Tuesday, September 17, 2013

New Bluetooth Smart Wallet Thwarts Thieves



Did you know 43% of most known cases of identity theft occur through stolen wallets and not hackers? That’s what the makers of the Ping wallet are banking on. Ping is a super slim aluminum Bluetooth® Smart wallet. When you take your cards out or forget to put them back in, it emits a sound. If you lose your Ping or it goes out of range of your smartphone, your smartphone emits a sound to either help you find it or alert you it is missing. If your smartphone goes out of proximity, the Ping wallet emits a sound as well. The wallet is a current Kickstarter project with a few more dollars to go by the deadline. This option for a Saturday night might be a good bet if you decide to have too much fun out on the town, at least you can keep track of your money and identity.

A Hard Bluetooth Pill to Swallow



Tracking patient medication is a tough thing to do. We’ve seen the movie with the mental patient hiding his medication in his cheek. Proteus Digital Health developed a bill that texts an alert when it reaches the stomach. The pharmacist adds the pills to a specially prepared tray housing all the patient’s medication. When the patient downs the sensor, caregivers assume the patient took all the medication.
Once the sensor reaches the stomach it powers up using electrolytes. It transmits a signal via Bluetooth® technology and a special patch worn on the torso to a smartphone or secure patient database. We’ve seen any different use cases of Bluetooth Smart in the medical industry recently. This is just another example of how Bluetooth Smart helps monitor patient health and helps doctors provide a more holistic diagnosis.

It’s 15-Love for New Bluetooth Tennis Racquet



Babolat introduced the world’s first Bluetooth® enabled tennis racquet, the Babolat Play Pure Drive. Like any other sport, it’s important to be able to gather athlete information to improve performance. The Babolat Play collects data like shot power, ball impact location, number of strokes (forehand, backhand, serve and smash), spin level, total and effective play time, endurance, technique, consistency, energy and rallies. After collecting all the data, the Bluetooth Smart connection sends the information to a smart device. Players can then evaluate performance or share the information through a dedicated platform.

Track Environmental Radiation Exposure with Bluetooth Sensor



I was just thinking to myself the other day I should really be continuously monitoring my background radiation. Enter DO-RA, the dosimeter-radiometer that continuously monitors background radiation. The Bluetooth® enabled sensor attaches to your smartphone and measures the amount of radiation received by the owner, gives off a warning if the radiation dosage is too high and transfers the collected data to any electronic device.
Intersoft Eurasia developed the appcessory in response to the Fukushima Daiichi nuclear disaster in Japan. The sensor takes measurements every four seconds and measures exposure over time to forecast annual exposure. The company is designing a concept watch to take the place of the smartphone and is looking into building a sensor directly into the phone.

Half of Bluetooth enabled devices shipped in 2013 will be Smart ready

Bluetooth Smart node devices accounted for less than 10% of total Bluetooth 4.0 devices shipped in 2012. However, as device vendors have embraced the technology a wider ecosystem of vendors have gained confidence in 4.0 and it is emerging as the key wireless technology in a whole range of devices from heart rate monitors to door locks. Apple has been a key adopter and driver of Bluetooth 4.0 and vital in driving the initial growth; with the recent addition of native 4.0 support in Android a whole new slew of device manufacturers will now embrace 4.0, according to ABI Research.
"The second stage in the growth cycle for Bluetooth v4.0 is driven by its use in wireless sensors and other node devices," said Peter Cooney, practice director at ABI Research. "We have already seen swift adoption of Bluetooth 4.0 in the sports and fitness market, home automation applications are on the rise and no doubt the wearables sector, including smartwatches, will also drive this market forward."
The total Bluetooth enabled device market is expected to go beyond four billion devices shipped annually in 2017 and as the market expands it is increasingly being driven by devices that are 4.0 enabled. It is clear that the development of ultra-low power Bluetooth has, and will continue, to keep Bluetooth as a relevant technology in the burgeoning Internet of Everything market

Why Bluetooth use is on the rise




Bluetooth has been with us for around 15 years. Named after Denmark’s King Harald "Bluetooth" Blatand, who reigned in the 10th Century AD, it is a technology that everyone is aware of on their computers and phones, yet not many people choose to use. As a means of allowing devices to talk to each other cheaply and wirelessly over short distances, it has tended to stay largely in the shadows, leaving the limelight to the technologies it connects.

