CCA mode request to the interconnection card. Where the current CCA mode request has One of the requests to indicate the current CCA mode and the request to determine the current CCA mode, receiving by one of the stations and access points. Examination threshold Capture energy being consumed by the direct sequence spectrum physical layer in response to sending an ED threshold request to the interconnection card. Where the request for the ED threshold has one word Cry to indicate the threshold value Detects current power and requests to set threshold values, detect current power, reception by one of the stations and access points. Maximum CCA monitoring timer value in response to a value request submission. The maximum value of the CCA surveillance timer is given to the interconnection card, where the maximum request of the CCA surveillance timer has one word. Calls to indicate the CCA surveillance timer value and requests to set the maximum value of the CCA surveillance timer, received by one of the stations and the access point. The maximum CCA watchdog count in response to a request submission. The CCA watchdog count is given to the interconnection card where the maximum CCA watchdog count is requested, has one request to indicate the maximum CCA watchdog count and requests that the CCA watchdog count is requested. Configure the maximum CCA surveillance count, received by one of the stations and the access point. Lowest CCA watchdog count to one of Station and access point To answer Responds to sending a request for a minimum value of the CCA surveillance timer to the interconnection card. Where the minimum request of The CCA watchdog had one of the petitions to indicate. Minimum CCA surveillance timer value and requests to configure the minimum CCA surveillance timer, receiving by one of the stations and access points. Minimum CCA monitoring count in response to a request submission. The CCA surveillance count is given to the interconnection card where the CCA minimum monitoring count is requested. One of the requests is to indicate the minimum CCA surveillance count and requests that the CCA surveillance count is requested. Set the lowest CCA watchdog count 6 2. The method in claim 4 also includes the different stages of receiving by one station and an access point. Mandatory domain which is The physical layer convergence protocol and its variation with the physical medium in its current implementation are in response to the physical layer convergence protocol. Submitting a fee request Support of domains Control for an interconnection card 6 3. The method in claim 46 also includes the various stages of receiving by one station and an access point. The truth value of the pole Air transmitted supported In response to sending a supported TX antenna request to an interconnection card, where a supported TX antenna request is made there is one request for Indicate the truth Of the supported transmitting antenna and requested to Configure a true transmitting antenna that supports received by one of the stations and the access point. The truth value of the pole Supported air receiver In response to the transmission of the supported RX antenna requests to the interconnection card, where the supported RX antenna requests are, one of them is indicated. Tell the truth Of the supported receiver antenna and request that Configure the truth of the receiving antenna supported by one of the stations and the access point. The truth value of Select received variation request in response to the transmission of the received variation selection request to the interconnection card where the variation selection request is available. One of the petitions for Indicates the true value of the selection of diversions The variants that are received and requests to configure The truth of choice Eliminate the variation received by one of the stations and access points. Transmission rate value And receiving information that is accepted in response to the submission of a request Data rates supported for interconnection cards 6 4. Method of communication between one application and One of the stations and The access point consists of the various stages of receiving by application. A list of virtual adapters in which one of the station drivers and the access point drivers exists in response to the submission of one of the required converter list requests. To the station and the receiving access point by the application List of current BSS subtitles in response to Submit one of the requests to retrieve the BSSID entry. Give one of the stations and the receiving access point by applying the status of 802. 1X on a specific period of time in response to sending a status request of 802. 1X to one of the stations and access points. Where the status request of 802. 1X has one of the requests to indicate the status of 802. 1X and a request to determine the status of 802. 1X reception by application of filter element 802. 1X on a specific period of time in response to sending a status request of 802. 1X to one of the stations and access points with the request of the status of 802. 1X has one of the requests for identification of 802 filters. 1X and request to define an 802 filter. 1X reception by application of status in response to submission of claims Request packets sent 802. 1X to the station and access to the reception by applying the call-up information in response to the submission of a claim. Request to receive a call to one of the stations. And the access point and reception by application An indication of the presence of an adapter in response to the submission of a check request. Plots to one of the stations and access points 6 5. The methodology in claim 64 also includes the procedure for obtaining it by the application. One of the fault codes and not Interconnection of media In response to sending requests for separation 6 6. The method in claim 64 also includes the various stages of obtaining by applying the termination response time to determine the right to respond to the submission of the termination request. Time to respond to assignment to one of the stations and access points where the end-time value is requested to respond to. Permission There was one request to indicate an end value. Response time to specify permissions and termination configuration. Response time to determine eligibility by application A unique option truth that is applied in response to a submission of a unique choice request applied to one of the stations and pick-up access points by the service application establishes the ID intended in response to the transmission. Intended SSID Request Where the SSID Request