Smartphones And Their Usage In America

Interesting Facts About Smartphone Usage In The United States

Just like in the rest of the world, smartphones are an integral part of daily life in the United States. Smartphones influence the way people communicate, research, and share information in both their personal and professional capacity. Recently, the Pew Research Center, has conducted some surveys to determine just how people in the United States are using their phones. Here are some interesting findings from their reports:

1. 77% of Americans own a cell phone

Three-quarters of adults living in the United States own a cell phone. This figure is up from just 35% in 2011. What this means is that the mobile phone has been one of the most adopted forms of technology in recent history. As expected, the younger generation is much more likely to own a cell phone, with 92% of adults aged between 18 and 29 years old owning a device. In addition, 51% of homes with young adults include three or more devices. Of the adults aged 65 and older on the other hand, only 42% own a mobile phone.

2. Diverse mobile phone usage

Most Americans use their phones for more than just calling and messaging. Common cell phone usage includes accessing emails, social networking, taking pictures or video, checking news, watching videos, playing games, navigating with maps, playing online Blackjack and listening to music or podcasts.

28% of mobile phone users in the States have used their devices to look for a job, while 9% have used their device to try and find a partner on a mobile dating app. In addition, a large percentage of users also use their phones to read e-books, while 62% of Americans have used their phone to get information about a health condition. 51% of users also report using their smartphone to shop online, while 45% have used their device to look up reviews about a purchase they want to make. In addition, 57% of smartphone users in the United States have used their device for online banking, 44% have looked for a place to live using their phone and 40% have used their phone to search for government services of information.

3.  A growing reliance on smartphones

Studies show that there has been a growing reliance on smartphones in the United States. 12% of Americans rely on their smartphone only to access the internet. This is particularly the case with lower-income families. 55% of Americans also subscribe to news alerts on their phones, while 30% have attended an educational course using their phone. 89% of American phone users also said they have used their phones in a social setting.

However, despite this growing reliance on phones, 28% of Americans do not use the safety devices on their phones, such as screen lock. Also, 14% of users say they never update their phone, while 40% say they only do updates when it is convenient for them. 46% of smartphone owners also believed that if necessary, their device is something they could live without. 

Too Many iPads & Apple Devices in a Classroom Can Cause Wifi Problems

Too Many iPads in Class Can Cause WiFi Problems

Use "Airplane Mode" to Fix The Problems When Devices Are Idle

I volunteered today in my son's 1st-grade class and noticed a big problem with the WiFi in the classroom.  There were 41 devices simultaneously connected to the WiFI network.  12 of those devices were iPads and iPods that were "sleep mode" but they were connected to the network even though they were off and in the closet.  These devices were slowing the network down so much that the PCs stopped working in the class. 

26 of the other devices were Windows-based PCs that have never previously had a problem connecting to the network until the Apple devices were introduced into the classroom.  I have also noticed this problem at home as well.  Whenever my network is running slow it always seems to improve when I put the 3 iPads and 1 iPod in my home on airplane mode.  

I think Apple needs to get smarter about managing multiple devices communicating on the same network.  The problem with changing devices into airplane mode in the classroom is that it makes the devices untraceable.   Network administrators are currently able to view devices if they are removed from the classroom by tracing which Wifi network it connects to.  If anyone else is experiencing these issues please let me know.  

Top Most Expensive Cell Phones

Cell phones are an absolute necessity nowadays and although the majority of the sets sold are branded as 'entry-level' phones, there is considerable demand for premium phones. Vertu, a division of Nokia, had a monopoly in the luxury phone market till recently but it seems that its days of reign are over as more and more companies are now manufacturing uber-luxury phones which are targeted towards the richer sections of the society. Let's have a look at some of the most expensive cell phones in the world. The following list does not follow any particular order.

