NETWORK CONNECTION IS THE ONLY LIFELINE OF STORM CHASER’S

At the point when the meteorologist says it will rain, large portions of us change our outside arrangements for a sheltered, dry place.

McGee is an expert tempest chaser who overcomes the components to convey early tempest notices to individuals in the way of tempests with a specific end goal to help spare lives.

Pursuing tempests into remote territories of the nation and reacting to tempests that change ways without notice puts McGee and his accomplice in conceivably dangerous circumstances. McGee realizes that tried and true correspondence in the remotest of spots is basic for his prosperity and for his exceptionally survival. That is the reason he depends on the country’s most solid system to suppoChasing storms into remote regions of the nation and reacting to tempests that change ways without notice puts McGee and his accomplice in conceivably savage situations.rt him when and where he needs us. “Our information association is our life saver,” says McGee. “On the off chance that we don’t have that correspondence forward and backward, we are in a, fatal circumstance.”

While McGee sorts out his specialized gadgets and vehicle to get ready for a period of tempest pursuing, Verizon readies our system to bolster him in his life-sparing attempts.

Verizon incorporates excess and unwavering quality with each part of our system and has for quite some time been recognized as the most solid system in the business by our clients and outsiders. Arrange dependability is a result of building – and even a 1% contrast in unwavering quality can mean billions of fizzled associations. We keep on enhancing our system by forcefully sending new innovation, little cells and dispersed radio wire frameworks, extending XLTE scope to viably twofold the accessible 4G LTE arrange data transfer capacity, fusing new programming administration apparatuses permitting us to deal with our system all the more proficiently, guaranteeing generators, transport and batteries keep our destinations on air even in extreme climate, and contributing reliably to guarantee we bring the freshest and most progressive innovation to the groups we serve.

Organize dependability doesn’t occur coincidentally. It takes savvy designing, predictable venture and a longing to dependably show signs of improvement. We are focused on that level of fabulous in light of the fact that clients like McGee and those he relies on upon us.

MOVING FROM GSM/CDMA TO LTE

GSM and CDMA, the 2 principal radio systems utilized in cell phones, were the lifeblood of mobile carriers for more than two many years. As you might anticipate, carriers have completely depreciated this property, making offerings on this technology a number of the maximum worthwhile that they’ve supplied. That’s the best news. The awful news, but, is in lots of instances those services are nearing the cease in their lifecycle – with an antique gadget and huge (burdensome) use of strength and tower area.

Furthermore, GSM and CDMA commonly use the premium spectrum for insurance and vendors are re-allocating it to LTE where demand is highest. As voice visitors actions to voice over LTE, providers are an increasing number of displaying hobby in harvesting this spectrum and decreasing working fees. Equipped to transport on, to re-use the valuable spectrum and reduce tower rents whenever possible, this is just the start of an extended journey ahead for lots of companies. Massive scale decommissioning throughout the globe is in its early stages and could possibly amplify to maximum carriers inside the coming years.

download

Transforming into a new environment:

Just because the migration strategy is achieved, companies ought to provide consumer care personnel with scripts to cope with questions and in-keep schooling to assist customers through the procedure. Maximum clients have already traded their phones for a newer model that supports 3G or LTE. For those with a single-technology cell phone, a hit for an extremely low-value substitute would possibly be well obtained. Clients have to be recommended to go into any of the service stores and join up for new offers. This pool of customers is much more likely to be fee sensitive and/or less technologically savvy. They will require greater hand-holding and extended time to absolutely migrate.

Further to the purchaser migration, the service should cognizance on how to reduce tower rents after the system is eliminated. Rent discounts over a 5-yr lease term can regularly cover the cost of the decommissioning. Carriers have to pick out rentals which are coming due and notify landlords straight away, locking in lease reductions every time possible. Rents are dependent on person hire situations that frequently have unique terms related to the device at the tower. Landlord negotiations often should be accomplished on a man or woman basis with a cautious exam of each hire and direct negotiations with each landlord. Within the U.S., many leases are shriveled with the major tower groups – that often do now not remember reductions in higher when equipment is eliminated. As such, carriers should cautiously broaden and execute a landlord negotiation strategy and fully investigate the business case for moving off of high lease websites.

