Sure, Sprint swill deploy LTE-Advanced in 2013, which has the capability to offer gigabit speeds on fixed networks, but Samsung is actually talking about ways we can get multi-gigabit networks on wireless. Speaking at the Texas Wireless summit, Jerry Pi, a researcher with Samsung, showed how we can use millimeter wave spectrum to deliver up to 5.5 gigabit per second wireless connections.

While, Pi declined to say how far off something like this is, Ted Rappaport, director of the Wireless Networking and Communications Group with the University of Texas and the host of the conference said he imagined this sort of technology being about 5 years out. Indeed, Pi showed ways that a test network using millimeter wave broadband could be built today. Of course, to build a fully functioning mobile broadband network, many elements have to come together–some of which are out of Samsung’s control.

For example, the airwaves have to be available in the millimeter wave band, which sits between 3 GHz and 300 GHz. Pi estimates there are 250 gigahertz of spectrum available in these bands, and some of them are already licensed for broadband services. For example, the FCC has regulated spectrum in the LMDS band for fixed wireless broadband, but a change to allow mobile wireless broadband might be easy to implement.

Once the spectrum is in place, radios can follow. There have been plenty of advancements in radio technology in some of the millimeter wave bands, that means radios can be produced cheaply using conventional semiconductor manufacturing methods and materials. But there are engineering challenges associated with building a wireless network in the higher frequencies–problems posed by water, trees and oxygen.

Because of the peculiarities of physics and working at higher frequencies building a network using higher frequencies will require news ways of engineering networks. They may alos require greater power consumption, both on the device and at the base station. At higher frequencies the spectrum tends to falter when it hits water, sometimes oxygen molecules and trees, not to mention buildings and walls. Pi says Samsung is looking at using beam-forming to deliver bits over that spectrum, and large portions of his presentation dealt with how those might be built and arrayed. Here’s an earlier version of his presentation for the truly nerdy.

However, the rewards of overcoming these challenges in a cost effective way are apparent. As the chart above illustrates, the opportunity here is to deliver multiple gigabits per second on wireless networks (see chart). Mobile broadband demand won’t abate anytime soon, so figuring out ways to deliver faster speeds on relatively unoccupied spectrum is already an imperative for the industry. Pi mentioned the gap that carriers face when it comes to delivering data, and how a lack of profitability could threaten the industry.

Pi however, took a far more practical and innovation-friendly view on the looming revenue gap for carriers, saying, “Don’t expect you can make a thousand times more money just by carrying a thousand times more traffic.” Indeed, the cellular industry doesn’t follow the same cost curve that Moore’s Law has allowed for computing, but given user demand, it may have to get closer. Millimeter broadband may help.

Related research and analysis from GigaOM Pro:
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• What the history of handset platforms can teach the future of mobile
• What Amazon’s new Kindle line means for Apple, Netflix and online media
• Millennials in the enterprise, part 2: benchmarking IT’s readiness for the new digital workforce

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Our phones are about to undergo another revolution. They have already shifted from devices designed for phone calls to computers that connect us to the web, but in the years ahead, they will also become the means people capture physical and analog data about the world around them and transfer it to the web. Today people are using smartphones as heart monitors, calorie trackers and pedometers, and as more and more people buy smartphones, the number of people trying these apps out will rise.

But to communicate with sensors on your body, in your home, in a medical setting or even with an exercise machine, your handset needs a radio (actually both devices need a radio) and that radio should be able to transmit data over short distances using a minimum of power. Several companies and technologies are vying to provide that radio technology as I detail an article at GigaOM Pro (subscription required). While I provide more information in the GigaOM Pro article, below are a few of the players and their respective PAN technologies hoping to gain a toehold in the handset.

Bluetooth Special Interest Group: Bluetooth, which is a specification for sending data over short distances is the dominant means of connecting headsets to phones. Now it’s also used in a variety of mobile-health applications such as blood pressure and glucose monitors.

Bluetooth has the advantage of already being integrated into most handsets, but its critics claim that it is a battery suck. However, a low-power version of Bluetooth (Bluetooth Low Energy) is on its way and will solve some of the battery life issues, says Mike Foley, the head of the Bluetooth SIG, in an interview. However, most devices today don’t have the Bluetooth Low Energy chips (although they contain other iterations of Bluetooth radios), so it will take a few years until those radios are in most consumers handsets.

Dynastream Innovations (ANT): Dynastream, a subsidiary of personal-navigation powerhouse Garmin, has created a low-power, short-range wireless technology called ANT. The benefit of ANT is that it consumes much less power than Bluetooth or ZigBee chips, but it’s not yet widely available in handsets. However, at this year’s CES, ANT had some wins with TI, introducing a combined Bluetooth and ANT chip, and Sony Ericsson (admittedly not a big player in the smartphone industry), who said it would deploy ANT in its handsets. Other fitness-focused devices such as the Fitbit (see disclosure) also use ANT.

