Cell Sectoring
Cells are divided into a number of wedge-shaped sectors, each with its own set of channels. By wedge-shaped we mean that the cells are divided at an angle of 120° or 60°. These sectored cells are called microcells. Like Cell Splitting, it also helps in increasing channel capacity and decreases channel interference. 3 or 6 sectors are created from a given cell. But unlike Cell Splitting, here the cell radius does not change after sectoring the cells although the co-channel reuse ratio has decreased. It increases system performance by using a directional antenna.
Advantages
- Sectoring increases the signal-to-interference ratio which means the cluster size gets reduced.
- Reduces interference without altering the system performance.
- Increases channel capacity without necessarily changing the cell radius.
- Increases frequency reuse by reducing the number of cells in the cluster.
- Assigning a channel is easier.
Disadvantages
- Increases the number of antennas per base station.
- It decreases efficiency as sectoring reduces the channel groups.
- Excessive interference leads to traffic loss.
- The number of handoffs increases as the working area of the cell decreases in Cell Sectoring.
Cell Splitting And Cell Sectoring
With the growing number of mobile users, it is important for the cellular capacity to also keep growing to meet the needs of the users. In this article, we will look at some of the capacity-increasing methods in cellular networks.
Figuratively speaking there are broadly two ways to increase the channel capacity:
- The new addition of channels
- Borrowing of frequency
Both of the above two methods will also lead to an increase in cost along with capacity. Two distinct approaches we use in the modern day to increase channel capacity are Cell Splitting and Cell Sectoring. We will discuss them in detail below.