BACKGROUND OF THE INVENTION

[0002] 1. Field of the Invention

[0003] The present invention relates to a time slot assignment method and apparatus in a mobile communication system employing a radio communication method using a TDMA and TDD scheme.

[0004] 2. Description of the Related Art

[0005] A TDD (Time Division Duplex) scheme is an access scheme that implements uplink channels and downlink channels by time dividing bit stream as resources to be transmitted in a single frequency band, and by assigning them to the uplink/downlink. The TDD scheme is generally used with a multiplexing scheme such as TDMA (Time Division Multiple Access) and CDMA (Code Division Multiple Access).

[0006] At present, with respect to the IMT-2000 CDMA TDD scheme (the access scheme of which is CDMA and TDMA and TDD), the standard of which the ITU (International Telecommunication Union) is currently creating, the scheme is being studied that adaptively changes time slot assignments to the uplink/downlink channels according to the traffic or the like. A conventional technique will be described by way of example of the IMT-2000 CDMA TDD scheme.

[0007] FIG. 1 illustrates a frame structure of the IMT 2000 CDMA TDD scheme. In this figure, DLs 101 are time slots assigned to downlink channels, and Uls 102 are time slots assigned to uplink channels. Conventionally, the numbers and positions of the time slots in a frame to be assigned to the uplink/downlink are set in advance.

[0008] In the example of FIG. 1 , the number of time slots assigned to the uplink and downlink are seven and eight, respectively. Their positions are established in the first half and second half of divided two parts in the frame so that a switching point (called “SP” from now on) is one. Although the number of the SP is one in the example of FIG. 1 , it is not necessarily limited to one.

[0009] When an assignment request occurs, and if a required uplink/downlink time slot is available, the time slot is assigned considering the interference level and the like between the time slots.

[0010] Since the TDD scheme uses the same frequency for the uplink/downlink channels, when uplink and downlink channels are simultaneously assigned in adjacent areas, an interference wave from a mobile station in the adjacent area can be greater than a desired downlink wave in the present area, and hence the mobile station suffered from the interference has a problem of quality degradation in the time slots.

[0011] Here, the area refers to a minimum region to which the time slot is assigned.

[0012] FIGS. 2A and 2B are diagrams illustrating the effect of the interference wave in the adjacent areas.

[0013] In the example, a minimum region to which the time slots are assigned is assumed to be belonging to a single base station. FIG. 2A illustrates a case where the adjacent areas uses the same numbers and positions of time slots in common; and FIG. 2B illustrates a case where the adjacent areas uses different numbers and positions of time slots.

[0014] In FIG. 2 A, as for a mobile station 201 , a signal transmitted from a base station 202 is a desired wave, and a signal transmitted from a base station 204 is an interference wave.

[0015] In an example as shown in FIG. 2 B, an uplink channel from a mobile station 201 is assigned to the area under the base station, and at the same time a downlink channel to the mobile station 201 is assigned to the area under another base station. Thus, as for the mobile station 201 , a signal transmitted from the base station 202 is a desired wave, and a signal transmitted from the mobile station 203 becomes an interference wave, thereby increasing the interference to the mobile station 201 .

[0016] In view of this, the numbers and positions of the time slots of the uplink/downlink assignment are changed not on an area by area basis, but on a system by system basis. In this case, the system refers not only to a system comprising a plurality of base stations under a single radio network controller, but also to a system comprising a plurality of base stations under a plurality of radio network controllers.

[0017] The conventional time slot assignment, however, has a problem in that since the numbers of the time slots assignable to the uplink and downlink are uniquely determined for the system, even if downlink traffic increases markedly and the uplink includes available time slots, they cannot be assigned to the downlink channels.

[0018] In addition, it has another problem in that the time slot arrangement of the entire system must be changed to cope with the asymmetry between the uplink/downlink traffic of an area.

[0019] Moreover, changing the time slot assignments to uplink/downlink channels for each base station independently will result in the quality degradation because of the interference from mobile stations in adjacent areas.

SUMMARY OF THE INVENTION

[0020] Therefore, an object of the present invention is to provide a time slot assignment method in a mobile communication system and a time slot assignment apparatus in a mobile communication system capable of limiting the interference from mobile stations in adjacent areas to a minimum.

[0021] According to a first aspect of the present invention, there is provided a time slot assignment method in a mobile communication system employing a TDMA and TDD scheme that assigns time slots, which are formed by time dividing a frame of a frequency band, to uplink channels and downlink channels, the time slot assignment method in a mobile communication system comprising the steps of: giving uplink or downlink priorities to all the time slots in the frame; receiving a time slot assignment request from at least one of the uplink channels and the downlink channels; and assigning the time slots in the frame in response to the time slot assignment request received at the receiving step, in accordance with the priorities given at the giving step.

[0022] Thus, it can assign the time slots on an area by area basis in accordance with the state of the traffic, interference and the like, thereby making it possible to increase the efficiency of the frequency.

[0023] Here, the giving step may give the same priority to a plurality of the time slots included in the frame.

[0024] Thus, it can increase the efficiency of the frequency even when the number of the time slots has the upper/lower limit in the assignment of the uplink/downlink channels in the system.

[0025] The giving step may store the given priorities in a memory means, and the assigning step may assign the time slots in the frame in accordance with the properties stored in the memory means.

[0026] Thus, it can carry out the time slot assignment on an area by area basis without changing the numbers of the uplink and downlink time slots on a system by system basis.

[0027] According to a second aspect of the present invention, there is provided a time slot assignment apparatus in a mobile communication system employing a TDMA and TDD scheme that assigns time slots, which are formed by time dividing a frame of a frequency band, to uplink channels and downlink channels, the time slot assignment apparatus in a mobile communication system comprising: memory means for storing uplink or downlink priorities of all the time slots in the frame; receiving means for receiving a time slot assignment request from at least one of the uplink channels and the downlink channels; and assignment means for assigning the time slots in the frame in response to the time slot assignment request received by the receiving means, in accordance with the priorities store in the memory means.

[0028] Here, the memory means may give the same priority to a plurality of the time slots included in the frame.

[0029] The assignment means may decide the priorities of the time slots to be assigned in accordance with the priorities stored in the memory means.

[0030] According to the present invention, the number of the time slots to be assigned is adaptively determined in accordance with the traffic state.

[0031] More specifically, the number of the time slots to be assigned is not predetermined, but the time slots are given priorities so that they are assigned in accordance with the priorities.

[0032] In this case, the same priority can be assigned to a plurality of time slots. Thus, the numbers of the uplink/downlink time slots can be varied adaptively in accordance with the traffic state. In addition, giving lower priorities to the time slots that are likely subjected to the interference from the mobile stations in the adjacent areas makes it possible to limit the interference to a minimum.

[0033] Therefore, assigning the time slots on an area by area basis when the traffic increases markedly can achieve the time slot assignment to the uplink/downlink channels in response to the required traffic, thereby making it possible to utilize the frequency with high efficiency. Furthermore, the interference from the mobile stations in the adjacent areas can be limited to a minimum.

[0034] According to the present invention, the time slot assignment is possible in response to the traffic and interference on an area by area basis, thereby increasing the efficiency of the frequency.

[0035] The above and other objects, effects, features and advantages of the present invention will become more apparent from the following description of embodiments thereof taken in conjunction with the accompanying drawings.