초록 ▼

To reduce the process of a cell search including sector identification without increasing loads on a transmission/reception apparatus. A synchronization channel (SCH) included on downlink in a multicarrier mobile communication system is multiplied by a sector specific code and a cell specific code (

To reduce the process of a cell search including sector identification without increasing loads on a transmission/reception apparatus. A synchronization channel (SCH) included on downlink in a multicarrier mobile communication system is multiplied by a sector specific code and a cell specific code (step S1), assigned to subcarriers on the frequency axis (step S2), subjected to spreading processing and IFFT processing (steps S3, S4), and further subjected to insertion of GI and D/A conversion processing (steps S5, S6), and multicarrier is transmitted from a directional antenna of each sector (step S7). The receiving side specifies a SCH position by auto-correlation method or cross-correlation method, performs FFT, and then, concurrently performs identification of a sector by detection of the sector specific code, and acquisition of cell specific information by demodulation of the cell specific code.

대표청구항 ▼

1. A sector identification method used in a mobile station, the method comprising: receiving, from a base station controlling over a cell containing a plurality of sectors, data of synchronization channels which includes sector specific codes respectively corresponding to sector identification numbe

1. A sector identification method used in a mobile station, the method comprising: receiving, from a base station controlling over a cell containing a plurality of sectors, data of synchronization channels which includes sector specific codes respectively corresponding to sector identification numbers for identifying the sectors; anddetecting synchronization and performing sector identification by calculating correlation in the time domain using data of the synchronization channels and time waveforms of replica of the sector specific codes, whereinthe data of the synchronization channels mapped to a plurality of predetermined subcarriers and same time positions within a frame are specific to respective sectors in the same cell, common among adjacent cells, and transmitted on a same frequency band among the adjacent cells at intervals of a half period of a frame. 2. The sector identification method according to claim 1, wherein the data of the synchronization channels are orthogonal to one another. 3. A mobile station that communicates with a base station controlling over a cell containing a plurality of sectors, the mobile station comprising: a receiver that receives, from the base station, data of synchronization channels which includes sector specific codes respectively corresponding to sector identification numbers for identifying the sectors, anda time-domain correlation calculator that calculates time-domain correlation value between data of the synchronization channels and time waveforms of replica of the sector specific codes, whereinthe data of the synchronization channels mapped to a plurality of predetermined subcarriers and same time positions within a frame are specific to respective sectors in the same cell, common among adjacent cells, and transmitted on a same frequency band among the adjacent cells at intervals of a half period of a frame. 4. The mobile station according to claim 3, wherein the time-domain correlation calculator is part of a synchronization channel signal processing section that specifies the sector specific code with a maximum correlation value, and thereby performs the sector identification. 5. The mobile station according to claim 3, wherein the data of the synchronization channels are orthogonal to one another. 6. A method used in a base station controlling over a cell containing a plurality of sectors, the method comprising: transmitting data of synchronization channels which includes sector specific codes respectively corresponding to sector identification numbers for identifying the sectors, on a same frequency band among the adjacent cells,wherein data of synchronization channels mapped to a plurality of predetermined subcarriers and same time positions within a frame are specific to respective sectors in the same cell and common among adjacent cells at intervals of a half period of a frame. 7. A base station controlling over a cell containing a plurality of sectors, the base station comprising: a synchronization data generator that generates data of synchronization channels which includes sector specific codes respectively corresponding to sector identification numbers for identifying the sectors;a transmitter that transmits the data of synchronization channels, on a same frequency band among adjacent cells,wherein data of synchronization channels mapped to a plurality of predetermined subcarriers and same time positions within a frame are specific to respective sectors in the same cell and common among adjacent cells at intervals of a half period of a frame. 8. The base station according to claim 7, further comprising: a storing section that stores the data of the synchronization channels.