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Sectoring in GSM
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Answer:

Cell splitting achieves capacity improvement by essentially resealing the system. By decreasing the cell radius R and keeping the co-channel reuse ratio D/R unchanged, cell splitting increases the number of channels per unit area. However, another way to increase capacity is to keep the cell radius unchanged and seek methods to decrease the D/R ratio. In this approach, capacity improvement is achieved by reducing the number of cells in a cluster and thus increasing the frequency reuse. However, in order to do this, it is necessary to reduce the relative interference without decreasing the transmit power.

The co-channel interference in a cellular system may be decreased by replacing a single Omni directional antenna at the base station by several directional antennas, each radiating within a specified area called a sector.

The technique for decreasing co-channel interference and thus increasing system performance by using directional antennas is called sectoring.

The factor by which co-channel interference is reduced depends on the amount of sectoring used.

A cell is normally partitioned into three 120° sectors or six 60° sectors as shown in the above fig (a) and (b).

The channels used in a particular cell are broken down into sectored groups and are used within particular sector.

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  • In cell sectoring a single omni-directional antenna at base station is replaced by several directional antennas, each radiating within a specified sector.

    • By using directional antennas power is transmitted in single desired direction decreasing number of interfering co-channel cells and co-channel interference.

    • The technique for decreasing co-channel interference and thus increasing system performance by using directional antennas is called sectoring.

    • The factor by which the co-channel interference is reduced depends on the amount of sectoring used. A cell is normally partitioned into three sectors.

    • When sectoring is employed, the channels used in a particular cell are broken down into sectored groups and are used only within a particular sector.

    • For cluster size 7, sectoring reduces co-channel cells from 6 to 2 for $120^0$ sectoring and to 1 for $60^0$ sectoring.

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  • For $120^0$ sectoring only two of the six co- channel cells receive interference with a particular sectored channel group. Considering the mobile located in sector in the centre cell labelled ‘5’ in diagram below, there are three co-channel sectors labelled ‘5’ to the right of the centre cell and three to the left of the centre cell. Out of these six co-channel cells only two have sectors with antenna pattern which radiate into centre cell hence mobile in centre cell experiences interference from only two sectors. The resulting S/I for this is found to be as 24.2 dB which is significant improvement over the omni-directional case where the worst case S/I is 17 dB.

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  • This S/I improvement allows the wireless engineers to reduce the cluster size N in order to improve the frequency reuse and thus the system capacity.

  • The improvement in S/I implies that with $120^0$ sectoring the minimum required S/I of 18 db can be easily achieved with seven cell reuse as compared to 12- cell reuse for the worst case. Thus the sectoring reduces interference which results in increase in capacity by a factor of 12/7 or 1.714.

  • But decrease in cluster size and thus improvement in capacity results in increase in number of directional antennas at each base station and decrease in trunking efficiency due to channel sectoring.

  • Since sectoring decreases coverage area for particular group of channels the number of handoffs also increases. Thus to reduce number of handoffs later microcell zone concept is implemented.

  • Advantages:

    • Improvement in S/I ratio.

    • Improvement in system capacity.

  • Disadvantages:

    • Increased number of antennas at base station.

    • Decrease in trunking efficiency due to channel sectoring at the base station.

    • Increase in number of handoffs, since sectoring reduces the coverage area of the particular group of frequencies.

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