Now however, with the rapid growth in the use of mobile and sensing technologies, along with the release of an updated version of the system, means the list of its applications is growing steadily. From health and agriculture, to business and electioneering, it is quietly playing an ever more central role in many of our lives.
“It’s a very flexible, low power, and predictable technology,” says Professor Roch Guerin, Chair of Computer Science and Engineering at Washington University, St. Louis. “Bluetooth targets lower transmission ranges and data rates than wi-fi, and as a result has lower cost and lower power consumption.”
These costs have dropped further, in some cases significantly, thanks to recent advances. Bluetooth Smart, launched in 2011, includes a smarter power management system that allows it to turn on, transmit data and shut down more quickly – in just a few milliseconds in some cases. Depending on the devices being connected and the data being transmitted, this updated system consumes anywhere between half and 1/100th of the power of the previous version. As a result, machines using Bluetooth that previously ran for a few months on a coin cell battery, can now run for years.
“Bluetooth classic is for sending steady streams of voice and audio,” says Suke Jawanda, Chief Marketing Officer of the Bluetooth Special Interest Group (SIG), which owns and licenses Bluetooth technology. “Bluetooth Smart is about sending packets of bits and data to applications.”
Life changing
Healthcare is frequently cited as one area that hasn’t witnessed the radical transformations underway elsewhere as a result of the ongoing digital mobile revolution. The growth of novel personal medical sensing technologies, many of which use Bluetooth, could soon change this. Earlier this year, a Silicon Valley-based start-up called Scanadu sought to raise $100,000 on the crowd-funding site IndieGoGo. In fact donors pledged over $1.6 million, making it the most funded project in the site’s history. The product description may have helped: the Scanadu Scout is perhaps best described as something approaching a real version of the medical tricorder wielded by Star Trek doctor Leonard “Bones” McCoy.
Placing the cookie-sized device to your forehead for 10 seconds provides stats on your heart rate, blood pressure, core body and skin temperature, respiratory rate, blood oxygen levels, blood pressure and emotional stress levels. This data is transmitted via Bluetooth to users’ phones or tablets.
"With recent advances in technology such as Bluetooth, we are now able to build medical devices that weren't possible just a decade ago…. at an affordable price [using] existing infrastructure of smart phone telecoms” says Scanadu’s CEO Walter de Brouwer. “For people who live far from hospitals, in places like Africa, this could be life changing.”
On the other side of the Atlantic, a group of researchers at the Ecole Polytechnique Federale de Lausanne, Switzerland, is working on BlueCell, a half inch-long device that, once embedded under the skin monitors substances in the blood such as glucose and cholesterol so that chronic diseases like diabetes or the effects of treatments such as chemotherapy can be monitored. The raw medical data, which is sent wirelessly via Bluetooth to an Android app, can be forwarded automatically to doctors. BlueCell is still a few years from commercialisation.
“We chose Bluetooth because of its wide distribution in consumer devices,” says Jacopo Olivo, one of the researchers. “It’s an interesting way that Bluetooth can interact with the biotech industry.”
Other personal health sensors that use Bluetooth include the Cardiopad, an electrocardiography (ECG) machine developed to monitor heart activity in patients in remote areas of Cameroon, and Monobaby, a device being developed to prevent Sudden Infant Death Syndrome, also known as cot death, using an accelerometer attached to baby clothing.
Growing signal
Bluetooth can improve health prospects beyond humans too. Flower Power, a device due to be launched towards the end of this year by Paris-based wireless tech company Parrot, measures sunlight, soil moisture, temperature and nutrient levels in plants, and sends that information directly to an iPad app via Bluetooth.
By cross-checking this data against a database, the app provides information about the health of plants, when and how much to water them, and whether they should be moved to change sunlight levels.
Flower Power and related technologies could be vital in developing countries with dry climates. Sensors could be linked via Bluetooth to sprinkler systems to automatically optimise moisture levels. The ability to use just the right amounts of water and fertiliser to produce a good harvest without wasting resources can improve crop yields and rural incomes.
Bluetooth is also being used to help those in agriculture in other ways. Kenyan mobile tech company Virtual City has developed AgriManagr, an app designed to speed up and automate the flow of information and reduce costs for farming businesses. Small, rural tea farmers in Kenya, for example, complain that unscrupulous buyers routinely under-weigh their produce by 10-20%. Using AgriManagr, electronic scales are used to transmit the weight of produce via Bluetooth to a mobile phone which records this in farmers’ accounts on a cloud-based server. Hard copy receipts are also printed out.
“When [payments] used to be a paper-based system, farmers would get conned on the weight,” says Virtual City chief executive John Waibochi. “Buyers would tamper with the weight scale.” Going digital and printing receipts “cuts out fraud… and increases the value to farmers 9-13%,” he adds.
This system could of course be done without Bluetooth, but being wireless makes it easier. “Out in the rural areas, cables would not survive,” claims Waibochi. “And I need my devices to go to sleep immediately after they are used. With Bluetooth, our devices do that, and can work for 12 hours without electricity.”
Bluetooth can also provide new ways of communicating in rural settings where internet access is unavailable or out of reach for the poor. Gary Marsden, a computer scientist at the University of Cape Town, developed Big Board, an electronic notice board that disseminates information wirelessly and for free.
The system displays a series of icons representing information on various topics on a screen. Users take a picture of an icon they are interested in with their phone and send it via Bluetooth to a nearby device which sends them the information they want. Files can be pictures, text, video or audio. Potential applications include distributing information on health, job offers or entertainment.
In a pilot project Big Board was used to inform voters about the manifestos of politicians standing in the 2007 Kenyan presidential election. People could take a photo of a candidate and receive an MP3 of that person speaking. Marsden is currently working with NGOs and government agencies to develop new applications.
He also developed Com-Me, a collection of hardware and software components to help people with limited access to electricity and the internet create and share content. This includes a solar-powered phone charging station and a Bluetooth-based local version of Dropbox, designed to allow off-grid communities to share and store information in a variety of formats.
Bluetooth Smart, like its older sibling, may be a relatively straightforward radio wave-based transmission technology. But as we devise more and more ways to benefit from ever greater connectivity between the people, other living organisms, objects and our environments, it seems to be getting smarter by the day.