Intended is one of the Requests for Identification of the Purpose ID and the Request for Establishing the Intended ID to Receive by Applying the Type of BSS Intended to Respond to Submissions. A BSS type request intended to one of Station and access point Where the requested BSS request contains One of the requests to identify the desired type of BSS and the request to determine the type of BSS intended to receive, the end value of the connection response time from the section. Responsive to Submitting a request, ending response time Linking to one of the stations and the access point, the end of the connection response request, information is requested to configure the end of the link response time and the connection request. Set the end of the association response time 6 7. The claim 66 method also includes procedures for Obtaining the last reason of the association deficit and the address of the last station lack of the connection from the application in Response to request submission Termination of Relationship in the Group Also one of the stations and access points Obtaining the final reason for the revocation of assertion, and Get the address of The location of the assertion from the section The application responds to sending a contact request to the correct group. Revoke authorization to one station and access point and obtaining the final reason for the assertion failure. And the address of The last station in which the investigation has failed. Respond to sending requests in the group. That has failed to receive Subordinate to one station and access point from the application section 6 8. The claim 64 method also includes procedures for Obtaining a list of algorithms of authorization and status. From the application section Responds to sending an algorithm request of Monitoring to a station and an access point Algorithm request Information is requested to determine the list of authentication algorithms and their status. And request for setting up Algorithm list status Certification Obtaining an indication that the originally configured WEP key value is The specified index value was obtained. Changed from the application section responds to sending requests for the default WEP key values to one of the stations and access points. Obtaining a list of WEP key submissions from the Application section. It responds to a request to send a WEP key to one of the stations and access points. WEP Key Submission Request A WEP Key Submission List is requested and a request for adjustment. Set to the index at Set one Obtaining the privacy invoked truth value from the application responding to the request. The identity reference is sent to one of the stations and the entry point to the identity request has been made an inquiry, a fact-setting reference, a personalization reference and a request to Truth setting Refers to identity Obtaining a WEP key Specifies a default key ID (WEP default key ID) from the application Respond to a WEP key request originally assigned to one of the stations. And the access point requesting the WEP key that was originally set An initialization of the WEP key was requested and requested to configure the default WEP key. Obtaining one length of the WEP send key from the Responsive Application section. A request to send a WEP send key length to one of the stations and an access point requests a WEP send key length request information to configure the length of the WEP send key and a request to set the length of the WEP transmission key. Transmit key, receiving unencrypted extra truth values from section Applied, which responds to Requests to send excess truth values Unencrypted to one station and one access point requests unencrypted excess truth values. There are questions Data to adjust the truth Unencrypted Excess and Request Unencrypted Excess Truth and WEP Excess Count Received from Responsive Applications. Per request Send WEP surplus counts to one of the stations and access points 6 9. The claim 64 method also includes the process of obtaining truthfulness of the notification of the involvement cut-off. (disassociate notification) from the application section which responds Per request to send the truth of the notification of the connection cut to one of the stations and the access point Requests for the truth of notification of the involvement cut are asked for One element in determining the value of truth Of notification of the cut Involve and request to adjust the truth of the notification of the elimination of the receipt of the truth of the notice of withdrawal. Secondary Applied, which responds to requests to deliver The truth value of notice of revocation to one of the stations and access points. Request to send the truth Of notification of Revoke certification The right to have an inquiry into one of the truthful values of the notification. Revoke assertion and request adjustment of truthfulness of notice of revocation of subjection and attestation of failure notification from section. Application, which responds to a request to send the truth of the notification of receiving failure. Associate access to one of the stations and access points. Request to send the truth value of notification to Failed Authentication has been queried for one of the truths of the notification of failure. Failed Authentication and a call to adjust the truth of notification to Failed Authentication 7 0. The claim 64 method also includes the process of obtaining the WEP's un-decoded count from the application section, which Responds to a request to send the WEP non-decoded count to one of the stations and access points. Getting a list of multicast addresses And row status from Application in Responds to sending address group requests. To one of the stations and the access point. Querying the list of multicast addresses and row states, and requests to configure the multicast address and row status. Go to the index already set 7 1. One method of communication between an application and one of a station and an access point includes the procedure for providing a list of virtual transforms to the application by: One station and point Access which station and point drivers Responsible for receiving inquiries, list of sections from the Application section, providing a list of current BSS descriptions to the Application section. By one of the stations and Access point in response to gain The request to query a list of BSSIDs from the application provides the status of 802. 1X at. A specific time for a part Applied by one of the stations and access points in response to It received a request to query the status of 802. 1X from the application part, supply the filter 802. 