As clients are migrated and a plan is evolved to re-use spectrum, companies need to increase a complete plan for the logical and bodily decommissioning of the network. In many approaches, decommissioning affords some of the same demanding situations as a network deployment and might have a direct impact on the gadget with a view to being ultimate in service. Middle factors ought to be identified, separated from the alternative technology, logically close off after which physically eliminated to loose up facts middle area. applications and offerings going for walks on the legacy systems (e.g., voicemail) frequently help multiple technologies and those capabilities should be migrated to new platforms. At cellular websites, legacy energy elements can near give up-of-life and eliminated, so one can require migrating in-provider technology to new or different present strength plants. ultimately, the right disposal of all system should be carried out in compliance with nearby environmental laws at the same time as maximizing the cost from recycling or resale.

Decommissioning a community generation requires a delicate balance among supplying exemplary patron care, not disrupting contemporary operations, lowering tower rents, and maximizing economic recovery of recycled materials and device. The decommissioning of legacy networks is not a trivial pastime. It wishes to be diligently managed like every massive-scale community construct program – with enough up the front making plans to ensure fulfillment.

 

How to locate your cell phone tower in 6 steps?

We’re often wondering about coverage maps from AT&T, Verizon, Sprint, T-Mobile, and other carriers on a quotidian substructure.
While all the major carriers relish showing fancy colored maps illustrating their general coverage area across the US, when it comes to your categorical cell tower location, you’re on your own.
Well, not genuinely. We’re here to avail.
cell-phone-tower-with-blue-sky
We will show some of the websites, apps, native implements, and signal meters that will avail you find your most proximate cell tower.
1. Ascertain Your Carrier Accommodates Your Area
It’s transpired afore. Many people either buy a second home, customarily a cabin in a remote, rural area, or an RV and find their incipient place not covered by AT&T, Verizon, or their categorical carrier. So afore hunting for cell tower maps and locations, ascertain your area is a component of your carrier’s coverage map.
Simply put in your address or zip code for your carrier:
AT&T’s Coverage Map
Sprint’s Coverage Map
T-Mobile’s Coverage Map
Verizon’s Coverage Map

Once you can substantiate your area is being covered, now it’s time to find your cell tower.
2. Websites to Find Location of your Cell Tower
These websites you can put in your zip code or address and it will tell you the exact cell tower locations. While facile and fairly transparent, there’s no way to verify if it’s 100% precise. However, it is a good commencement and when paired with the other techniques we’ll mention later, it’ll give you everything you require to ken.
AntennaSearch.com (very good, but takes some time to load)
CellReception.com (good but marginally convoluted)
OpenSignal.com (best of the bunch)

3. Smartphone Apps to Find Your Cell Tower Location
These apps utilize your location and then map out the most proximate carrier cell tower. Again, it’s hard to verify if the information is 100% precise, but it’s a nice implement to have because it gives you a general conception of nearby cell towers.
Open Signal: For iPhone | For Android (best of the bunch)
Akvelon’s Signal Finder: For iPhone | For Android
RootMetrics’ Cell Phone Coverage Map: For iPhone | For Android
4. Utilize Your Smartphone’s Antenna to Find Your Cell Tower Location (Highly Recommended Method)
Of course, your phone needs a signal to work, so why not invert engineer the process to visually perceive where the most proximate cell tower is at?
But first a short and informative explication about cell phone signal.
Cell phone signals are quantified in dB (decibels). They’re rudimentary radio waves, the AM/FM kind. All cellular contrivances operate within this standard:-50 dB to -120 dB frequency.
-50 dB is considered full vigor (full bars). -120 dB is considered a dead zone (no accommodation).
However, it’s up to each carrier to define which dB range correlates to the number of bars. Simply put, there’s no industry standard to dB signal vigor and the number of bars. What’s 1 bar on Sprint could be 3 bars on T-Mobile could be 2 bars on Verizon, despite, receiving the exact same signal and operating at the exact same speeds.
The number of bars is independent to across all carriers!
But dB readings are not subjective. They’re pristine science and math. The more proximate you are too -50 dB, the better your signal. The more proximate to -120 dB, the worse your signal. And your smartphone has the native faculty to exhibit dB readings.
Here’s Steps to Access Your dB Signal:
For iPhone Operators
1. Get into Phone Mode
2. Next you can Dial and Call *3001#12345#*
3. You’ll automatically enter into Field Test Mode