Friday, January 18, 2013

Bluetooth Enables Retro Designs at 2013 CES


you will see companies bucking the modernistic trend and opting for retro styling. Bluetooth Special Interest Group (SIG) member companies are no exception.
Let’s head back in time and take a look at the 1950’s jukebox—a staple in soda fountains and restaurants. Bringing back that loving feeling is ION Audio with the introduction of the Jukebox Dock and Retro Rocker. These tabletop, vintage-looking versions of the jukebox take it to the next level with Bluetooth® technology. Start a sock hop anywhere by wirelessly streaming music from any Bluetooth enabled device.

The iBT44 from SDI iHome hearkens back to a simpler time when Biz Markie, Doug E Fresh & Slik Rick and Beastie Boys boomed loudly in city parks and on street corners. The iBT44 looks just like an 80’s boombox. Do you know what makes it better? Bluetooth technology, of course. Everything is better with Bluetooth. The iBT44 streams music wirelessly from any compatible Bluetooth technology enabled device.

Tivoli Audio introduced the PAL® BT. The PAL BT is a portable radio that adds Bluetooth technology’s advanced A2DP profile to achieve high-quality audio. When you are not listening to your favorite radio stations, you can listen to your favorite music from any Bluetooth enabled device. Just switch to auxiliary to pair them up. It all comes wrapped up in Tivoli’s sleek and retro design.
Geneva transformed the classic travel flip case alarm clock into a full-fledged sound system. The Geneva Sound System Model XS features an integrated digital FM tuner and stereo Bluetooth technology playback all in a compact case that folds up and fits in a briefcase. Music streams wirelessly to the Model XS from any Bluetooth enabled device, such as iPad, iPhone and other smartphones and tablets. Oh, and it’s still a clock.

The final item in this retro rollup is the POP Bluetooth®. Inspired by the 1950’s Bakelite phone, the POP Bluetooth uses Bluetooth technology instead of a headphone jack to connect to your device. This keeps the neck strain to a minimum and allows you to navigate while talking with reduced background noise for a clearer conversation.

Friday, January 11, 2013

Bluetooth With Infared


The system that comprises
computers and other electronics makes use of varieties
of wires, cables, etc. 

These parts will communicate through light beams,
lasers, radio signals, and infrared.  The problem
however, is the devices and technology is often the
connection between each component.  Therefore, most
electronic systems aren't used to their full extent
due to the problems and imperfections.

To help simplify things, a solution was created -
the solution of Bluetooth.  Bluetooth is wireless
and automatic, offering users a variety of features
that have simplified the art of connection.  Bluetooth
has revolutionized the standard methods of connecting
things to enabling almost anything to be connected
to a single system.

Aside from Bluetooth, there are other ways of
connecting wireless devices.  One example of such
is the IR or infrared.  Infrared allows low frequency
light waves to transmit signals to another component.
This technology is easy to create and the cost of
putting the IR device into a system is rather low.

Infrared technology is a one to one process.  Due
to the limitation, you may only send signals from one
device to another, similar to a television set and
remote control.  You can only transmit signals
between the two although not with a seperate system.

Aside from the fact that these two natures of
infrared are obstacles to acquiring results, these
same qualities have worked in advantage to the
connection.  Infrared devices need to be lined up
directly, meaning too little interference can occur
between the transmitters and receivers.

