The world has moved to the digital side; gone are the days of people writing elaborate letters and heading to the nearest post office to send it off. Everything is fast now, everything is interconnected. Cell phones have changed the way in which we communicate and get ideas across. Distances now mean very little as you can now talk to someone 3000 miles away, just as easily as you are chatting with someone from down the block. With so much hinging on 24X7 connectivity and scorching fast data transfer, it has become of paramount importance to get both of these right.
To make sure that they stay connected with good quality signals, people have increasingly started to use call boosters. The sleek piece of tech is able to salvage just about any cell signal from the grave. You will find your cell reception bar filled and the call quality will be comparatively better. You will no longer find yourself walking around, raising your phone in your hands in an attempt to get a decent signal anymore.
However, boosting cell reception indoor is a complex process. The reason is that the building in which you are in, the layout, and the building materials used, among others, all go into deciding how well the cell signal booster will finally work for you. We will be helping you answer your question as to why your cell phones don’t work so well indoors and what it depends on. Read on.
Cell Reception And Buildings
Why do you think it is that in one building your phone holds a strong, usable cell signal, while when you head into another one, you find your phone’s cell reception staggering onto its knees? There are many variables that decide the strength of the cell reception within buildings and we will be having a look at what these are.
The Four main challenges one should ace to get good cell reception are:
- Building materials
- Remote locations
- Shadowed areas
- Tower use load
By far the biggest reason contributing to weak signals is the building materials that are used in construction. Cell signals undergo a lot of interference as a result of the obstruction from materials like steel, concrete and stone that are used in construction.
Constructions that employ stone are generally very old structures. However, stone is a material that is also used in the façade of modern buildings as well. You may find stone being used on the exterior portion of upscale offices, hotels and even public buildings such as museums and government offices.
One of the most commonly used materials that boast of amazing compressional strength characteristics; it is generally used between floors, in and around the elevator shaft and for most of the load bearing walls above the ground. Concrete works amazingly well as a noise dampener too- this is why it is used in hotels and in buildings that are close to high-traffic location.
Most structures use a fusion of steel and concrete, in the form of reinforced concrete. Large, high-rise buildings are predominantly consisting of steel along with concrete to support the structure. But this is one material that is a nightmare for cell reception. Steel creates just as much interference as dense concrete does. Even buildings that have metal roofing, which is used in most warehouses and places of industrial work, are guaranteed to cut short the strength of your cell phone reception.
This goes without saying. Most cell signal booster also struggles, let alone cell phones, when signal towers are placed in remote locations. This is a scene that usually plays out in sparsely populated regions, which have towers that are miles apart from one another.
Now adding an additional layering of dense building material of the building you walk into, makes matters even worse for your receptions. Starting off with a strong, usable signal is key to having a decent reception indoors in remote locations.
These are the areas that are overshadowed by a much larger object, which in turn blocks the incoming and outgoing cell signal, resulting in the overall weakening of the signal strength. The areas having unusable or low signal strength is usually called as a shadowed area. The large object could be a man-made structure like an imposing skyscraper or natural things such as nearby hills or trees.
Tower Use Load
Think of it as a pizza: the less the number of people, the more amount of pizza you end up with. The more the number of people, the tinier the slice you get. As the traffic increases and the number of cell phone users hooking onto a single cell tower increases, your reception will weaken and you will start to experience dropped calls, slower data speeds or stalled data, and terrible voice quality.