4. Drop down your notifications bar and you will visually perceive your dB reading in the left-hand corner.

For Android Operators
1. Go to Settings
2. Select General Option
3. Get into About Phone
4. You will find the option Network or Status
5. From that you should optically discern your dB Value
Once you access to your dB reading, ambulate outside the perimeter of your abode. Depending on your carrier & phone model, it takes some time for the phone to refresh, so walk gradually and probe for the number most proximate to -50 dB. After a couple of walk-throughs, you should have a very good conception which area of the house is receiving the best signal, consequently kenning the general direction of your cell tower.
5. Utilize a Signal Meter to Find Your Cell Tower Location (Best Results)
While utilizing your phone in dB mode is generally a good way to find the signal for most people, if you’re an installer, contractor, or pro who genuinely wants to be precise, then getting a signal meter is a no-brainer.
It’s a handheld contrivance that pinpoints all 3G & 4G frequencies & bands, exhibits signal vigor in dB, and accurately give cell tower direction within a 45 to 90-degree spread. Scarcely costly but worthwhile investment for professional telecom users.

6. Poor Cell Phone Accommodation? Then Learn More about Cell Phone Signal Boosters
If you’re distressed from dropped calls, slow loading internet, unsent email, and poor signal, you fundamentally have two options: depend on a landline wifi connection or boost your cellular signal.
Cell phone signal boosters are potent contrivances that reach far to the cell tower, drag in the signal initially, followed by amplifying it up to 32X, and then rebroadcast the boosted signal into your domicile or office.
Here’s an expeditious summary:
1. Boosts 3G & 4G LTE signal (up to 32 x!) for all phones & all carriers.
2. Covers up to 7,500 sq ft for consumer models, 50,000 sq ft for enterprise models.
3. Better verbalize text, and more expeditious internet. Reliable connection & accommodation.
4. Complete kit, facile install, no monthly fees.
5. More bars or YOUR MAZUMA BACK.

It’s everything you require to ken about boosting the signal in the city or in the countryside.

Future of satellite communication is about to get an makeover

In disasters, rescuers usually communicate via satellite if the phone and mobile telecommunication are out. But that has drawbacks: Once the data lines are overloaded, the connection disconnects. In addition, there barely are systems available yet for moving vehicles. Fraunhofer researchers have developed a new antenna system which reliably transmits data via satellite with a high-bandwidth and which is suitable for mobile use.

Natural disasters regularly strike the world. As in the case of the tsunami in Japan or the earthquake in Nepal, electricity, and telephone lines are destroyed in this process as well. Usually, mobile communications fail over a large area because the poles are damaged. That is why during disasters, rescue services turn to their own communications technology — mostly over satellite systems. Data or phone calls are sent directly to a satellite in space and, from there, to receiving stations on Earth. As a result, the rescue workers are not dependent on the communications infrastructure on the ground.
Until recently, satellite communication has had its disadvantages. The setting up of a small satellite station in the field takes some time for example. Once built, it cannot be easily moved. Moreover, the connection breaks off when a lot of data has to be transmitted or when a thunderstorm interferes. The satellite antenna has to be aligned very precisely to the satellite — just like in the case of television. It is now virtually impossible to communicate with broadband in a moving car via satellite since the antenna constantly moves out of focus due to the movement of the vehicle, although there are some antennas available that is supposed to improve but not eliminate the problem completely.