The technology behind Bluetooth works by transmitting
signals through low frequency radio signals.  The
path of communication is working on 2.45 GHz, which
is the same frequency band used in ISM devices.

Bluetooth With Apple


Apple powerbook G4 are among the first
computers to offer Bluetooth technology 2.0+EDR.
The 2.0+EDR technology, which still backwards
compatible with 1.0, is up to three times faster
than previous versions, offering maximum data rate
transfers of up to 3 MBps.  Being the first company
to certify a system with 2.0+EDR, Apple continues
to make great use of the Bluetooth technology.

Full support
In addition to the powerbook G4 portables, there
are other Bluetooth enabled computers available
from Apple, including the iBook, iMac G5, eMac,
and the Power Mac G5. 

Making life easier
When you turn the Bluetooth feature on, your Mac
can easily perform a file transfer or even a
synchronization.  From the Bluetooth selection
menu, you can choose to either send a file or
browse devices, quickly and easily.  Or, you can
click the sync button in iSync to update your
cell phone or Palm OS handheld. 

The Mac and GSM/GPRS mobile phone with Bluetooth
work to make each other more useful.  By using
iSync, you can keep your phone updated without
having to type any info, as you can keep the
information in the more manageable address book
on your Mac instead. 

You can also use your Bluetooth enabled Mac to
print documents and digital images to select a
printer that also supports the technology of
Bluetooth.  Or, you can also use a headset to
talk to your friends during an iChat session.

Your Mac also has the ability to use Bluetooth
technology to communicate with your Palm OS
handheld.  This way, you can perform a HotSync
operation without using any cables.  You can also
send your business card or calendar events directly
to someone else's handheld usingthe technology of
Bluetooth. 

The implementation of Bluetooth by Apple is the
latest in a series of moves that have caused
great shift in the computer industry.  Apple
established USB as the standard interface with
the launching of the first Mac back in 1998.

Since then, Apple established the 802.11 wireless
standard of networking with the launch of the
iBook and AirPort in 1999.  During 2003, Apple
launched AirPort Extreme, which was based on
the new 802.11g high speed technology of wireless.

Now, Bluetooth helps to further strengthen the
dominant position of the Mac in wireless
communications, helping to preserve Apple's
reputation for being the first to market with
innovative technology that integrates right into
the operating system.

Thursday, January 10, 2013

Bluetooth Applications

Bluetooth being very popular with wireless, it's
no wonder there are many applications available for
the technology.  Below, you'll find the applications
for Bluetooth.

1.  Wireless networking between laptops and desktop
computers, or desktops that are in a confined space
and little bandwidth is needed.

2.  Peripherals such as mice, keyboards, and printers.

3.  Cell phones with Bluetooth technology have been
sold in large numbers, as they are able to connect to
computers, PDAs (Personal Data Assistant), and various
other devices.  The standard also includes the
support for more powerful and longer range devices.

4.  The transfer of files, images and MP3, between
mobile phones.

5.  Certain MP3 players and digital cameras to
transfer files to and from computers.

6.  Bluetooth technology headsets for smart phones
and cell phones.

7.  Data logging equipment that transmits data to
a computer via Bluetooth technology.

8.  Sony Playstation 3 and Nintendo Revolution will
both use Bluetooth technology for their wireless
controllers. 

For Bluetooth, there are literally hundreds of
different applications and devices available for you
to use or purchase.  As you may already know,
Bluetooth is the most popular wireless technology
in the world.  It's very reliable, very dependable,
and very hard to crack into.

There are many other applications for Bluetooth in
development now, many of which plan to take the
wireless age to the next level.  Video game systems
are using Bluetooth technology as well, for their
wireless controllers.  This is great news for gaming
fans, as Bluetooth offers the best in wireless
data transmission.

If your curious about applications for Bluetooth
that are still in development, you can search on
the internet.  You can find all sorts of information,
especially when it comes to Bluetooth.  As the
future arrives, you can expect Bluetooth to bring
bigger and better things.

Bluetooth Basics


The key features offered by Bluetooth include
low power and low cost.  The specification in
Bluetooth defines a uniform structure for a wide
range of devices to communicate and connect with
one another.

The technology behind Bluetooth has achieved
global satisfaction such as enabled devices, almost
everywhere in the world.  Bluetooth devices will
connect and communicate without wires through
short range and networks known as piconets.

Each device will simultaneously communicate with
up to seven other devices within a single piconet,
meaning that each device can also belong to
several piconets simultaneously.  The piconets
are dynamically established as Bluetooth enabled
devices enter and leave the proximity of radio.

