Disclosed is a handover controlling method in an RNC connected to a first Node B and a second Node B in a mobile communication system where a USTS service occurs between the first Node B and a UE within a cell of the first Node B and the UE hands over when the UE is located in a handover area across
Disclosed is a handover controlling method in an RNC connected to a first Node B and a second Node B in a mobile communication system where a USTS service occurs between the first Node B and a UE within a cell of the first Node B and the UE hands over when the UE is located in a handover area across the cell areas of the first Node B and the second Node B adjacent to the first Node B. The method comprises determining whether the handover for the UE is possible or not; transmitting handover information to the second Node B if the handover is possible; and transmitting a command to the UE through the first Node B, requesting the UE to hand over to the second Node B if the UE receives a response message indicating that the handover is possible from the second Node B.
대표청구항▼
What is claimed is: 1. A handover controlling method in a radio network controller (RNC) connected to a first Node B and a second Node B in a mobile communication system where an Uplink Synchronous Transmission Scheme (USTS) service occurs between the first Node B and a user equipment (UE) within a
What is claimed is: 1. A handover controlling method in a radio network controller (RNC) connected to a first Node B and a second Node B in a mobile communication system where an Uplink Synchronous Transmission Scheme (USTS) service occurs between the first Node B and a user equipment (UE) within a cell of the first Node B and the UE hands over when the UE is located in a handover area across cell areas of the first Node B and the second Node B, the cell area of the second Node B being adjacent to the cell area of the first Node B, the method comprising the steps of: determining if handover for the UE is possible; transmitting handover information to the second Node B if handover is possible, the handover information including a scrambling code of the UE, a scrambling code time offset representing a time difference between a start point of the scrambling code used for data communication between the UE and the first Node B and a start point of an uplink data frame, and a channelization code for a transmission channel of the data; and transmitting a command to the UE through the first Node B, requesting the UE to hand over to the second Node B if the RNC receives a response message for the handover information from the second Node B indicating that handover is possible. 2. The method of claim 1, wherein the transmission channel is an uplink dedicated physical channel. 3. The method of claim 1, wherein the handover determination is determined by analyzing a measurement report received from the UE. 4. The method of claim 1, wherein the channelization code is an Orthogonal Variable Spreading Factor (OVSF) code. 5. The method of claim 1, wherein the handover information is information about the UE receiving the USTS service, and the handover information is stored in the RNC. 6. A handover controlling method in a Node B in a mobile communication system where an Uplink Synchronous Transmission Scheme (USTS) service occurs between a first Node B and a user equipment (UE) within a cell of the first Node B and the UE hands over when the UE is located in a handover area across cell areas of the first Node B and a second Node B, the cell area of the second Node B being adjacent to the cell area of first Node B, the method comprising the steps of: receiving handover information indicating that the UE is receiving the USTS service from an radio network controller (RNC), the handover information including a channelization code for a data transmission channel of the UE, a scrambling code used for the data communication, and a scrambling code time offset representing a time difference between a start point of the scrambling code and a start point of an uplink data frame; and transmitting a response message for the handover information to the RNC and assigning a handover channel according to the channelization code; and performing scrambling code synchronization by setting the start point of the uplink data frame relative to the start point of the scrambling code according to the scrambling code time offset. 7. The method of claim 6, wherein the scrambling code synchronization step comprises: delaying the scrambling code generated from the first Node B by the scrambling code time offset, for starting the scrambling code at a time later than a start point of a predetermined channel frame; despreading uplink data received from the UE with the delayed scrambling code and the channelization code. 8. The method of claim 7, wherein the predetermined channel is a primary common control physical channel. 9. The method of claim 7, wherein the scrambling code time offset is a time difference between a start point of a current uplink data frame received from the UE and the start point of the predetermined channel frame. 10. The method of claim 9, wherein the predetermined channel is a primary common control physical channel. 11. The method of claim 7, wherein the scrambling code time offset is a value determined such that a time difference between a start point of a current uplink data frame received from the UE and the start point of the predetermined channel frame is equal to a multiple of 256 chips. 12. The method of claim 10, wherein the predetermined channel is a primary common control physical channel. 13. The method of claim 6, wherein the scrambling code time offset is calculated by subtracting a propagation delay from a time difference between a start point of an uplink transmission channel frame received from the UE and a downlink transmission channel frame. 