[0001] 1. Field of the Invention
[0002] The present invention relates to a mobile communication system and, more particularly, to a method of controlling a handover by combining both a soft handover and a hard handover in an uplink synchronous transmission scheme (USTS).
[0003] 2. Background of the Related Art
[0004] Generally, an uplink synchronous transmission scheme (USTS) is used to reduce multiple access interferences using orthogonality, by controlling reception timing between mobile stations and a base station in a closed loop timing control manner.
[0005] A related soft handover manner uses a technique that a mobile station (e.g., a user equipment or a mobile terminal) communicates with a plurality of base stations and continuously maintains a communication channel during the time of the handover. Here, the soft handover manner can be applied to a softer handover between sectors.
[0006] The handover manner can generally be divided into: (1) a hard handover that terminates a communication channel of a present source base station before connecting the communication channel to a target base station; (2) a soft handover that terminates the communication channel of the source base station after connecting the communication channel to the target base station; and (3) a softer handover that performs the soft handover function between sectors in the same base station, which is divided into multiple sectors. The soft handover maintains the communication channel and concurrently connects the same communication channel to two base stations serving the handover during a constant time. The hard handover causes discontinuity for the communication channel; a new communication channel is connected after terminating the present communication channel.
[0007]
[0008] A transmission signal of the mobile station
[0009] The source base station
[0010] Meanwhile, the softer handover serves the same operation as the soft handover function described above, if the mobile station
[0011]
[0012]
[0013]
[0014] Initially, the communication channel of the mobile station is connected only through the source base station, when the mobile station is within the service area of the source base station. But, if the mobile station enters the area overlapped by the service cell areas of the source base station and the target base station, thereby initiating the handover (step
[0015] As described above, the mobile station periodically measures the strength of a pilot signal received from at least one base station and transmits the measured value to the radio network controller via the base station. Then, the radio network controller selects an optimized pilot strength on the basis of the measured values. The radio network controller can connect to the communication channel with the base station in which the optimized pilot strength has been measured by the mobile station. Accordingly, the mobile station measures the pilot strengths of the source base station and the target base station (step
[0016] The radio network controller determines whether to control the handover based on the measurements of the pilot strengths of the source and the target base stations. If it is determined that the pilot strength of the target base station is sufficient, then the radio network controller transmits the first handover message to the mobile station to set up the communication channel with the target base station. That is, if the radio network controller transmits the first handover message to the mobile station, the mobile station starts communicating with the target base station on the basis of the first handover message via a new communication channel. Here, the first handover message includes a PN offset of the target base station and newly allocated Walsh codes. Accordingly, the mobile station transfers the target base station from the candidate list onto an actual communication list and transmits a handover completion message to the radio network controller, after obtaining a synchronization of a downlink communication channel defined in the first handover message. Thus, the mobile station communicates with both the source base station and the target base station (steps
[0017] According to the description above, the communication channel is established between the mobile station and the target base station by the first handover message of the radio network controller, when the mobile station enters to the cell area of the target base station. Meanwhile, the mobile station periodically measures the pilot strengths of the source base station and the target base station (step
[0018] The mobile station deletes the source base station from the actual communication list on the basis of the received second handover message and transmits the handover completion message to the radio network controller (step
[0019]
[0020] Referring to
[0021] In step
[0022] If it is necessary to establish the new link between the mobile station
[0023] The DRNS-base station
[0024] Subsequently, the SRNC
[0025] Next, in step
[0026] As a result, in the case of removing the radio link established on the SRNS-base station
[0027] The SRNC
[0028] It is noted that the remaining steps, after excluding steps
[0029] As described above, the related art method for controlling the handover does not consider a transmission scheme that is provided to improve performances of the uplink in the base station, i.e., an uplink synchronous transmission scheme for synchronizing the reception timing between the mobile stations. That is, the related handover is served without considering the transmission scheme for controlling the reception timing of the mobile stations by using the closed loop timing control scheme in the base station.
[0030] Accordingly, in order to improve the method of controlling the handover, a hard handover means of the uplink synchronous timing essentially required in the uplink synchronous transmission scheme should be added together with the related art soft handover method. In the present invention, it should be noted that the hard handover of the uplink synchronous timing is used instead of the soft handover, since only one of the base stations is selected, because synchronizing the uplink synchronous timing for the source base station and the target base station cannot occur at the same time.
[0031] If the hard handover of the uplink synchronous timing is not considered, there are problems of not utilizing the uplink synchronous transmission scheme function and decreasing the reception capacity and cell coverage areas due to a failure in maintaining the uplink synchronous transmission gain by moving the mobile station between the sectors or base stations.
[0032] In the long run, it is expected that a new method of controlling the handover, wherein the hard handover manner controlling the synchronous timing is used in conjunction added with the related soft handover manner, will supplement the related art method in the field.
[0033] An object of the invention is to solve at least the above problems and/or disadvantages and to provide at least the advantages described hereinafter.