Internet users have become accustomed to a connection which is stable and which does not just break off when a lot of data is flowing over the line. If a person watches an HD movie or uses video calling, then, at most, the picture changes. It becomes grainier, more pix elated when the data line is heavily loaded — but rarely does the connection break off completely. The reason is that Internet technology is now designed so that it can control an application like the browser or Skype in such a way that the quality of the image is reduced but the functionality is preserved.
free-satellite-tv
Connection without interruptions or dropouts:

With satellite communications that are not the case today. If the line is overloaded, it breaks off easily.TV viewers know that during storms, instead of their satellite image getting worse little by little, it just disappears suddenly. In other words, satellite communication has so far been lacking a continuous technology that controls the connection quality (like with the Internet) and adapts to the current utilization of the data line. Researchers have changed the data processing so that the data rate changes depending on the situation. For this purpose, a special modem has been developed for the transmission of the data.
“In this way, we achieve a very high bandwidth of several megabits per second,” says Raschke. “Of course, we don’t approach the Gigabit streams of a solid data line, but for satellite communication, it’s a big step.” Thanks to this technology, rescuers in the future will be able to send videos of the local situation and maps quickly, and without the connection breaking off. Just like you are used to from the Internet. And even clear satellite telephone calls without dropouts will be possible.

No central station required:

So far, individual senders can only connect with each other via a central hub. However, the newly developed modem now establishes direct connections. This contributes to data security not least because the transmitter and receiver now make direct contact with each other, and the data stream is no longer running through the hub.

Understanding Network Slicing Technology- A Key Element of 5G

Telecommunication vendors and mobile operators are making the fundamental strides with a specific end goal to prepare for 2020, the year business “5G” systems are required to wind up distinctly a reality. In any case, the industry accord is that 5G systems will be considerably more than quite recently new radio access as these future systems will be a reconciliation of cross-domain systems.

5G frameworks are relied upon to be an inherent approach to empower coherent system cuts, which will permit telecom administrators to give organizes on an administration premise and meet the extensive variety of utilization cases that the 2020 time span is required to request. In a solitary 5G framework, arrange cutting innovation can give availability to savvy meters with a system cut that interfaces “Internet of things” gadgets with a high accessibility and high unwavering quality information merely for administration, with a given idleness, information rate, and security level. In the meantime, the network slicing can give another system high throughput, high information speeds and low latency for an augmented reality benefit.

Network Slicing- A crucial Technology For 5G
Network Slicing- A crucial Technology For 5G

With network slicing technology, a solitary physical system can be parceled into various virtual systems permitting the administrator to offer ideal support for various sorts of administrations for various sorts of client sections. The key advantage of network slicing technology is it empowers administrators to give an administration premise, which upgrades operational effectiveness while diminishing time-to-market for new administrations.

Network slicing technology can bolster tweaked availability intended to profit numerous enterprises by offering a more intelligent approach to section the system to bolster specific administrations or business fragments. With this innovation, slicing can be advanced by heap qualities including inertness or transfer speed necessities. Since the slicing of the system is secluded from each other in the control and client planes, the client experience of the system slicing will be the same as though it was a physical isolate organize.

Network Slicing Could Make 5G Business World Possible
Network Slicing Could Make 5G Business World Possible

Telecom exhibited 5G network slicing technology at SK Telecom’s corporate innovative work focus in Bundang, South Korea. The exhibit highlighted the production of virtual system slicing streamlined for administrations including super multiview and increased reality/virtual reality, monstrous IoT offerings, and venture arrangements.

In 2016, Ericsson and Japanese broadcast communications firm NTT DoCoMo finished a joint evidence of idea of element network slicing technology for 5G center systems. In the PoC, a slicing administration capacity and system slice in light of administration necessities were self-sufficiently made, empowering changing administrations to be conveyed all the while by means of different coherent systems.

Likewise, Huawei and Deutsche Telekom did a joint demo of network slicing technology in DT’s 5G lab situated in Bonn, Germany.

A year ago, ZTE and China Mobile revealed their 5G-situated future system engineering plan idea and network slicing model framework. The network slicing model is intended to make dynamic 5G application situation by means of an unmistakable organization environment, including versatile broadband, IoT, and portable edge figuring.