A fundamental to Bluetooth strength is the
ability to handle both data and voice transmissions
simultaneously.  This will enable users to enjoy
varieties of innovative solutions such as hands
free talking, printing and fax capabilities,
and other applications.

Specifications
Unlike other standards of wireless, the Bluetooth
specification gives product developers both a
link layer and application layer definitions,
which will help support data and voice applications.

Spectrum
The Bluetooth technology operates in the industrial
and scientific band at 2.4 to 2.485 GHz, using a
spread spectrum, frequency hopping signal. 

Interference
The adaptive frequency hopping of Bluetooth
technology was designed to reduce interference
between wireless technologies that share the 2.4
GHz spectrum.  Adaptive frequency hopping (AFH)
works well within the spectrum to take full
advantage of the frequency available.

AFH hopping allows for more efficient transmission
within the spectrum, which provides users with
greater performance even if they are using other
technologies along with Bluetooth. 

Sunday, January 6, 2013

Bluetooth In Action

Now, Bluetooth is facing stiff competition from
new wireless technology.  Referred to as UWB or
Ultra Wideband, it promises data transfer of up
to 480 MB a second - while most current Bluetooth
devices transfer data up to 721 KB a second.

For the time being, Bluetooth devices are surely
cropping up.  Below, we will look at some of
the accessories offered with Bluetooth technology.

Talking to the dashboard
When pairing it with a cell phone, the CCM Blue
Warrior car kit becomes a great speaker phone that
plugs into the power adapter of your vehicle.  The
noise cancelling microphone will reduce background
noise efficiently, with the large buttons making
adjusting the speaker volume a snap.  Although
the Blue Warrior is far from sexy or sleek, it's
very practical.

Tiny tuning box
Part MP3 player and part hands free phone, the
compact and lightweight Sony HBM-30 is an attractive
gadget that lets you accept calls with minimal
interruption of your tunes.  When you get an incoming
call it will automatically pause your music, then
you speak into the built in microphone that you
can wear around your neck or clip to your clothes.

The pen
With Nokia's SU-1B digital pen, you can doodle and
make hand written notes in ink on a special pad
then transmit them from the pad to your Bluetooth
phone.  Being an alternative to typing on a cell
phone keypad, the pen is very handy, although a
pricey tool from MMS fans.

Snapshots
If you want to make slide shows with your camera
photos, the Nokia SU-2 image viewer will let you
disply your pictures on a TV or projector.  Simply
hook this square gray device to your TV's input
with the built in cable, then beam the pictures
to the SU-2 from your Bluetooth enabled phone and
the photo fest will begin.

This device is a snap to set up and use, although
it displays resolutions of up to 640 by 480.  If
you have a newer phone that takes high resolution
photos, you won't be able to use the Nokia SU-2
image viewer. 

Keep in mind, the 640 by 480 pixel photos will
appear blocky on TV screens, no matter what you
do.  If your phone can send batches of photos, you
can create a slide show - although Nokia claims
you can use sequentially beamed shots as well.

Bluetooth Operation

Many devices that you already known and use take
advantage of this frequency band.  Garage door
openers, baby monitors, and the next generation of
mobile phones all use this frequency within the ISM
band.  Ensuring that Bluetooth and the other
devices don't interfere with each other is a crucial
part of the design process.

One of the ways Bluetooth will avoid interfering
with other electronic devices is by sending out
weak signals of around 1 mw.  In comparison, even
the most powerful of cell phones can transmit a
signal of 3 watts. 

The low power signals will limit the range of a
Bluetooth device to around 32 feet, which cut the
chances of interference between your computer and
other electronic devices.  Even though it has low
power, Bluetooth doesn't require a line of sight
between the communicating devices.  The walls in
your home won't stop the signal, making it great
for rooms throughout the house.

Bluetooth can connect 8 devices at the same time.
With each of those devices on the same radius,
you may think they would interfere with each
other, although it's very unlikely.  Bluetooth
utilizes a technique known as low frequency
hopping, which makes it harder for more than
one device to transmit on the same frequency
at the same time.

With this technique, a device will use 79
individual, randomly chosen frequencies within
a designated range, which change from one another
on a regular basis. 

In the case of Bluetooth, the transmitters will
change frequency 1,600 times or more every
second, meaning that more devices can make full
use of the radio spectrum.  Since every
transmitter of Bluetooth will use spread spectrum
automatically, it's very unlikely that two
transmitters will be on the same frequency at the
exact same time.

When the Bluetooth devices come within close range
of each other, an electronic conversation will
occur to determine whether or not they have
data to share or whether one needs to take total
control.  The user doesn't have any buttons to
press or commands to give - as the conversation
will occur automatically.