1. Goldvish "Le million" ($1,000,000)

The "Le million" by Goldvish is widely regarded as the world's most expensive mobile phone. The phone features 120 carat of diamonds (VVS-1 grade) and it has been designed by eminent designer, Emmanuel Gueit. Goldvish is a Geneva based company and it has many other diamond-encrusted models which are a bit reasonably priced than this one.

2. Vertu Signature Cobra ($310,000)

This is a limited edition phone and only 8 pieces are available in the market worldwide. It features a pear-cut diamond, a white diamond which is round in shape and more than 400 rubies. There is also a cheaper version of this phone available which does not have any rubies encrusted on it. It is being offered at an attractive price of $115,000.

3. Goldstriker iPhone 3GS Supreme ($320,000)

In 2009 this phone, designed by Stuart Hughes, was declared as the world's most expensive phone. The phone is made from 271gm of pure gold and there are more than 200 diamonds on the cell phone. There is an Apple logo on the back of the phone which has a large number of gems. The home button is made from a single piece of diamond (7.1 carats). This is easily one of the most beautiful looking luxury phones available in the market today.

4. Diamond Crypto Smartphone ($130,000)

This beautiful looking phone has been designed by peter Aloisson, a luxury accessories designer. The phone has been encased in a platinum base and it has more than 50 diamonds. The USP of this phone is that there are as many 8 rare blue diamonds. Even the navigation key of this phone has been encrusted in 18Carat rose gold. It is very interesting note that this cell phone, originally worked on Windows CE.

4. VIPN Black Diamond Smartphone ($300,000)

The body of this cell phone has been made from polycarbonate and it features a cutting edge mirror that has been adorned with diamonds. The cell phone has a 400 MHz processor, a 4MP camera and a 256 TFT screen.

5. Vertu Diamond ($88,000)

The Diamond is part of the many high-range premium mobile phones by Vertu. The handsets are made from platinum and they are fully diamond encrusted. Only 200 such handsets are available in the market today and the most expensive one is priced more than $90,000.

6. Motorola V220 Special Edition ($51,800)

This special edition Motorola phone is studded with 1,200 diamonds and the keyboard is made from 18 carat gold. The phone is priced at $51,800. Media reports suggest that this phone has caught the fancy of football stars and film stars but the general rich class has stayed away from this model. The price that some of these phones command is a gentle reminder to us that all of them are beyond our reach but it is surprising to know that people are actually eager to pay such amounts for a cell phone!

About The Author: Kelly is a writer. She loves writing, travelling and playing. These days she is working on technology used in cell phones.

Does MagicJack Work?

Our Review of the Walt Mossberg Review of Magic Jack (DCZ)

By Walt Mossberg When I see a high-tech product (DCZ: with good PR people who get it to you first) that's advertised mainly via frequent hard-sell TV ads as if it were a diet pill, I tend to assume it can't be very good (DCZ: your late to the game if 4M people have purchased?), especially if its price is absurdly low. So, I haven't paid much attention to a product called magicJack, a small $40 adapter for your computer that claims to let you make unlimited domestic phone calls over the Internet with your home telephone free for a whole year—and for just $20 a year thereafter. (DCZ:  because it wasn't originally sold through mainstream retail and was hated by the big carriers?)

But after receiving reader requests to review magicJack (DCZ: Why?), I decided to do so. To my surprise, it worked pretty much as advertised. It has a few drawbacks, and extra fees for added services, such as vanity phone numbers. But I found magicJack easy to set up and easy to use, and it yielded decent, if not pristine, call quality. I even tested customer support—a source of complaints online—and found it friendly, fast, and responsive.

Magic Jack is a new device and service that allows you to make cheap phone calls through your computer. Overall, the product works as advertised, Walt Mossberg found. MagicJack looks like an oversized USB flash drive. On one end is a standard USB connector for the PC; on the other is a standard phone jack to plug in a phone. It's compatible with PCs running Windows XP, Vista, and Windows 7, as well as with all Intel-based Macs. It works with both corded and cordless phones, and comes with software for dialing, though you can also dial directly from a connected phone.