[0034] It is another object of the present invention to solve the aforementioned problems in the related art by providing a method of controlling a handover using an uplink synchronous transmission scheme, while using the related art mobile communication system.
[0035] It is still another object of the present invention to provide a method of controlling a handover for an uplink synchronous transmission scheme that can control an uplink synchronous timing by combining the present soft handover manner for NON-USTS link addition and/or deletion with the hard handover manner for controlling uplink synchronizing timing.
[0036] It is a further object of the present invention to provide a method of controlling a handover for an uplink synchronous transmission scheme which can define a data flow between physical layers of each communication element when the handover is served.
[0037] To achieve one or more of the above objects, there is provided a method of controlling a handover using an uplink synchronous transmission scheme in a mobile communication system in which a first base station and a second base station are controlled by a radio network controller. The mobile station concurrently transmits and receives communication data of an identical signal to/from the first and second base stations. The method comprises transmitting information for the uplink synchronous transmission to the first and the second base stations; resetting a radio link on the basis of the information for the uplink synchronous transmission; and adjusting an uplink synchronous timing controlled by a base station on the basis of the reset radio link to the uplink synchronous timing of another base station.
[0038] It is desired that the information for the uplink synchronous transmission is an indicator of the uplink synchronous transmission scheme, a scramble code of the uplink synchronous transmission scheme, or a channelizing code number of the uplink synchronous transmission scheme.
[0039] However, if the base stations are controlled by different radio network controllers, the method further comprises transmitting the information on the uplink synchronous transmission from a radio network controller to another radio network controller; resetting the radio link on the basis of the information for the uplink synchronous transmission transmitted from the radio network controller or the other radio network controller; and adjusting an uplink synchronous timing of the mobile station, which is controlled by the base station under the control of the radio network controller, on the basis of the reset radio link with the uplink synchronous timing of the base station controlled by the other radio network controller.
[0040] Also, to achieve one or more of the above objects, there is provided a method of changing a base time for an uplink synchronous transmission scheme in a mobile station of a mobile communication system in which a first base station and a second base station, which are controlled by a radio network controller, receive communication data of an identical signal from a mobile station simultaneously. The method comprises transmitting communication data to the first base station; checking pilot signals from the second base station; transmitting communication data to the second base station; checking pilot signals from the first and second base station; and changing the base time for uplink synchronous transmission scheme to the base time of the second base station.
[0041] The objects of the invention may be further achieved in whole or in part by a method of controlling a handover of a communication link, including measuring a first communication characteristic between a common terminal and a target terminal; establishing a synchronous communication uplink between the common terminal and the target terminal, the synchronous communication uplink established in accordance with a timing adjustment value derived from the first communication characteristic measurement; and transitioning communication service support for the common terminal from a current terminal to the target terminal, using the synchronous communication uplink.
[0042] The objects of the invention may be further achieved in whole or in part by a system for managing a handover of a communication link. The system includes a common terminal that communicates with both a target terminal and a current terminal and measures a communication characteristic between the common terminal and the target terminal. Additionally, the system includes a network controller that manages the operation of the current terminal and the target terminal. The network controller establishes a synchronous communication uplink between the common terminal and the target terminal based on a timing adjustment value derived from the communication characteristic measurement and transitions communication service support for the common terminal from the current terminal to the target terminal, using the synchronous communication uplink.
[0043] Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objects and advantages of the invention may be realized and attained as particularly pointed out in the appended claims.
[0044] The invention will be described in detail with reference to the following drawings in which like reference numerals refer to like elements wherein:
[0045]
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[0048]
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[0050]
[0051]
[0052]
[0053]
[0054] Initially, the mobile station is positioned in the service area of the source base station, alone. Therefore, the communication channel of the mobile station is connected only to the source base station. If the mobile station enters into an area overlapped by the cell areas of the source base station and the target base station, thereby initiating the handover (step
[0055] Meanwhile, the target base station receives the first handover message from the radio network controller (step
[0056] Consequently, both the source base station and the target base station have established the communication channel with the mobile station. That is, the source base station is set up as a USTS mode, while the target base station is set up with a NON-USTS mode. Therefore, the source base station maintains the timing between transmission signals of the mobile station through the USTS mode in the uplink synchronous transmission scheme, while the target base station establishes the timing between transmission signals of the mobile station in the NON-USTS mode. At this time, the radio link is established either between the mobile station and the source base station or between the mobile station and the target base station.
[0057] Meanwhile, the radio network controller compares the radio link quality transmitted from the mobile station and determines whether to perform the timing adjustment and the reconfiguration operations using the target base station, based on the comparison result (step
[0058] In the case of using the link quality, the radio network controller compares the link quality of the source base station with the link quality of the target base station. If the link quality of the target base station is better than that of the source base station, then the radio network controller transmits the handover control command to the mobile station and the target base station, respectively.