1X at. A specific time for a part Applied by one of the stations and access points in response to It received a request to query the status of 802. 1X from the application part Provides one state to the application by one of the stations and the access point in response to the receipt of the 8021X pkt request from the application. And access point in Respond to receiving Call-up request From the application and supply the presence indicators of the plots to the application one by one In stations and entry points Reached in response to receiving a request to review the conversion from Application Section 7 2. The claim 71 method also includes the procedure for obtaining error codes and disconnecting media one by one. In station and point Access to the application section from response to Received a request to cut off connection with Station 7 3. The claim 71 method also includes procedures for procurement, termination, and certification audit response time. By one of the stations and The access point to the application section of the answer. Responding to receiving an authorization response-time termination value request from the application section provides the truth of the optional private installation. By one of the stations and The access point to the application from the Respond to receiving a truthful request of an optional private installation from the application section. Provide a custom ID establishment service (SSID) by one of the stations. And access point to The application of the response to the Obtain the desired SSID request from the application, supply the desired type of BSS by one station and the access point to the application, from the response to receiving the request for the desired type of BSS from the application. The association response by one of Station and access point to Application of response Per request Involving end value Link to the application section 7 4. The method of claim 73 also includes the procedure for providing the final reason for the disassocia tion and the address of the disassembled station by one of the stations. And the access point to the application section of the answer Responding to the receipt of a group eligibility request from the application, provide the final reason for the disapproval and the address of the denied station. By one of the stations and the entry point Reached to the application section of the reply. Responding to receiving a cry Request group not endorsement away from the application and provide the ultimate reason for failing to certify; and Address of the station Failed to authenticate by one of the stations and the access point to the application from responding to a request to the group to fail to authenticate. From the application section 7 5. The claim 71 method includes the procedure for obtaining a list of authentication algorithms and status. By one of the stations And the access point to the application part as a response Algorithm of the certification The permission goes from the application. Acquiring an indication that the WEP key value was originally set up. Index values that have already been specified. Changed already received by one of the stations and the access point to the application section as a response. Respond to requests To get the WEP key that was originally set up from the application, obtaining a list of WEP transmission keys by one of the stations and Access point to The application is responding to the request. The WEP send key value goes from the application, the factual acquisition refers to the exclusivity by one of the stations and the access point to. The application part is the response to the cry. To obtain the truth, referring to the exclusivity from the originally established WEP key-indicating application. By one station and point Access to the application section as a response. Obtaining a Request for Obtaining the WEP Key Preset Go from the application section to supply the length of the WEP transmission key by one station and the access point to the section. Applied Responding to the request for the WEP transmission key length that was established, but It originates from the application of providing the truth value of the other than the one encrypted by one of the stations and The access point to the application is in response to receiving a request to receive the addition. From the encrypted to the application and the procurement of the segment count beyond WEP by one station and the access point to the segment. Simplified as a response to receiving requests for counting in addition to WEP from Applied Section 7 6. The claim 71 method also includes the process of acquiring the truthfulness of the notification of irrelevance. By one station and point Access to the application section as a reply. Responding to the receipt of the truth of notification request from the application section, the factual value of the notification, the verification of disclaimer by one of the stations and the access point to the section. Simplified as a response to receiving a notification request. Verification of the disapproval from the application and the provision of truthfulness of notification of failure to Check the authorization by one of the stations and access points to it. Also the application part is a response to being Request notification To failure to verify the right from application 7 7. The claim 71 method also includes the process of obtaining the uncrypted WEP count. By one of the stations And the access point to Also, the application is a response to receiving a WEP count request that cannot be removed. The code goes from application, supplying a list of multicast addresses and row states one by one. In stations and entry points To give to the application in response to Accepts one address group request from Application 7 8. How to install and use Functions of the 820 wireless system utilities. 