초록 ▼

By adaptively relocating a transmitting point between a base station and a base station controller, e.g., an RNC, optimal ARQ performance is achieved. The adaptation may be based on one or more of many factors such as the distance between a network element and a user equipment. As one example, for a

By adaptively relocating a transmitting point between a base station and a base station controller, e.g., an RNC, optimal ARQ performance is achieved. The adaptation may be based on one or more of many factors such as the distance between a network element and a user equipment. As one example, for a mobile radio near a base station, the transmitting point where the ARQ protocol terminated in the radio network is located in that base station so that ARQ packet retransmissions are performed quickly. For a mobile radio in or about to be in soft handover, the transmitting point where the ARQ protocol terminated in the radio network is located in a base station controller coupled to the base stations involved in (or soon will be involved in) soft handover so that robust ARQ packet retransmissions are provided.

대표청구항 ▼

The invention claimed is: 1. A method of dynamically switching a termination point of an ARQ link layer protocol in a communications system, the method comprising: determining one or more parameters related to a user equipment, dynamically reconfiguring an ARQ link layer protocol residing in the ra

The invention claimed is: 1. A method of dynamically switching a termination point of an ARQ link layer protocol in a communications system, the method comprising: determining one or more parameters related to a user equipment, dynamically reconfiguring an ARQ link layer protocol residing in the radio network element in a communications system for a communication with the user equipment, connecting a network ARQ protocol termination point and a user equipment for the communication with the user equipment, and dynamically switching the network ARQ protocol termination point for the communication with the user equipment during the connection from a first network element at a first hierarchical level of the radio network to a second different network element at a second different hierarchical level of the radio network depending on the one or more parameters related to the user equipment, wherein the determined one or more parameters includes a number of active links simultaneously involved in a specific communication service for the user equipment. 2. The method according to claim 1, wherein one of the first and second network elements is responsible for radio transmission/reception. 3. The method according to claim 1, wherein one of the one or more parameters is the geographical distance between the first network element and the user equipment. 4. The method according to claim 1, wherein one of the one or more parameters is the electrical distance between the first network element and the user equipment in terms of at least one of signal propagation path loss, signal to noise ratio, signal to interference ratio, and signal propagation time. 5. The method according to claim 1, wherein the link layer is reconfigured as the termination point is switched. 6. The method according to claim 1, wherein the link layer is layer 2 radio link control layer. 7. The method according to claim 1, wherein the location of the ARQ protocol termination point is changed by any one of: RLC tunneling, Service Data Unit Transfer, Multiple ARQ Protocols, and Protocol State Transfer. 8. The method according to claim 1, wherein the link layer is reconfigured by changing at least one of: size of packet data units or service data units, ARQ discipline, such as no ARQ, Stop and wait ARQ, Go-Back-N ARQ, Selective Repeat ARQ and ARQ using positive or negative acknowledgements, RLC mode, acknowledgement timing, tunneling state, tunneling destination. 9. The method according to claim 1, wherein the communications system is a cellular mobile radio system. 10. A radio network element comprising: means for determining one or more parameters related to a user equipment, means for dynamically reconfiguring an ARQ link layer protocol residing in the radio network element in a communications system for a communication with the user equipment, means for connecting a network ARQ protocol termination point and a user equipment for the communication with the user equipment, and means for dynamically switching the network ARQ protocol termination point for the communication with the user equipment during the connection from a first network element at a first hierarchical level of the radio network to a second different network element at a second different hierarchical level of the radio network depending on the one or more parameters related to the user equipments, means for determining the one or more parameters including a number of active radio links simultaneously involved in serving the communication service with the user equipment. 11. The network element according to claim 10, wherein one of the one or more parameters is the geographical distance between the first network element and the user equipment. 12. The network element according to claim 10, wherein one of the one or more parameters is the electrical distance between the first network element and the user equipment in terms of at least one of: signal propagation path loss, signal to noise ratio, signal to interference ratio, and signal propagation time. 13. The network element according to claim 10, further comprising: means for reconfiguration of the link layer upon switching of the network protocol termination point. 14. The network element according to claim 10, wherein the link layer is a layer 2 radio link control layer. 15. The network element according to claim 10, further comprising means for transferring a protocol termination point by RLC tunneling, Service Data Unit Transfer, using Multiple ARQ Protocols or Protocol State Transfer. 16. The radio network element according to claim 10, wherein the first radio network element is a base station and the second radio network element is a radio network controller coupled to multiple base stations. 17. The radio network element according to claim 10, wherein the first radio network element is a radio network controller coupled to multiple base stations and the second radio network element is a base station. 18. User equipment comprising: an ARQ protocol entity residing in the user equipment for establishing a link layer protocol connection for a communication between the user equipment and an ARQ protocol termination point located in a radio base station; and a controller, based on one or more parameters associated with the user equipment or the ARQ protocol termination point, for reconfiguring, during the communication, the link layer protocol connection with the ARQ protocol termination point for the communication when the ARQ protocol termination point is relocated during the communication from the radio base station to a radio network controller associated with the radio base station, wherein the one or more parameters includes a number of active links simultaneously involved in a specific communication service for the user equipment. 19. The user equipment according to claim 18, wherein the one or more parameters includes one or more of: geographical distance between the first network element and the user equipment, and electrical distance between the first network element and the user equipment in terms of at least one of: signal propagation path loss, signal to noise ratio, signal to interference ratio, and signal propagation time. 20. The method in claim 1, further comprising: initially locating the ARQ protocol termination point for the connection in the radio base station, and relocating the ARQ protocol termination point in the base station controller when the connection is in soft handover. 21. The method in claim 20, further comprising: switching the ARQ protocol termination point from the base station controller to a third network element corresponding to another radio base station. 22. A radio access network comprising: a radio base station for establishing a communication with a user equipment and having an ARQ protocol termination point for establishing a link layer protocol connection with an ARQ protocol entity located in the user equipment, and a radio network controller for controlling multiple radio base stations and, based on one or more parameters associated with the user equipment or the ARQ protocol termination point, for reconfiguring the link layer protocol connection so that the ARQ protocol termination point for the communication is moved from the radio base station to the radio network controller, wherein the one or more parameters includes a number of active links simultaneously involved in a specific communication service for the user equipment. 23. The radio access network according to claim 22, wherein the one or more parameters includes one or more of: a geographical distance between the first network element and the user equipment, and an electrical distance between the first network element and the user equipment in terms of at least one of: signal propagation path loss, signal to noise ratio, signal to interference ratio, and signal propagation time.