Wi-Fi and its growing trend towards IoT

Though similar to the net property, WLAN isn’t truly identical factor because of the net. WLAN is brief for WiFi and may be a wireless networking technology that enables computers, portables, tablets, and currently numberless IOT devices to speak through a wireless signal. A WLAN signal is truly simply a high-frequency radio wave that your devices obtain abundant within the same approach that a radio will obtain a station signal.

The creation of WLAN cannot simply be copied to one discovered or moment in time, however rather came into being over the course of a decade and 0.5 through a method of regulation and invention.

In 1985 the Federal Communications Commission (FCC), opened many bands of wireless spectrum that might be used while not a government license. This opened the door for communications entrepreneurs to bring wireless to the broader shopper market. However, not abundant progress was created as a result there was no normal wireless frequency in use.

Finally, it absolutely was John O’Sullivan, a young Australian Ph.D., and his analysis of the pulses emanating from exploding black holes within the late Nineteen Nineties that created the employment of WLAN sensible. Sullivan’s analysis on radio-astronomy leads to the event of a quick chip that might transmit an indication whereas reducing the echo. This invention, referred to as the wireless native space network (WLAN), is that the basis of the WLAN signals.

With a reputation, a usable product, and a common standard, WLAN was able to begin to catch on with customers in 2001. It absolutely was championed by Apple UN agency who introduced the merchandise on its new  iBook’s underneath the name landing field.

Wifi is growing massive and strong:

Since then WLAN and wireless technology have evolved and scaled. Over time the standards (like the first 802.11x) for WLAN networks modified to radio-frequency spectrum standards that may transmit knowledge at a far higher rate. They progressed from 802.11 to 802.11a and 802.11b in 1999, all the thanks to 802.11ad in 2016 with a theoretical easy lay speed of 7Gbps and 802.11ah, conjointly referred to as WLAN HaLow, that operates in frequency bands below one GHz, giving longer vary, lower power property crucial for IoT battery steam-powered devices.

hero_airport_wifi

WiFi and IoT :

At identical time the globe’s leading school corporations and philanthropists are an investment in providing free WLAN to the areas of the world with the smallest amount access to the net. Elon Musk started a project to beam free WLAN from satellites, Mark Zuckerberg has launched Facebook’s net.org, and Google has launched Project Loon to beam WLAN down from air balloons.

To put it in perspective: In 2013 there has been half-dozen. 3 million wireless local area network hotspots and these days there is 167,998,370 (and growing) and 700 million folks victimize them worldwide. By 2018 this range is anticipated to grow to 340 million international hotspots or one WLAN hotspot for each twenty folks on Earth

The massive and growing range of non-public and mobile devices streaming knowledge is on the verge of disabling WLAN networks and wireless carriers. Whereas net service suppliers are doubling the information measure delivered to homes and businesses as quick as they will, users still never get the information measure secure as a result of that information measure is shared.

People aren’t any longer connecting one PC to the net. Currently, one person would possibly connect a desktop, laptop, mobile phone, tablet, and any range of home items, accessories, tools, and numberless different devices that are all a part of the net of Things (IoT).

IoT is that the array of devices with WLAN (or different wireless technology) and constitutional sensors that connect the device to each its surroundings and to its network. There’s been associate degree explosion of IoT devices over the past decade that poses a brand new challenge to the attitude of current networks. With the appearance of IoT, everything – from thermostats to stoves, to watches, to shoes, to cars, and route – is obtaining connected and changing into wireless technology.

 In Future:

And soon, it would be rare to possess a tool that’s not designed with wireless technology. Presently it’s projected that fifty billion IoT devices are going to be connected by 2020 (there are solely ten billion today). Once you scale this demand up by the millions and billions then you begin to possess a heavy downside. These IoT issues are pushing the frontier of wireless technology.

This future still appears bright as a result of new technologies on the horizon and has the potential to create wireless property considerably quicker than ever before and optimized for IoT devices with low-power high vary capabilities.

