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What are the different methods to improve the capacity of cellular system? Explain it.

Mumbai university > Comp > SEM 8 > Mobile Communication

Marks: 10M

Year: Revised 2012

1 Answer
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  • With the demand for wireless service increases, the number of channels assigned to a cell becomes insufficient to support the required number of users.

  • At this point cellular design techniques are needed to provide more channels per unit coverage area.

  • Techniques discussed below are used in practice to expand the capacity of cellular system.

A Cell splitting:

  • Cell splitting is the process of sub dividing a congested cell into smaller cells, each with its own base station and corresponding reduction in antenna height and transmitted power.

  • Cell splitting increases capacity of a cellular system since it increases number of times that channels are reused.

  • By defining new cells which have a smaller radius than the original cells and by installing these smaller cells between existing cells, capacity increases due to additional number of channels per unit cell area

  • In this ( D)⁄R ratio is kept constant and entire system is rescaled.

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B. Cell sectoring:

  • In cell sectoring a single omnidirectional 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.

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  • 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.

  • 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.

C. Microcell zone concept:

  • The increased number of hand off, increase load on the switching and control link because of sectoring. A solution to this problem is given by microcell zone concept

  • Large control base station is replaced by several lower power transmitters on the age of cell.

  • The mobile retains the same channel and the base station simply switches the channel to a different zone site and the mobile moves from zone to zone.

  • Since a given channel is active only in a particular zone in which mobile is travelling, base station radiation is localized and interference is reduced.

  • The advantage of zone cell technique is that while the cell maintains a particular coverage radius, co-channel interference in the cellular system is reduced. As the large central base station is replaced by several lower power transmitters on ages of cell. Decreased co-channel interference improves signal quality leads to increase in capacity without degradation in trunking efficiency caused by sectoring.

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  • Advantages:

    • Decrease co-channel interference which leads to an improvement in signal quality and also leads to an increase in capacity.

    • No degradation of trunking efficiency.

  • Disadvantages:

    • More antennas are required.

    • Base station need to be more sophisticated to handle transfer of call from one zone to another zone within the cell.

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