The low annual fee covers calls to and from any phone on any telephone network—landline or cellphone—not just phones connected to computers or to other magicJack. The only restriction is that the numbers called must be in the U.S., Canada, Puerto Rico, or the U.S. Virgin Islands. You can also buy low-cost prepaid international minutes, or take your magicJack abroad to make free calls home. You can move it among different computers and locations.

MagicJack can also be used without a phone handset, via a computer headset or the computer's built-in microphone and speakers.  There's nothing new about Internet (DCZ: VoIP) phone calls. Companies like Vonage and Skype have been doing it for years. But magicJack is different. It emphasizes calling to and from phones on regular wired and wireless phone networks, and its prices for calls to and from such non-Internet-connected phones are much lower.  (DCZ: MagicJack is 2X larger than Vonage with 2M customers and would be curious to see what the service quality performance record is compared to Skype)

For instance, the lowest plan advertised on Vonage's Web site for calling regular phones in the U.S., Canada, and Puerto Rico is $17.99 a month, or about $216 a year, versus magicJack's $20. And Vonage gives you only 500 minutes a month, while magicJack sets no limit. Skype charges per minute or monthly fees for calls to regular phones and an added fee to receive incoming calls.  (DCZ: What about Google Voice?)

The maker of magicJack says its low prices are possible because the product is produced by a privately held Florida company called YMAX, which is also a phone carrier (DCZ:  also known as a CLEC). The company also runs ads inside its software. You can buy the device at a wide variety of stores, even drugstores and convenience stores. (DCZ: Do you think they might actually make more money off of location-based advertising eventually?)

I tested magicJack on both a PC and a Mac. The software resides inside the magicJack itself and installs each time you connect it.  In my tests, I made and received calls on both computers, using a single landline phone and using a cordless-phone system in my house after plugging its base station into the magicJack. In the latter case, I could make and receive calls from cordless phones all over my house. I exchanged calls with both landline phones and cellphones from the magicJack.  The call quality was good, except for a few times when the connection got scratchy for a second or two. Most of the people I called said they couldn't tell I wasn't on a regular call. The system offers voice mail, call forwarding, and conference calls, and you can save contacts.  A couple of times I didn't get an immediate dial tone and had to hang up and try again.

The biggest downside of the magicJack compared with regular phone service is that you have to be running an Internet-connected computer, with a magicJack installed anytime you want to make or receive calls.  (DCZ:  It also works with WiFi?) Also, as with all Internet phone systems, you have to register your address with 911 emergency systems.   With magicJack, you get a new phone number. The company says it is working on allowing you to port your existing landline number. You can keep your landline number for use on some phones or when you're not using magicJack.

I found magicJack worked better on Windows than on the Mac. (DCZ:  Not a shocker) At one point, magicJack customer support had to send me software to patch the Mac version. But the company claims it is fixing that with a new Mac version coming soon.

YMAX also says it plans to roll out this year a Skype-like service that won't require any magicJack hardware, just a PC or an iPhone. It also plans a new version of magicJack to turn cellphones into wireless magicJack handsets. (DCZ:  This is going to be called the Femto Jack)

I don't know if those diet pills in the TV ads work. (DCZ:  Direct response marketing works) But magicJack does.

Microsoft Windows 7 Phone User Interface Review

Microsoft might finally have a phone that will appeal to consumers as well as enterprise IT departments.  The phone actually feels less "geeky" than previous Windows Mobile operating system versions. Windows 7 is using a new user interface that uses a "glance and goes" technique for navigating on the phone.  The home screen uses a system called "live tiles" which essentially are mini windows within the same home screen.  So without having to navigate into individual apps it shows the data or the action within one screen to save steps.  This could be useful if you are using lots of apps like email, phone, IM, Facebook & Twitter.  Apparently, the smooth scrolling and navigation are the best features of the new phone.