Once the conversation has occured, the devices
will form a network.  Bluetooth devices will
create a PAN (Personal Area Network) or piconet
that may fill a room.  Once the piconet has been
established, the devices will randomly hop in
frequencies.

Bluetooth Profiles

The profile will also define the parameter ranges
for each protocol.  The concept of the profile is
used to decrease the risk of interoperability
problems between the different products.  These
profiles won't normally define any additions to
the Bluetooth specification, which is why you can
add new profiles where you need them.  The
Bluetooth underlying technology is the same, only
the specific method that it's used is defined.

Generally speaking, all profiles of Bluetooth are
based on the GAP (Generic Access Profile).  There
are 9 profiles that fall in the GAP category, and
they are below:   
1.  AVRCP - Audio/Video Remote Control
Profile
2.  ESDP - Extended Service Discovery Profile
3.  CIP - Common ISDN Access Profile
4.  PAN - Public Area Network Profile
5.  HCRP - Hardcopy Cable Replacement
Profile
6.  GAVDP - Generic Audio/Visual Distribution
Profile
7.  A2DP - Advanced Audio Distribution Profile
8.  VDP - Video Distribution Profile
9.  HID - Human Interface Device Profile

To put it another way, usage models will describe
Bluetooth device applications and the associated
profiles that are used.  The usage model focuses
mainly on three categories - voice/data access points,
peripheral interconnects, and PAN (Personal Area
Networking).

The voice and data access points involve connecting
computing devices to communicating devices through
a wireless link. This way, data can be transferred
in a wireless manor, without the need of cables or
other types of connectivity.

PAN  is another very important usage model with
strong appeal to business customers.  Bluetooth
networks are easy to set up in virtually any type
of environment.  An example would be meeting
others at a trade show.

Instead of having contact information beamed via
infrared, business cards can quickly and easily be
transferred via Bluetooth wireless.  The fact is
that many documents can be exchanged this very
same way - making the uses and possibilities
virtually endless.

The Bluetooth profile is very important to the
specification, as it enables you to do so much
more.  You can use peripherals and devices with
the profiles, and virtually anything else that you
decide.

As Bluetooth expands and gets bigger and better,
you can count on the profiles to expand and get
even more functions.  If you have experience with
Bluetooth profiles, you should know exactly what
they are and what you can do with them.  If not,
all you need is a Bluetooth device - and a vivid
imagination.

Bluetooth Security

The good news for Bluetooth users is that the
security scares, like most scares, are normally over
dramatized and blown entirely out of proportion.  The
truth being told, these issues are easy to manage,
with various measures already in place to provide
security for Bluetooth technology.

It's true that there has been some Bluetooth phones
that have been hacked into.  Most devices that are
hacked into are normally those that don't have any
type of security at all.

According to Bluetooth specialists, in order to hack
into a Bluetooth device, the hacker must:
    1.  Force two paired devices to break their
connection.
    2.  Steal the packets that are used to
resend the pin.
    3.  Decode the pin.

Of course, the hacker must also be within range of
the device, and using very expensive developer type
equipment.  Most specialists recommend that you
have a longer pin, with 8 digits being recommended.

Fundamentals of security
The "pairing process" is one of the most basic levels
of security for Bluetooth devices.  Pairing, is
two or more Bluetooth devices that recognize each
other by the profiles they share - in most cases
they both must enter the same pin.

The core specifications for Bluetooth use an
encryption algorithm, which is completely and entirely
secure.  Once the devices pair with each other,
they too become entirely secure.

Until they have successfully paired, the Bluetooth
devices won't communicate with each other.  Due to
this pairing process and the fact that it is short
range - Bluetooth technology is considered to be
secure.

As the news has indicated, experienced hackers
have developed ways to get around this level of
basic security.  There are ways to get around this
threat, as you can install software to prevent
hackers from getting in.

With Bluetooth becoming more and more popular, it's
really no wonder that security is always in
question.  As Bluetooth gets bigger and better,
security will always be something that no one
really takes lightly.

If you've been concerned about Bluetooth security
in the past, rest assured that newer devices will
offer bigger and better security.  Preventing
hackers from getting in is something every owner
is concerned about - and the manufacturer's are
very aware.

Bluetooth Wireless Networking

Class
1 devices are the most powerful, as they can have
up to 100 mW of power, with a regular antenna
giving them a range of around 130 - 330 feet.

The class 2 devices are lower power, offering up
to 2.5 mW of power. A regular antenna will give
them a range of around 50 - 100 feet.  Class 3
devices use even less power, up to 1 mW of power
to be exact.  With a regular antenna, they will
have a range of around 16 - 33 feet.