11 between the interconnection card and one of the Station and access point The following steps are included. Implementation of the station authentication service One and the access point The authentication service function, including providing the certification audit service, the open system authentication audit. WEP algorithm functions in one of the stations and access points. WEP algorithm functions, including encryption methods. Decryption method And safety management functions. Implementation of distributed coordination function in the card. Network connection Implementation of a modular function in one station and an access point The installation uses the aggregation function in one station and the access point installation of the MAC (Media Access Control) data service in the rack adapter. Deployment of multi-rate support in an interconnection card. Implementation of the timing synchronization function in the interconnection card. Implementation of the power utility management function Jobs in Interconnection Cards Implementing the IBSS power management function in the interconnection card. If the interconnection card supports it Station functions and re-setup use of new linkage and connection functions. In one of the stations and access points 7 9. The method of claim 78, where the deployment phase of the distributed coordination function in an interconnection card, consists of the procedure for Installation and use The net allocation vector function, one implementation, implements the function of the space between the usable frames and the timing. The installation implements the function of reversing random. Implementation of access method function distributed coordination function Implementation of random retraction method Implementation, restoration methods, and limit repetitions. Implementation, method of request, submission and Provides a direct way to send (clear to send) installation, use the MPDU (Media Access Control Protocol) function directly. Distribution and transmission function MPDU (Media Access Control Protocol) multicast (multicast) MAC level recognition (Media Access Control) function deployment and function deployment. Detect repeat and search 8 0. The claim 78 method also includes the process of applying Set the use of the CF-pollable function in the riser card. Network, if the network interface card supports it. Station function 8 1. The method of claim 80 also includes the installation process. Active the Freeze function 8 2. The claim 78 method also includes the procedure for implementing the point coordinate function in an interconnection card. If the interconnection card supports the access point function 8 3. The claim 78 method also includes the installation procedure. Implement multiple MSDU-compatible applications in one station and access point and interconnection card 8 4. Method of claim 78, where the procedure of installation Use the function Synchronize the timing, including the steps of Equipped with beacon function, probe response is installed, TSF function is installed, synchronization of rhythm and precision. If the interconnection card already supports the station function Install and use the timing in network utilities. Implementing utilities of BSS default settings are equipped with the Active Sweep function. Implemented an independent BSS default configuration function if the network adapter supports the function. Skipping Wide frequency band (frequency hopping spread spectrum), PHY is equipped with 8 rhythm hopping function 5. The method of claim 78, where the process of procurement, management of power utilities, consists of steps of If the interconnection card supports station function, power management station layout function is installed. Install, use the receiving function during the conflict-free phase, deploy the aging function. If the interconnection card supports the access point function Implemented TIOM transmission function installed to use the access point function during CP 8 6. The claim 78 method also includes a procedure for Set up The ability to submit association request transmission capacity within the deployment station. Ability to submit new association requests (reassociation request transmission capacity) within the deployment station Ability to send eligibility requests (disassociation request transmission capacity) within the deployment station Ability to submit authorization within the docking station Ability to send non-certification Rights within the station and Implement the ability to transmit data within the station 8 7. The claim 78 method also includes a procedure for Implement, implement the ability to send associated responses. Within the access point Implemented, unrelated response sending capability Within the access point Deploy the ability to submit authorizations within an access point. Implement, implement the ability to send non-authentication within the access point and implement the ability to send data within the access point 8 8. The claim 78 method also includes a procedure for Implement the ability to submit inquiry requests in Interconnection Card If the interconnection card already supports the station function. Implemented the ability to send inquiry response in an interconnection card, deployed the ability to send an alarm in the card. Network connection Implement, use, send capability ATIM in an interconnection card If the interconnection card supports station functions and is equipped with RTS, CTS, ACK, and null transmission capabilities in the interconnection card 8 9. The claim 88 methodology also includes the implementation steps of CF-End, CF-End + ACK, Data + CF-ACK, Data + CF-Poll, and Data + CF-ACK + CF capabilities. -Poll in the interconnect card 9 0. The claim 78 method also includes a procedure for Implementation can accept link requests. Within the access point Installers can send requests to accept new connections. Within the access point Implemented the ability to accept removal requests. Connected within the access point Deploy the ability to accept authorization within an access point. Implement the disclaimer capability within the access point, and Implemented accessibility capabilities within access points 9. 1. The Claim 78 Method also consists of a procedure for Deploy the ability to respond to connected requests within the docking station Implement the ability to respond to unrelated requests within the docking station Use the ability to accept permissions within the docking station. Deploy the disapproval capability within the station and deploy the reception capability within the station 9. 2. The Claim 78 Method also consists of the procedure for Implement the ability to accept inquiry requests. In the interconnection card installed, enable the ability to receive inquiry response. In the Interconnection Card Implemented the Alarm Receiving Ability in the Interconnection Card Implemented the ATIM Receive Ability in the Interconnection Card If the Interconnection Card Support Station Function Implement PS-Poll receiving capability in the interconnection card if the interconnection card supports the station function and RTS, CTS, ACK, and null receiving capability is installed in the riser card. Network 9 3. The Clause 92 methodology also includes the procedures for Set up Ability to accept CF-End, CF-End + ACK, Data + CF-ACK, Data + CF-Poll and Data + CF-ACK + CF-Poll. In an interconnection card