I think conceptually it makes a lot of sense.  However, I am not thrilled with the text formats and the edges of the apps.  I personally prefer rounded edges and think the devil is in the details with this issue.  I suppose if you are still a heavy Microsoft Windows user within an enterprise you will not likely notice the difference.  One thing that confuses me is who is their target market?  Blackberry users I presume who is tied to the enterprise.  I really don't see any Android or iPhone users converting to the new Microsoft Windows 7 platform.  Android phone notifications are still by far the best and feel better.

Below is a lengthy 20-minute review provide by Slashgear for your viewing pleasure.

As always please submit your comments and reviews on the product below. We are particularly interested in the cell phone reception and the network quality switching between

What is Wireless Net Neutrality?

Imagine for a minute if highway toll roads only allowed certain makes of cars to use the road. If you didn’t have one of those approved vehicles to use the toll road, then you couldn’t use it. All toll roads are built with either special government funds or, in some cases, private funds authorized by the respective state government. But, in all cases, toll roads are built so that any car or truck can use them. They are not free: the charge is typically based on the amount of toll road resources that are used: 1) higher costs for larger vehicles (typically number of axles) and 2) higher costs for distance driven (typically set as a cost per mile).

Now, jump over to the world of mobile and wireless. We have a very different environment. Private companies have built wireless networks to operate on the spectrum that they have licensed from the FCC. Handset manufacturers have built phones that can operate on the wireless network’s spectrum. There are two kinds of technology used in the U.S.: 1) GSM, the same technology that is used in Europe and many other areas in the world (but at a different frequency) and 2) CDMA, which is implemented on fewer wireless operators in the U.S. including Sprint and Verizon Wireless.

The wireless operators – in order to protect and keep their networks separate from their competitors – require handsets to be developed only for their networks. This is ‘hard and fast’ for CDMA networks that require customers to activate their phone through Customer Service. GSM networks (AT&T and T-Mobile) use SIM cards that can be inserted into any GSM-compatible phone and run on any network (same as in Europe), although the toll charges may be different on each network.

The recent 700 MHz auction was an attempt by the FCC to make wireless networks more open so that they would operate more like a vehicle toll road: you could take any handset that is certified to run (like a car certified to meet all transportation requirements) and run it on any network of your choice. That would include taking a device built to run on AT&T (say an iPhone) and simply deciding to switch over and use Verizon Wireless. That would be interesting. Users would have more choice to take their phone and operate it on whatever network they wished either because of pricing advantage, service reasons, or any other reason.

The new 700 MHz open networks won’t happen for a while, but when they do, it will be a big experiment to see how handset manufacturers, wireless operators and users deal with their new found freedom. We’d like to have subscribers in the U.S. have at least as much freedom as those in Europe and other areas of the world: They can run their phone anywhere – on any network that’s built and made available.

When this happens, then handset manufacturers can build phones and sell them anywhere, not just through the wireless operator or the operator’s authorized retailer but, literally, anywhere – out of the back of a van, in a convenience store, or in places like Target. Operators would have to provide better services in order to attract subscribers. One might offer a faster network for lower cost, or another might drop far fewer calls, while still others might simply focus on basic services at the lowest cost possible.

What about applications? They should operate in the same manner. Developers should be able to build an application for, say, the iPhone, and get to publish it in the Apps Store without approval from Apple as long as it can be certified to run on the AT&T network and doesn’t crash or disrupt other applications on the iPhone or iPad. That would make applications really open.

Some applications, like those for adults, might have to require authentication that the subscriber is an adult (biometrics could do this) and operate out of a separate gated community. So, each platform such as iOS, BlackBerry, Android, Windows Phone, HP/Palm webOS and Symbian would provide an open environment for all applications -- not just those they like or judge to be ‘appropriate.’