Even though you may not realize it, Bluetooth
wireless technology has never been intended for
anything other than short distance types of
communication. With Bluetooth wireless, the short
range is actually a benefit.

For one, the short range will reduce the change of
interference between your devices and those that
belong to others who are nearby.  Overall, this
is a basic type of security, designed to protect
you and your devices.

Secondly, the lower power used for short range
means a longer battery life.  Most Bluetooth
devices will get their power from a battery,
meaning that anything you can do to lengthen the
battery life is very important.

The wireless networking offered by Bluetooth is
actually among the best, even though it uses
short range communication.  Bluetooth is used
with wireless controllers, the internet, and
even wireless headsets.

For the best in short range technology, Bluetooth
is extremely hard to beat.  If you've never tried
Bluetooth before, now is the time.  It's the best
with wireless networking, especially for those
who enjoy hands free talking on their cell phone.

Choosing A Bluetooth Headset

Bluetooth headsets can never be as small or as light
as wired headsets, simply because it needs to include
the battery and extra functions. This extra size
will impact how the headset mounts on or around
your ears.

Comfort
There seems to be two main styles of headsets for
Bluetooth.  Some are held into place with a loop
around the ear.  These styles are normally more
comfortable, although they may be less secure.  The
others are held in place by being jammed into
your ear - and usually prove to be less comfortable.

Factors to consider

Cost
The cost is an obvious issue, something that you
really need to think about.

Ergonomics
1.  Check to see if the device is easy to
quickly and conveniently put on your ear then take
it off again.
2.  Are the control buttons on the headset
easy to use?
3.  The headset should be comfortable to
wear for long phone calls.
4.  Can you use it with a pair of glasses?
5.  Check to see if you can wear it with
either ear.
6.  When you aren't wearing it, you'll
need to se how you would carry it with you.
7.  The weight is important as well, as you
don't want something that has the risk of falling
off.

Ease of use.
1.  The commands and controls should be
easy to remember.
2.  The volume level should be easy to
adjust.
3.  The unit should turn on quickly.
4.  The manual should be very well written
and easy for you to understand.
5.  There should be a support number for
you to call if you should experience any types of
problems.

Features
1.  You'll need to know about the battery,
the talk time, type, and how to tell when it is
going dead or fully charged.
2.  How many devices can the unit be paired
with?
3.  Compatability is also important, as
well as the warranty period.
4.  Check the sound quality for both
sending and receiving audio.
5.  What type of range does the headset offer
you?

Other important capabilities include voice tags,
last number redial, tranfer calls, 3 way calling,
link to other phones, call reject, and mute.  You'll
also want to note if it looks attractive, and if
it's too big or too small.

Connecting Many With Bluetooth

A good example is Bluetooth for cell phones.  It
enables mobile users to connect to their hands free
headset without using wires.  Bluetooth technology
will also allow mobile phone users to connect
with their hands free kit as well.

Another handy use of Bluetooth is file sharing.  It
allows the sharing of files between two cell phones,
between a cell phone and computer, which makes the
sharing of files a snap.  If you have a cell phone
and computer, you can easily transfer data between
the two.

Say for example you wanted to put an MP3 on your
phone from your computer you could do it easily
with Bluetooth.  All you would need is a Bluetooth
adapter for your computer.  It doesn't stop with the
swapping of files either,as you can use your computer
and phone to synchronise phone books, send SMS messages,
and much more.

Although Bluetooth may be dandy for cell phones,
it also comes in handy for the home office as well.
Utilizing Bluetooth is a great way to set up a
home office - two computers, a printer, and even a
scanner.  They all can be connected using Bluetooth
technology with effective ranges of up to 10 meters.

The technology and devices of Bluetooth will be
around for years and years to come.  As years go
by, Bluetooth will provide even better wireless
solutions for different applications.  Even though
Bluetooth has a short range, it has that short
range for a reason.  Bluetooth is easily the best
in wireless technology - which it continues to
prove time and time again.

