RU2001115686A - Wireless local communication system and methods useful in applying to it - Google Patents

Claims (20)

1. Wireless local communication system comprising a gateway unit of a data network / PSTN, at least one data line, at least one base station connected to the gateway unit through said at least one data line, respectively, a plurality of wireless subscriber units communicating without the aid of wires with a base station, each wireless subscriber unit comprising at least one interface with at least one main node, including a telephone main node, and each subscriber unit contains an analog converter that translates the information received in the format of PI packets into the analog voice representation and feeds the mentioned analog voice representation from the telephone host, translates the said incoming analog voice information into information formatted in the form of PI packets, and supplies the information formatted in the form of PI packets to the base station, and a packet switch that performs switching PI packets arriving from the base station connected to the subscriber unit at a glance, including the routing of the PI packets for the main nodes other than the telephone main node, to these main nodes and the routing of the PI packets for the telephone main node to the analog converter, while the said base station switches the incoming PI packets based on the destination IP, contained in each said incoming packet of PI, and said gateway unit commutes incoming data packets in the data network, translates incoming speech packets from the packet format of the PI into an analog voice message The pressure and switches said analog voice representation of the PSTN. 2. The system according to claim 1, in which each main node contains the following group of main nodes: telephone, telefax, computer, data modem, and cable modem. 3. The system according to claim 1, in which at least one of the data lines contains wired data lines. 4. The system according to claim 1, in which the data network contains the Internet. 5. A wireless local communication method, comprising the following steps: providing a gateway unit of a data network / PSTN with at least one data line, at least one base station connected to the gateway unit through said at least one data line, respectively, and a plurality of wireless subscriber units communicating wirelessly with a base station, each wireless subscriber unit comprising at least one interface to at least one main node, including a telephone the main node, translates the information received in the format of PI packets into the analog voice presentation and delivers the mentioned analog voice representation to the telephone main node, receives the incoming analog voice information from the telephone main node, translates the said incoming analog voice information into information formatted as PI packets , and feeds said information, formatted in the form of PI packets, to the base station, and switching PI packets arriving from the base station a station connected to the subscriber unit, including routing PI packets for main nodes other than the telephone main node to these main nodes and routing PI packets for the telephone main node to an analog converter, while the mentioned base station commutes incoming PI packets to based on the destination IP address contained in each said incoming PI packet, and said gateway unit commutes incoming data packets in the data network, broadcasts incoming voice packets from the format PI packets into an analog voice presentation and commutes the aforementioned analog voice presentation according to the PSTN. 6. A quality of service system, comprising: a sub-block for overload elimination, and a traffic flow control unit. 7. A server device quality of service, comprising: a protocol sensor; and a connection level analyzer comprising: a UDP analyzer, a TCP analyzer, and an ICMP analyzer. 8. The server device according to claim 7, in which the UDP analyzer contains a speed-controlled UDP analyzer. 9. The server device of claim 7, wherein the TCP analyzer comprises a speed-controlled TCP analyzer. 10. The server device according to claim 7, in which the UDP analyzer performs at least some of the following steps: identifies the application using the port number, checks whether the packet belongs to an already open communication session, comparing the port numbers and the PI addresses of the communication participant if this is an open communication session, marks the TTL packet from the application look-up table, if it is a new communication session, consults a strategy agent to determine if it is allowed to initialize the communication session, informs the MAC about the application agreement from the point of view of broadcasting a MAC address, and informs about the events of the end of the MAC session. 11. The server device according to claim 7, in which the TCP analyzer performs at least some of the following steps: notifies the packet is received, retransmits upon detection of dropped packets, rebuilds the sequence of segments if necessary, if they arrive out of order, discards the packets if the data is corrupted during transmission, eliminates duplicate segments, and supports flow control to control the transmission speed of the connection. 12. The system of claim 6, wherein the overload prevention unit performs a grouped queuing. 13. The system of claim 6, wherein the TCP transmission rate is at least partially controlled by setting the real-time flow rate and then delaying notifications going back to the transmitter. 14. The system of claim 6, wherein the transmission rate in the TCP protocol is at least partially controlled by modifying the advertised window size in packets sent to the transmitter. 15. The system of claim 12, wherein the grouped queuing performed by the overload elimination device comprises placing packets arriving with a life time stamp in the transmission queue cluster in a queue in accordance with the life time indicator. 16. A quality of service system, comprising: an adaptive network filtering and forwarding agent, a quality of service server; and grouped queuing mechanism. 17. The system of claim 16, wherein said agent promotes packets that belong only to the wireless channel, while filtering out irrelevant data streams competing on the air channel. 18. The system of claim 16, wherein the quality of service server implements network and application layer strategies, including performing at least one of the following: analyzing each incoming packet to detect its communication session, estimating channel load, performing such control operations flow, such as delaying packets and interfering with the connection layer, and attaching to the packet a quality of service header describing the boundary conditions of the packet. 19. The system according to any one of the preceding paragraphs, in which the speed control is performed so that the length of the queues in the access system is kept almost constant, thereby reducing the fluctuation of the communication session. 20. The system of claim 16, wherein the grouped queuing mechanism provides TTL adaptive access latency in the MAC domain, thereby providing improved channel bandwidth control for data queue modes.