14. A method of converting a non-Uplink Synchronous Transmission Scheme (USTS) mode to a USTS mode in a communication between a Node B connected to a radio network controller (RNC) and a user equipment (UE) within a cell area of the Node B, comprising the steps of: measuring by the Node B a round trip time (RTT) indicating a distance between the Node B and the UE; transmitting the measured RTT from the Node B to the RNC; transmitting from the RNC to the UE a scrambling code and a channelization code for use in the UE, and information representing a variance of a start point of a downlink data frame to be transmitted to the UE so that the downlink data frame starts at a position apart from a reference time point of the Node B by a multiple of a predetermined number of chips; and transmitting the scrambling code and the channelization code from the RNC to the Node B. 15. The method of claim 14, wherein the RNC determines whether to convert the non-USTS mode to the USTS mode for the UE by analyzing a measurement report received from the UE. 16. The method of claim 14, wherein the RNC determines whether to convert the non-USTS mode to the USTS mode for the UE upon receipt of a-USTS mode conversion request from the UE. 17. The method of claim 14, wherein the channelization code is for an uplink dedicated physical channel. 18. The method of claim 14, wherein the scrambling code is an uplink data scrambling code. 19. The method of claim 14, wherein a scrambling code time offset is a time difference between a start point of a current uplink data frame received from the UE and a start point of a primary common control physical channel frame. 20. The method of claim 14, wherein a scrambling code time offset is a value determined such that a time difference between a start point of a current uplink data frame received from the UE and a start point of a primary common control physical channel frame is equal to a multiple of 256 chips. 21. The method of claim 14, wherein a scrambling code time offset is calculated by subtracting a propagation delay from a time difference between a start point of an uplink transmission channel frame received from the UE and a start point of a downlink transmission channel frame. 22. A method of converting from a non-Uplink Synchronous Transmission Scheme (USTS) mode to a USTS mode in a communication between a Node B connected to an radio network controller (RNC) and a user equipment (UE) within a cell area of the Node B, comprising the steps of: receiving a message including information representing a variance of a start point of an uplink data frame received from the UE to make the uplink data frame start at a position apart from a reference time point of the Node B by a multiple of a predetermined number of chips, and a channelization code and a scrambling code of a transmission channel on which the uplink data is transmitted from the RNC; calculating a scrambling code time offset if it is determined that the USTS mode conversion is possible for the UE, and transmitting a response message including the scrambling code time offset to the RNC; and assigning the received channelization code and scrambling code to the communication and determining the start points of the uplink data frame and the scrambling code according to the scrambling code time offset, and transitioning to the USTS mode. 23. The method of claim 22, further comprising the steps of: delaying the scrambling code generated from the Node B by the scrambling code time offset to start the scrambling code at a position later than a start point of a predetermined channel frame by the scrambling code time offset; despreading uplink data received from the UE with the delayed scrambling code and the channelization code. 24. The method of claim 23, wherein the predetermined channel is a primary common control physical channel. 25. The method of claim 23, wherein the scrambling code time offset is a time difference between a start point of a current uplink data frame received from the UE and the start point of the predetermined channel frame. 26. The method of claim 23, wherein the scrambling code time offset is a value determined such that a time difference between a start point of a current uplink data frame received from the UE and the start point of the predetermined channel frame is equal to a multiple of 256 chips. 27. The method of claim 25, wherein the predetermined channel is a primary common control physical channel. 28. The method of claim 26, wherein the predetermined channel is a primary common control physical channel. 29. The method of claim 22, wherein the scrambling code time offset is calculated by subtracting a propagation delay from a time difference between a start point of an uplink transmission channel frame received from the UE and a start point of a downlink transmission channel frame. 30. A method of converting a non-Uplink Synchronous Transmission Scheme (USTS) mode to a USTS mode in a communication between a Node B connected to an radio network controller (RNC) and a user equipment (UE) within a cell area of the Node B, comprising the steps of: receiving a predetermined uplink signal from the UE, measuring a propagation delay of the received predetermined uplink signal, and transmitting the propagation delay measurement and a USTS mode conversion request to the RNC by the Node B; determining an additional delay based on the propagation delay measurement and transmitting the determined additional delay to the UE by the RNC; and starting to transmit an uplink data transmission channel signal by the UE after the propagation delay and the additional delay from reception of a downlink data transmission channel signal. 31. The method of claim 30, wherein the additional delay is calculated by subtracting twice the propagation delay between the downlink data transmission channel and the uplink data transmission channel from a common propagation delay. 32. The method of claim 31, wherein the common propagation delay is used by all UEs, being one of located in the same cell area of the Node B and using an identical USTS scrambling code, and an uplink dedicated physical channel signal received from the RNC has a predetermined delay corresponding to the UEs. 33. The method of claim 30, wherein a channel used for the predetermined uplink signal is a random access channel. 34. The method of claim 30, wherein a channel used for data transmission signals is a dedicated physical channel.
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