In a dream world, it would also be nice if developers could write their application for one platform (say, Apple iOS) and easily migrate the application to another platform (say, BlackBerry). But, the platforms all typically have different APIs, toolkit libraries, and development editors that makes it impossible to have a ‘write once, run anywhere’ environment. (This was the idea behind Java but it didn’t work out as planned). Plus, you have different screens produced on different handsets that require customization as well.

And then there’s one more area of open to deal with: Can developers migrate outside their application store environment to build different applications that might serve different purposes -- such as manage the wireless connection in a more secure way? Or, another unapproved application might let users sync their music and video clips with their computer over Wi-Fi without using a cable. This process is often called ‘jailbreaking’ since the developer is moving outside the platform’s ‘walled garden’ to do something that is outside the boundaries of traditional applications. On July 26, the Library of Congress (which controls the U.S. Copyright Office) ruled that it is perfectly OK for developers to bypass the phone’s controls over what software will run. The ruling seems focused at Apple but the same case can be made for other platforms as well. Jailbreaking is more prevalent on platforms where there’s a tight ‘walled garden’ but doesn’t exist in other more open environments, especially when the source code for the platform is available to all (like Android).

While this column may appear to focus on Apple and it’s a relatively closed environment, the message about being open is the same for all SmartPhone platforms, for all wireless operators, and for all device manufacturers: Build products that conform to basic operating requirements set by the government but then let users choose what phone they want, what network on which they want to operate that phone, and then choose any application they want to run in that environment.

Simple and easy to declare. Much harder to actually implement. It seems so right and natural. If enough users demand it, then hopefully economic forces with government oversight will enable it.

Guest Article Written by J. Gerry Purdy, Ph.D. from Inside Mobile

Weak Home Cell Phone Signals

1. Rural areas

In many rural areas, the housing density is too low to make the construction of a new base station commercially viable. In these cases it is unlikely that the service provider will do anything to improve reception, due to the high cost of erecting a new tower. As a result, the only way to obtain strong cell phone signal in these areas is usually to install a home cellular repeater. In flat rural areas the signal is unlikely to suffer from multipath interference, so will just be heavily attenuated by the distance. In these cases the installation of a cellular repeater will generally massively increase signal strength just due to the amplifier, even a great distance from the broadcast towers.

2. Building construction material

Some construction materials very rapidly attenuate cell phone signal strength. Older buildings, such as churches, which use lead in their roofing material will very effectively block any signal. Any building which has a significant thickness of concrete or amount of metal used in its production will attenuate the signal. Concrete floors are often poured onto a metal pan which completely blocks most radio signals. Some solid foam insulation and some fiberglass insulation used in roofs or exterior walls has foil backing, which can reduce transmittance. Energy-efficient windows and metal window screens are also very effective at blocking radio signals. Some materials have peaks in their absorption spectra which massively decrease signal strength.

3. Building size

Large buildings, such as warehouses, hospitals and factories, often have no cellular reception further than a few meters from the outside wall. Low signal strength is also often the case in underground areas such as basements and in shops and restaurants located towards the centre of shopping malls. This is caused by both the fact that the signal is attenuated heavily as it enters the building and the interference as the signal is reflected by the objects inside the building. For this reason in these cases an external antenna is usually desirable.

4. Multipath interference

Even in urban areas which usually have strong cellular signals throughout, there are often dead zones caused by destructive interference of waves which have taken different paths (caused by the signal bouncing off buildings etc.). These usually have an area of a few blocks and will usually only affect one of the two frequency ranges used by cell phones. This is because the different wavelengths of the different frequencies interfere destructively at different points. Directional antennas are very helpful at overcoming this since they can be placed at points of constructive interference and aligned so as not to receive the destructive signal.

5. Diffraction and general attenuation

The longer wavelengths have the advantage of being able to diffract to a greater degree so are less reliant on line of sight to obtain a good signal, but still attenuate significantly. Because the frequencies which cell phones use are too high to reflect off the ionosphere as shortwave radio waves do, cell phone waves cannot travel via the ionosphere.