Telecom cells and the cells of your skin are not as different as you might think.
In both contexts, cells serve as basic building blocks, from which larger organisms can be created. Within a wireless context, cells are both a basic building block for a larger organism (the cellular network), and an agent for social interaction.
According to Dr. Charles W. Emarine, a radiologist with Kaiser Permanente in
Telecom-cell growth has, and continues to, spread across this country in irregular ripples, from population centers to rural areas, and from business cores out to the “burbs.” At its simplest, cell growth goes through distinct stages of development.
1.) Cluster growth in test markets
2.) Formation of a backbone, linking clusters together
3.) Branches form off of the central backbone
4.) Coverage gaps are eventually filled in with smaller and smaller cell sites, until the
area in question is “filled in” with wireless coverage.
5.) Renewal, as older cells are replaced with newer ones.
Just as with skin cells, as the weave of wireless fibers grow closer together, the gaps of coverage in between these fibers become smaller. In turn, the cell sites being built to fill in those coverage gaps are also getting smaller.
Although a cell site’s radius depends upon its surrounding topography and its capacity to handle calls, cell sites in rural areas generally have a radius between five and eight miles, and cell sites in urban areas typically have a radius between two and five miles.
As call volume increases within a given cell, demand for frequency reuse (in other words, the cell’s ability to handle more calls) will also increase until the cell reaches its maximum processing capacity. Therefore, to preserve wireless coverage and to provide for future growth, carriers are breaking up larger sites into smaller ones. Depending on the specific topography of the area to be covered, a handful of smaller sites at lower elevations could be substituted for one high-elevation site at capacity.
Our need to share information is analogous to the flow of blood for skin cells. As Dr. Emarine pointed out, increased blood flow can lead to faster epithelial-cell growth. Consequently, increased telecom-cell growth is usually the end result of an increased need to share information.
In 1996, the total number of cell sites in service, according to the Cellular Telecommunications and Internet Association (CTIA), was 30,045 sites. One year later, this number rose to 51,600—an increase of 71%. At this time, 38 million cell phones were in use across the country, and the average consumer used his or her phone for 122 minutes per month. By 2003, almost 163,000 cell sites had been built, and the average subscriber was spending more than 300 minutes per month on the phone. According to the latest data from the Cellular Telecommunications and Internet Association, as of 2006, 77.1% of our country’s population had cell phones (up from 61.5% in 2004, and 50% as of 2003), which is slightly higher than