Methods to alleviate Cell phone Harmful Radiations

The topic on how the cell phone signals are harmful to humans has become an issue which turned out to be sensitive. Research has evidently proved the inconclusive line and say that  radiations from cell phones  can cause harmful radiations adversely.

For a long time the RF radiations have been around humans since we initiated the radio waves in the 1940’s. We use microwaves to cook daily and heat our foods which has same frequency as ionizing atoms and heat organic food. The signal from cell phones has excited and altered the DNA sequence. But we cannot quit using the cellphones for these reasons and miss out the exciting new technologies emerging everyday. SAR (Specific Absorption Rate) has to be provided by the manufacturers to list the specific cell phones based on the amount of  radiations.

Harmful Effects of Cell phone radiations
Harmful Effects of Cell phone radiations

 

The cell phone towers are built within the phones and has an inverse relation to its distance. This proves that moving your cell phone away from your ear diminishes the risks of exposure to the harmful radiations. When you work the hardest on your phone it puts on more radiations. When you make a call or receive a call it connects to the nearest cell tower and establish an connection. If you have poor reception then the cell phone has to work hard and gain the signal as a result emits more radiations. When you have a good reception it is not that hard work to gain the signal and as a result causes optimum working temperature and less radiation.

A signal booster does everything to keep the signal strong in your locality as well as prevent the phones from overheating and overworking. The good news is that the radiation effects gets reduced when you have the source of radiation away from your body and brain. The amplifier  is sufficient enough to distance you away.

 

End to the Plight of Disturbed Signal is not coming, it is already here!

You don’t need to live out in the middle of nowhere to sympathize with this plight. In fact, if you live in an older building, struggling with cell phone reception is something that probably sounds all too familiar.
Fortunately, we’re lucky to live in an age where many technical problems can be solved relatively easily; and bad cell phone reception is no exception. With a reasonable sum of money and some DIY, you’ll no longer need to leave your cozy spot by the radiator and go out in the freezing rain just to text someone.
A cell phone is essentially a souped-up walkie talkie. It works by converting your voice into an electrical signal that’s transmitted to the other person via radio waves.
Of course, a cell phone’s main selling point is that it’s portable; and in order to remain portable there are limits as to how large its components can be. Advances in technology have made it possible for considerably smaller components to pack a lot of punch – we’ve sure come a long way from those enormous 1980s brick cell phones! Nonetheless, even the latest smartphones have a surprisingly short range of action.
Phone masts and base stations pick up the signal from your cell phone and transmit it onward via radio waves until it reaches the cell tower closest to your friend. From there, it’s only a short distance towards your friend’s cell phone, which re-converts the electrical signal into the sound of your awesome voice.
enterprise
Radio waves are what that makes cell phones work. Without them, it would be impossible to get a good enough signal to complete most calls.
Unfortunately, they’re also quite weak. Radio waves can easily be blocked by something as simple as a large tree standing in their path. And if a lowly tree can block radio waves, just imagine the damage a hulking mass of concrete and metal can do. Older buildings weren’t constructed with cell phone reception in mind. Hell, before the early 1970s no one had even dream t of cell phones. In fact, even when the first cell phones appeared, they were mostly status symbols for business types and the super rich. No one could have possibly imagined how important they’d become to our way of life in just a few decades.
So if you have bad reception while inside, that’s probably because your home or office building is made of materials that block those all important radio waves from reaching your cell phone.
Cell phone signal boosters are devices that increase signal strength. The signal booster’s external antenna picks up an outside signal and sends it to a signal boosting amplifier that increases the signal’s strength. The signal is then transmitted to an internal antenna, which emits the boosted signal throughout the building.
As you might have realized, a cell phone signal booster can only amplify a signal – it cannot create one – so you will want to place the signal booster’s external antenna in an area where the signal is strong and stable. If the external signal is weak to begin with, there’s nothing much the signal booster can do. You will also have to be careful with the internal antenna’s placement. Place it behind a thick wall or a bulky piece of furniture, and you can pretty much guarantee it won’t work as advertised.

Good Bye to Landlines and Hello to Cell Phones!!

