Successful Future of IoT is dependent on M2M Cell Signal Boosters

Communication today has changed a lot from simply talking or texting person-to-person. Now, communication between devices and their operating platforms via the Internet of Things (IoT) has become an indispensable part of our everyday lives. To a large degree, cellular technology has become an enabler of IOT. It is estimated that by the year 2023 there will be more than three billion cellular IOT devices in the market.

With the continuing increase of IOT applications it has become vital that consumers have access to reliable network connectivity that comes with M2M signal boosters. The reason is that consistent wireless connection is key to powering devices, smart grid utilities, vending machines, vehicles, and everything in between. Whether it be home security systems, vehicle navigation systems, ATMs, or remote monitoring, mobile connections are already powering millions of our everyday physical objects.

Why Cellular IOT Connectivity Is so Important to an IOT Device?

We cannot deny that cellular IOT connectivity is empowering huge advancements in technology. With the exponential growth of IOT being experienced in today's 5G world, it has become essential that consumers have access to reliable cellular signal to enable easy communication between devices and sharing of real-time data. Wireless carriers are developing new, stronger networks to support IoT applications, but this process takes time.

As we see more and more connected devices, unreliable or weak cellular signal can potentially seriously affect revenue, inventories, and even security. What is interesting, though, is that many IOT devices and applications do not use large amounts of data, or they only transmit data at specific times.

This means that a lower-power, lower-cost, and lower-data speed option can still support the growth of IOT, in addition to supporting today's current IOT connectivity requirements. So, in the interim, appropriate adjustments to our existing cellular infrastructure, which is used by more than 90% of the world’s population, can be leveraged to connect IOT technologies as we wait for new networks to come online.

How Can We Bridge The Cellular Connectivity Gap?

We know that 5G will be a complete game changer when it comes to delivering always-on cellular connectivity for our IoT devices. However, 5G is not currently available to everyone. It is not going to roll out overnight. Just to complicate things further, there're many IOT applications supporting devices and other initiatives that are installed in locations where even the most reliable cellular networks struggle to reach, like in:

• Basement flood detectors in large buildings.
• Parking sensors located in underground garages.
• Cellular-based security systems in rural areas.
• Cashless vending machines within warehouses.

In addition, it has become quite common for modern-day construction materials, like drywall, brick, plaster, and concrete, to block incoming cellular signal; in addition to foam injected installation, energy efficient windows, and some metal constructions. Other factors that can hamper cell signal include:

• Certain types of terrain.
• Dense vegetation or forests.
• Severe weather.
• Hills and mountains.
• Other buildings.

Cellular networks are becoming more and more strained as devices vie for bandwidth. This explains why networks struggle in populated arenas like sporting events, concerts, or even conferences where you have large numbers of people simultaneously accessing their mobile and cellular devices.

It is imperative that IOT devices are able to exchange data immediately with their connected servers, regardless of where they are placed - which means there must be no dead spots.

Cellular Signal Boosting Technology Plays a Vital Role in IoT.

The above scenarios are where M2M signal boosting technology steps in to save the day – or rather the signal. SignalBooster.com's cellular signal amplifiers like the direct-connect IoT 2-Band and the IoT 5-Band will, regardless of carrier, enable dependable data transfer to the Cloud or across cellular networks for IoT devices.

Ensuring IoT Communications are Unimpeded.

Cellular signal boosters are an affordable and effective way of closing the connectivity gap. Also known as passive DAS boosters, these boosters improve cellular signal by bringing the signal indoors, then amplifying it.

This results in a strong, reliable cellular connection, allowing for uninterrupted data transfer. And, regardless of whether you're with Sprint, AT&T, Verizon, or T-Mobile, every user benefits from boosted cellular signal.

Cellular Boosting Solutions for IoT.

SignalBooster.com's Machine to Machine signal boosters, also known as IoT boosters, dramatically strengthen the foundations of IoT by connecting directly to most gateways and cellular modems to deliver strong, reliable signal strength and improve data download and upload speeds. In addition, they deliver solutions for fixed in-building and mobile use without requiring a physical connection to the device.

Importantly, these direct connect IoT 2-Band signal booster and IoT 5-Band signal booster can be customized to suit your specific needs. Some examples of how our IoT boosters can assist include:

• Maintaining the integrity of homeowners' silent alarm systems.
• Providing retailers with secure customer financial transactions.
• Providing law enforcement with real-time access to criminal databases while in the field.

Enhancing Point-of-Sale with a Direct-Connect Cell Signal Amplifier.

Successfully overseeing a restaurant or retail business is a complicated process in itself. But what happens when there's a mix of businesses? For example, consider a 7-Eleven with a Redbox unit in front; a TGI Friday with a Wells Fargo ATM; or a Wall-Mart with a Dunkin’ Donuts located inside.

These're just a few examples of how the IoT affects how we live and work. The above businesses have no affiliation with their physical venues, and their credit card transactions need to be processed and approved. So, how does this work? It works using a direct connect cellular signal booster.

How Does a Direct-Connect Cellular Signal Booster Work?

For our example we will look at a franchise located within a Wal-Mart premises. This franchise will need to establish a reliable internet or cellular connection in order to process debit and credit card payments. How do they do this when franchises are typically not allowed to access Wal-Mart's internet connection?

The answer is that they process credit card transactions by trying to establish a strong and reliable cellular signal connection using an LTE modem. The problem with this solution is that transactions are often unable to be finalized because the cellular service in-store is simply too weak.

How Direct-Connect Cell Signal Boosters Can Help.

When wired to a cellular signal modem, these M2M (machine 2 machine) boosters can be used for any point-of-sale system handling credit and debit card transactions. The booster is linked to the point-of-sale device via a cable, with an antenna strategically placed to enhance cellular signal.

In an event of loss of power supply, there's a by-pass feature that ensures the connection to cellular signal is maintained. This means that, with loss of power the boosted signal will be lost. However, you will still have access to the normal cellular signal.

Diagram: Workings Of Direct Connect Signal Booster:

You can trust SignalBooster.com's powerful yet compact IoT signal boosting solutions to deliver a fast and reliable solution for almost all cellular-based IoT communication systems located within a restricted space.

The Future of IoT.

Research shows that, currently, 25 percent of businesses are only able to perform their daily operations by utilizing IoT technologies and that by the year 2023 there will be 43 billion or more IoT connected devices.

These figures can only increase, which means that the demand for reliable, fast IoT connectivity will be increasing exponentially. The use of cellular signal boosters within this environment will ensure that communication technology continues to evolve and improve.