[0059] In the case of using the number of the mobile stations, the radio network controller compares the number of the mobile stations transmitting in the uplink synchronous transmission for the source base station with the number of the mobile stations transmitting in the uplink synchronous transmission for the target base station. If the number of the mobile stations transmitting in the uplink synchronous transmission for the source base station are more than the number in the uplink synchronous transmission for the target base station, the base station transmits the handover control command to the mobile station and the target base station, respectively. However, it is preferable that both the link quality and the quantity of the mobile stations are used for the above determination.
[0060] If the target base station is selected for performing the timing adjustment and the reconfiguration operations as a result of step
[0061] Meanwhile, the mobile station periodically measures the pilot strength of the source base station (step
[0062] When the mobile station moves from the cell area of the source base station to the target base stations, the decision to establish a new radio link with the target base station depends on the results of the pilot strengths measured for both the source and the target base stations. Further, determining whether to synchronize the transmission signal of the mobile station by the synchronous timing of the target base station depends on the link quality and the number of the mobile stations. The hard handover message is transmitted to the mobile station and the target base station to synchronize with the target base station, when the synchronous timing of the target base station has been selected.
[0063]
[0064] The data flow shown in
[0065] First, the soft handover procedure for setting the radio link in the target base station
[0066] Second, the hard handover procedure for converting the synchronous mode will be explained. The radio network controller
[0067] In the case of starting the mode change procedure, the hard handover procedure includes: (1) a measuring procedure (step
[0068] First, referring to the measuring procedure (step
[0069] The target base station
[0070] Second, the mode change procedure (step
[0071] In the communication system applied to the USTS, operational modes are classified into (1) a normal mode used in the mobile station and the base station in which the USTS is not served, (2) the USTS mode controlling the transmission timing by the USTS due to serve the USTS, and (3) the NON-USTS mode not controlling the transmission timing by the USTS, but serving the USTS. Accordingly, the present invention serves both the USTS and the NON-USTS modes, since the base station and mobile station serving with the USTS are used. That is, one base station is operated with the USTS mode and the other base station is operated with the NON-USTS, in the case where at least one mobile station exists in a soft handover area overlapped by the cell areas of at least two base stations and the two base stations serve the USTS. The reason is one mobile station cannot operate with two base stations in the USTS mode at the same time and the uplink synchronous transmission timing is synchronized with only one base station. Therefore, the communication between the mobile station and the base station can be established in the USTS mode. Even if the USTS is used between the mobile station and the base station, in the NON-USTS mode, the uplink synchronization could not be performed.
[0072] First, the radio network controller
[0073] The target base station
[0074] And, the radio network controller
[0075] Second, the radio link activation procedure (step
[0076] If the radio link of each station is activated, the synchronization and reconfiguration process (step
[0077] Next, if the mobile station
[0078]
[0079] The data flow shown in
[0080] Hereinafter, the soft handover procedure (step
[0081] The hard handover procedure includes (1) a measuring procedure (step
[0082] First, referring to the measuring procedure (step
[0083] The drift radio network controller
[0084] Second, the mode change procedure (step
[0085] The target base station
[0086] Meanwhile, if the serving radio network controller
[0087] The source base station
[0088] Second, the radio link activation procedure (step
[0089] If the radio link of each station is activated by steps
[0090] If the mode change and timing adjustment is completed, the mobile station
[0091] Next, if the mobile station
[0092] As described above, the present invention provides the method of controlling the soft handover in the uplink synchronous transmission scheme by serving the soft handover adding the new radio link on the basis of the pilot strength measured from the source base station and the target base station when the mobile station is entered into the handover area, and serving the hard handover for converting each radio link mode for the source base station and the target base station, and then releasing the radio link of the source base station.
[0093] Also, the detailed data flow procedure between the protocol entities for each communication element can be provided when the hard handover for converting the mode of the uplink synchronous transmission scheme is converted in case of serving the handover.
[0094] According to the method of controlling the handover of the present invention, the handover combined with the soft handover for NON-USTS link addition and deletion and the hard handover for controlling uplink synchronization timing is performed without adding separate elements onto the related mobile communication system.
[0095] According to the method of controlling the handover of the present invention, the complicated communication elements for controlling the signal transmission timing using the uplink synchronous transmission scheme do not exist additionally and the synchronization timing for serving the handover can be controlled by the control parameters.
[0096] According to the method of controlling the handover of the present invention, the performance or the reception capacity and the cell coverage area can be increased by serving the hard handover with the uplink synchronous transmission scheme.
[0097] According to the method of controlling the handover of the present invention, the handover of the mobile station can be performed efficiently by defining the data flow between the protocol entities for each communication element.
[0098] The foregoing embodiments and advantages are merely exemplary and are not to be construed as limiting the present invention. The present teaching can be readily applied to other types of apparatuses. The description of the present invention is intended to be illustrative, and not to limit the scope of the claims. Many alternatives, modifications, and variations will be apparent to those skilled in the art. In the claims, means-plus-function clauses are intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures.