RU99126507A

RU99126507A - METHOD OF DATA TRANSFER WITH PACKAGE SWITCHING

Info

Publication number: RU99126507A
Application number: RU99126507/09A
Authority: RU
Inventors: Лео ХИППЕЛЯЙНЕН
Original assignee: Нокиа Нетворкс Ой
Priority date: 1997-05-13
Filing date: 1998-05-12
Publication date: 2001-09-27

Claims

1. A method of transmitting packet data in a data network containing at least one network node for receiving and transmitting packets, wherein in the network node, call packets are separated from control packets containing signaling information for the data network, characterized in which includes the steps in which
a) support call packet arrival rate information,
b) calculate (22) the duration of the transmission of the control packet, which should be sent next,
c) determine (23) the interval before receiving the next call packet,
d) compare (24) the mentioned duration with the obtained interval and,
if the duration is less than or equal to the interval, the control packet is transmitted (25), and if the duration is longer than the interval, the control packet is placed in the transmission queue (27), they are waited until the call packet is received, and then the call packet is sent immediately immediately.

2. The method according to claim 1, characterized in that the control pack is placed in a queue in a position determined by the priority contained in the control pack, while control packs with a higher priority have priority in the transmission queue over control packs with a lower priority, and management packs with the same priority are queued in the order received.

3. The method according to claim 1 or 2, characterized in that after the transmission of said call packet
e) extracting (29) the first packet from the transmission control packet queue,
f) calculate (22) the duration of the transmission of the control packet,
g) determine (23) the interval before receiving the next call packet,
h) compare (24) the duration with the interval, and
if the duration is longer than the interval, put (27) the control packet back into the transmission queue, and if the duration is less than or equal to the interval, transmit (25) the control packet, check (26) if there are control packets in the queue, and if there are queues in the queue packets, then repeat the steps of the method, starting with step e), in which the first packet is extracted from the transmission control packet queue.

4. The method according to claim 1 or 2, characterized in that after the transmission of said call packet
e) calculate (23 ') the interval before receiving the next call packet,
f) removing (30) from the queue of control packets for transmission the first packet for the transmission of which the interval is long enough,
g) check (26) if there are control packets in the transmission queue, and as a result of the said check, if there are packets in the queue, repeat the steps of the method starting from step e), in which the interval is determined until the next call packet is received.

5. The method according to any one of claims 1 to 4, characterized in that they transmit call packets associated with the same data connection on the same channel, if at least two outgoing channels leave the network node, the speed of arrival of the call packets separately for each available outgoing channel, determine the interval until the next call packet is received for each channel, compare the duration of the received control packet with each interval in turn, until an interval that is greater than whether equal durations, and transmitting the control packet on the found channel, or, after comparison of the duration of each interval, the control packet is placed in the transmission queue.

6. The network node of the packet-switched data network, to which at least one incoming channel leads, and from which at least one outgoing channel leaves, and the node contains reception means (BPR) for receiving packets, transmission means ( BDU), designed to transmit packets to the destination address, and a buffer (BOOF), designed to buffer received packets, and the receiving means (BPR) is configured to separate call packets from control packets containing signaling information for a data transmission network, characterized in that the node further comprises a memory means (ST) for storing information indicating the arrival rate of the call packets, a time counter (ST) for determining the interval until the next call packet is received, calculation means (CU), designed to calculate the duration of the transmission of the control packet, which should be sent next, the comparison tool (CU), designed to compare the interval and duration, and the controller of the transmission order (CU), The values to be placed in the control packet in the transmission queue buffer for subsequent transmission of said call packet next, if the duration exceeds the interval.

7. The network node according to claim 6, characterized in that the memory means (CB) is configured to update the arrival rate in response to a new arrival rate obtained from the data network.

8. The network node according to claim 6 or 7, characterized in that the transmission order controller (CU) is configured to place control packets received at the node in a queue for transmission to the buffer (CUF) in the order indicated by the priority contained in the packet .

9. The network node according to claims 6, 7 or 8, characterized in that the transmission order controller (CU) is configured to retrieve a control packet from the transmission queue in response to the transmission of said next call packet, and the transmission means (BTC) is configured to the possibility of transmitting a control packet if the interval before receiving the next call packet is greater than or equal to the transmission duration of the control packet.