RU99126427A - METHOD OF DATA TRANSFER WITH PACKAGE SWITCHING - Google Patents

Claims (16)

1. A method for transmitting packet-switched data in a data transmission network comprising at least two network nodes (CC, BS) for receiving and transmitting packets, comprising receiving at the first node (CC) packets associated with at least with two different data connections, identification in the first node of the destination addresses and connections (A, B, C, D) of data transmission associated with the received packets, based on the identification data contained in each packet, and transmission from the first node (CC ) to the second node (BS) of packets containing the address the destination on the basis of which the second node is the next node, characterized in that it further includes determining, on the basis of the resource allocation situation of the second node (BS), the transmission order in which packets associated with various data connections must be transmitted from the first node to the second node, transmitting to the first node (CC) a control signal that indicates the transmission order of the second node, and transmitting packets associated with various data connections from the first node (CC) to the second node (BS) in to remember the order of transmission, as long as not adopted a new control signal.  2. The method according to claim 1, characterized in that it includes redefining the transmission order in response to a change in the resource allocation situation of the second node, and transmitting to the first node (CC) a new control signal in response to the redefined transmission order.  3. The method according to claim 1 or 2, characterized in that it includes support for at least one time counter (CB) in the data network, and the counter is reset to zero in the interval of a predetermined length, the separation of the call packets in the first node (CC) and control packets that contain signaling information for the data network, transferring call packets from the first node (CC) to the second node (BS) in the transmission order so that the interval between the transmission start times of two consecutive packets is at least the same th, and that the reset interval time counter (TC), and transmitting the control packets from the first node (CC) to the second node (BS) between the call packets.  4. The method according to any one of claims 1 to 3, characterized in that the transmission of packets from the second node (BS) is carried out using time division multiplexing, the mentioned transmission order is determined from the channel allocation information (A, B, C, D) (CH1, CH2, CH3, CH4) of the second angle and transmit a control signal in response to a change in the channel distribution data (CH1, CH2, CH3, CH4).  5. A method for transmitting packet-switched data in a data network containing at least two network nodes (CC, BS) for receiving and transmitting packets, comprising receiving packets at the first node (CC) associated with at least two different transmission connections data, identification in the first node of the destination addresses and connections (A, B, C, D) of data transmission associated with the received packets, based on the identification data contained in each packet, and transmission from the first node (CC) to the second node ( BS) packets containing the location address n values based on which the second node is the next node, characterized in that it further includes determining, based on the resource allocation situation of the second node (BS), the data connection associated with the packet required by the next node in the second (BS), transmitting to the first node ( CC) of a control signal that indicates a data connection connected to a packet to be transmitted to the second node next, and transmission of a packet associated with said data connection from the first node (CC) to the second oh node (BS).  6. The method according to claim 5, characterized in that a control signal is used, comprising, in addition to the packet data connection, to be transmitted to the second node (BS) as follows, information about other data transmission connections, the packets of which must be transmitted to the second node (BS), and the transmission of packets associated with the connections (A, B, C, D) of data transmission to the second node (BS) in the order indicated by the control signal.  7. A network node for switching packets of a data transmission network, comprising receiving means (TK) for receiving packets, transmitting means (TK) for transmitting packets to a destination address, identification means (УУВ) for identifying a destination address and data connection connected with a packet, and a buffer (CUF) for buffering received packets, characterized in that it further comprises processing means (CUV) for receiving a control signal from a data network, said control signal containing information about packet data unification to be transmitted following at a particular address destination, and transmission control means (NDC) to select in response to the information contained in the control packet signal to be transmitted at the next destination.  8. The network node according to claim 7, characterized in that the processing means (CID) is configured to receive a control signal, which contains, in addition to information about the packet data connection, which should be transmitted next, information about other data connections in the order in which packets should be transmitted over the indicated connections, and the transmission control means (CC) is configured to select the packets to be transmitted and issue a command to the transmission means (TC) to forward the packets in the order transmission indicated by the data contained in the control signal.  9. The network node according to claim 7 or 8, characterized in that the processing means (CC) is configured to store information contained in the control signal (8) in memory (P) in the form of a transmission order, and replacing the transmission order with a new order transmission in response to receiving a new control signal, and the transmission control means (CC) is configured to select packets to be transmitted cyclically, following the transmission order stored in the memory.  10. The network node according to any one of claims 7 to 9, characterized in that the network node (CC) receives a control signal from the node (BS) of the data network to which it transmits the packet.  11. A network node according to any one of claims 7 to 9, characterized in that the network node (CC) receives a control signal from the network management system of the data transmission network.  12. The network node according to any one of claims 7 to 11, characterized in that the data network is a mobile network, the network node is a node that transmits packets to a base station of a mobile network, and the control signal contains channel allocation information of the base station.  13. A network node according to any one of claims 7 to 11, characterized in that said node contains a time counter (CB), which is reset to zero at predetermined intervals, the receiving means (TC) is configured to separate call packets and control packets, which contain signaling information for the data network, and the call control means (CID) is configured to retrieve control packets and to transfer them between the call packets so that the interval between the start of transmission of two consecutive packets in the call does not exceed the reset interval time counter (CB).  14. A packet-switched data transmission system using wireless data transmission, comprising at least one base station (BS) for transmitting packets over a wireless radio communication channel (RR), in which different channels are allocated for each data connection, channel control means ( SU) for controlling the installation, support and cancellation of wireless data connections and for allocating channels for data connections and for releasing channels, and a transmission network for transmitting packets containing at least one node (CC) for transmitting packets to a base station (BS), including a buffer (FF) for buffering the forwarded packets and configured to identify, after receiving the packet, a data connection connected to the packet from the identification data, contained in the package, characterized in that the channel control means (CS) comprises control means for generating a control signal and for transmitting it to a node (CC), wherein the control signal contains information about a packet data connection, the first should be transmitted to the base station (BS) as follows, and the node (CC) contains at least one transmission control means (CC) to extract packets from the buffer (BC) for transmission to the base station (BS), and the transmission control means (CC) is configured to select a packet to be transmitted to the base station following from the node’s buffer (CUF) in response to the control signal.  15. The data transmission system of claim 14, wherein the channel control means (SNA) comprises means for determining the data transmission order (A, B, C, D) of the channel distribution (CH1, CH2, CH3, CH4) of the base station ( BS) and for transmitting information in the control signal to the node (CC) in response to a change in the distribution situation of the channels of the base station (BS), while the node (CC) is configured to store the information contained in the control signal in memory (P) in the form of a procedure for the transfer and replacement of it with new information in response to the receipt of a new management an important signal, and the transmission control means (CC) is configured to select the packets to be transmitted cyclically, following the transmission order stored in the memory of the node (CC).  16. The data transmission system according to 14 or 15, characterized in that time-division multiplexing is used in wireless data transmission.