Apple: Apple modified Bluetooth to make it more power-efficient to create its PAN technology, which powers the radio inside the Nike pedometer. It could also end up in other devices designed to attach to Apple gear such as iPads, iPhones and iPods. Apple notes that its proprietary radio technology operates in the 2.4 Ghz band, as does Bluetooth, Wi-Fi, ANT and other technologies. In addition to its program with Nike, Apple also has fitness machine makers embedding compatible radios and sensors inside their machines to communicate with iPhones and iPods.

However, the future for personal area networks won’t belong to one standard or one company. Most likely a variety of radios will make it on smartphones. For more on the coming battle for personal area network supremacy and the technologies and players involved, read the full analysis at GigaOM Pro.

Image Source: flickr user Faizuddin

Related content from GigaOM Pro (subscription req’d):

• Supercomputers and the Search for the Exascale Grail
• Pushing Processors Past Moore’s Law
• Thing Converged Infrastructure Means Lock In? Think Again.

GigaOMTech

Sony XDRF1HD HD Radio Tuner

• High Fidelity AM/FM/HD Radio™ Technology
• Clear, static-free radio reception
• FM multicasting with no subsciption fees
• Audio Out jack
• Full function remote control included

Experience more choices, crystal clear sound, and no subscription fees. Enjoy music the way it was meant to be heard with AM stations that can deliver FM sound quality and FM stations that sound like your favorite CDs. With static-free sound and an easy-to-read dot matrix LCD for viewing important information, the XDR-F1HD receiver is the perfect choice for adding HD radio reception to a home audio system. Includes remote control.

Rating: (out of reviews)

List Price: $ 99.95

Price: $ 78.95

Zune HD 16 GB Video MP3 Player (Black)

• IMPORTANT PRODUCT INFORMATION: To get started using Zune HD, download the latest software to your PC from zune.net/setup and charge your Zune using the supplied cable for at least 30 minutes before use
• 16 GB capacity for up to 4,000 songs, 24 hours standard definition video, or 5 hours high definition video
• 3.3-inch OLED screen with 480 x 272 resolution and 16:9 display
• HD Radio gives you access to many local stations with crystal-clear digital sound at no extra cost
• Watch supported 720p HD movies, TV shows, and videos in high definition
• Buy, stream, and update your music, download free games, and surf the web via a Wi-Fi connection
• NOTE: In order for headphones to work properly, insert jack into device port until it clicks into place

Zune HD 16GB Black MP3 PlayerZune is the premium digital experience that gives you access to the latest in entertainment and technology, allowing you to enjoy, connect, and discover content in a whole new way–the way you like it. Browse, stream, buy, and play all you want, including music, HD video, podcasts, games, and much more. Gain the freedom to enjoy your entertainment. Zune brings your content up front, so you’re always in control. Instant entertainment that you control. Click to enlarge. Browse, stream, buy, and play all you want, including music, HD video, podcasts, games, and much more. Click to enlarge. With a 3.3-inch size and vivid 16:9 display, truer and brighter entertainment is at your fingertips. Click to enlarge. Weighs just 2.6 ounces and is only 8.9 mm thick. Click to enlarge. Instant Entertainment that You Control HD Radio Technology: More Stations, better sound, no fees HD-compatible Video: High-quality video on the go or on your HDTV

Rating: (out of 533 reviews)

List Price: $ 199.99

Price: Too low to display

• Wirelessly sends music from your iPod to your car radio
• FM transmitter technology with an integrated charger
• Large, high-contrast display
• 3-stage light ring changes color to indicate charging status
• Compatible with iPod (4G, 5G), nano (1G, 2G, 3G), iPod Classic, and iPod touch

Amazon.com Product Description
The Griffin iTrip Auto FM Transmitter with SmartScan wirelessly sends music from your iPod to your car radio so you can listen on your car stereo speakers. It combines Griffin’s renowned FM transmitter technology with an integrated charger. Designed specifically for use in the car, the SmartScan function makes it easier than ever to find the perfect frequency. SmartScan scans the radio dial for the three best frequencies and saves them to the preset buttons. The high-contrast display is easy to read in any light, and the three-stage light ring changes color to indicate charging status. Compatible with iPod (4G, 5G), iPod nano (1G, 2G, 3G), iPod Classic, and iPod touch…. More >>

Griffin 4045-TRPAUTOS iTrip Auto FM Transmitter with SmartScan for iPod

(Credit: Insignia)

The price of HD Radio technology has been dwindling over the past few years, with digital-capable car stereos and clock radios priced south of $100. But Insignia’s new NS-HD01 adds two new wrinkles to the HD Radio equation. The iPod-size unit is the first truly portable (battery powered) HD Radio, and its $50 price tag makes it the most affordable HD model to date. The NS-HD01 is scheduled to hit shelves at Best Buy on June 12, but we got an early look at the unit.

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