Lots of people are dropping their home phone landlines and just using their cellphones to communicate. This might seem like a great money-saving idea, but there are some drawbacks you need to think about. Our calls do drop out, text messages get stuck and never send or perhaps our Internet browsing slows to a crawl. Someone else had excellent coverage with one provider, but then switched carriers for a new plan. Only then did she find out that her new phone rarely connected inside her home. If you are going to use your cellphone as your primary phone, you really need better reliability than that.
Some buildings seem like they were designed to block your reception. It might be a particular room, a certain spot or anywhere you stand. There’s not much you can do about poor reception when using your phone at the store or work, but at home, you don’t have to put up with it.
There are plenty of ways where one can actually boost cellphone signal inside home. With a stronger signal, you can feel free to walk from one room to another while talking or be confident that your text messages will actually send.
A third-party company like zBoost or weBoost makes boosters that do work with multiple carriers. However, you’re probably going to have to pay for this out of pocket. On the lower end, these gadgets set you back about $200. Plus, if you want higher-speed 4G coverage, count on those booster price tags bumping up to $400 or more. However, 4G is mainly an advantage only if you use your phone for Internet connections. But if you have Wi-Fi at home, you can use your home Internet connection on your phone and not need the more expensive 4G booster.
Connected devices
99% of the people in today’s world have a Wi-Fi wireless network already set up at home, and hopefully you’re already using it for home Internet access on your smartphone and tablet. It’s a smart way to save money on your cellular data plan and avoid overages.
Wi-Fi can also make calls and send texts using apps like Skype, Google Hangouts, Apple’s iMessage and other third-party messaging apps like WhatsApp and TextPlus. So if you don’t have a signal, it’s no worry. However, carriers and manufacturers are now exploring seamless Wi-Fi calling.
T-Mobile, for example, has Wi-Fi calling on its latest phones (and you can activate it on some older models). When you have a poor signal, it will automatically switch over to a nearby open Wi-Fi network so you won’t even notice. Expect AT&T, Verizon and Sprint to start offering this soon.
If interested one can as well switch to a phone system like Republic Wireless that has Wi-Fi calling as a main feature. Republic Wireless offers incredibly low-cost plans because it mostly relies on Wi-Fi for calling and texting and only uses cellular when Wi-Fi isn’t available. Again, the switch is seamless.

SureCall Force 7 – Industrial

A perfect solution for larger installations such as schools, hotels and healthcare facilities, the Force7 incorporates SureCall’s patented, all-carrier cellular technology to enhance indoor cell phone signal for reliable voice, text and 4G LTE data performance . Additional benefits:
– Virtually eliminates dropped and missed calls for all North American carriers with each system providing 80,000 square feet of coverage for 100+ simultaneous users.
– Built-in Wi-Fi router that provides fast and reliable data and extends network coverage for areas up to 50,000 square feet. New installations will benefit from the incorporated 100MB router, without the need to install additional hardware.
– “Cut the cord” with cable companies – Force7’s HDTV booster brings locally aired broadcast stations into your building and along with the built-in Wi-Fi, provides dependable streaming content for on-demand streaming media such as Netflix, Amazon Prime and Hulu.
dual-force-amp-only
Force7 Booster Kit includes:

1 Force7 Signal Booster
8 Dome Antennas (SC-222W-RP-TNC)
1 75 ft. of LMR400 Cable (SC-400-RP-TNC)
2 4-Way splitter (SC-WS-4-RP-TNC)
1 2-Way splitter (SC-WS-2-RP-TNC)
26 RP-TNC Connectors
1 Lightning Protector (SC-LP)

Additional optional components needed for installation:
An outside antenna, such as the SC-230W Yagi antenna or SC-288W omni antenna
HDTV antenna, SC-305 or SC-306 and HDTV coax
Sufficient low loss 50 ohm interior/exterior cable
Cable splitter if installing multiple antennas
Grounded surge suppressor for DC power supply
Additional cable options: SC-400 LMR cable is available in 50, 75, 150, 500 & 1000 foot lengths