Saturday, January 5, 2013

Bluetooth High Speed Technology

It`s lets you quickly send video, music and other large files between your devices.
The Bluetooth SIG announced the release of Bluetooth high speed technology in April 2009 when it completed Bluetooth Core Specification Version 3.0 + HS. The v3.0 Specification enables the use of a Generic Alternate MAC/PHY, allowing well known Bluetooth protocols, profiles, security, and pairing to be used in consumer devices while achieving faster throughput by momentary use of a secondary radio already present in the device.
Bluetooth high speed technology is also included in the newer Bluetooth v4.0 Specification released in June 2010.
Bluetooth high speed technology works by isolating activity from the AMPs, enabling the use of new radios without full system integration. This reduces costs while expanding future build opportunities. It also removes the user from new paradigms and supports existing Bluetooth use cases, making them faster and ensuring continuity for the UX experience while lowering costs and reducing training requirements.
The v3.0 + HS enhancement to the Core Specification provides consumers with powerful, wireless connections that are more robust and reliable than ever before. Features include:
Power Optimization - By using the high speed radio only when you need it, Bluetooth high speed reduces power consumption, which means a longer battery life for your devices.
Improved Security - The Generic Alternate MAC/PHY in Bluetooth high speed enables the radio to discover other high speed devices only when they are needed to transfer your music, pictures or other data. Not only does this optimize power, but it also aids in the security of the radios.
Enhanced Power Control - Limited drop-outs are now a reality. The enhanced power control of Bluetooth high speed makes power control faster and ensures limited drop-outs, reducing consumer experience of impacts from power. Users are now less likely to lose a headset connection—even when the phone is in a coat pocket or deep inside a purse.
Lower Latency Rates - Unicast Connectionless Data improves the customer experience of speed by lowering latency rates, sending small amounts of data more quickly.

How Bluetooth`s Work


Bluetooth devices will normally operate at 2.4 GHZ
in the license free, globally available ISM radio
band.  The advantage to this band includes worldwide
availability and compatibility.  A disadvantage to
this however, is that the devices must share this
band with other RF emitters.  This includes
automobile security systems, other wireless devices,
and other noise sources, such as microwaves.

To overcome this challenge, Bluetooth employs a
fast frequency hopping scheme and therefore uses
shorter packets than other standards within the
ISM band.  This scheme helps to make Bluetooth
communication more robust and more secure.

Frequency hopping
Frequency hopping is basically jumping from frequency
to frequency within the ISM radio band.  After a
bluetooth device sends or receives a packet, it
and the device (or devices) it's communicating with
hop to another frequency before the next packet is
sent.  This scheme offers three advantages:
1.  Allows Bluetooth devices to use the
entirety of the available ISM band, while never
transmitting from a fixed frequency for more than a
short period of time.  This helps insure that
Bluetooth conforms to the ISM restrictions on the
transmission quantity per frequency.
2.  Ensures that any interference won't
last long.  Any packet that doesn't arrive safely
to its destination can be resent to the next
frequency.
3.  Provides a base level of security as
it's very hard for an eavesdropping device to predict
which frequency the Bluetooth devices will use
next.

The connected devices however, must agree upon the
frequency they will use next.  The specification
in Bluetooth ensures this in two ways.  First, it
defines a master and slave type relationship between
bluetooth devices.  Next, it specifies an algorithm
that uses device specific information when
calculating the frequency hop sequences.

A Bluetooth device that operates in master mode can
communicate with up to seven devices that are set in
slave mode.  To each of the slaves, the master
Bluetooth device will send its own unique address
and the value of its own internal clock.  The
information sent is then used to calculate the
frequency hop sequences. 

Because the master device and each of the slave
devices use the same algorithm with the same initial
input, the connected devices will always arrive
together at the next frequency that they have agreed
upon.

As a replacement for cable technology, it's no
wonder that Bluetooth devices are usually battery
powered, such as wireless mice and battery powered
cell phones.  To conserve the power, most devices
operate in low power.  This helps to give Bluetooth
devices a range of around 5 - 10 meters.

This range is far enough for wireless communication
but close enough to avoid drawing too much power
from the power source of the device.

Introduction To Bluetooth

It`s designed to allow low bandwidth wireless
connections to become easy to use so even those who
are new to wireless can use them.  Version 1.1 of
Bluetooth describes a low power, short range wireless
networking technology that uses radio waves to send
data at rates up to 720 kilobits a second.

The specification for Bluetooth provides for different
classes of radio that allow transmission ranges of
up to 100 meters by boosting the radio power.  The
technology of Bluetooth isn't limited to line of
sight transmission since it uses directional waves
that are capable of transmitting through many
obstructions.

Bluetooth is an industry standard communication of
wireless, meaning that it enables the connection
of other devices as well, such as cell phones,
computers, digital cameras, and other types of
electronic devices.  The specification of Bluetooth
defines a radio system and a "stack" of protocol
layers and profiles.  The highest layer is the
application layer, while the lowest layer is the
radio.

The wireless technology of Bluetooth is positioned
to revolutionize the personal connectivity market
by providing freedom from inconvenient fixed type
lines. 

The specification for Bluetooth eliminates the need
for cables by providing a small form factor, low
cost wireless solution that will link computers,
cell phones, and other electronics.  Bluetooth
also allows users to connect many ranges of devices
quickly and easily and expands communications
capabilities as well.

The size of the Bluetooth radio is amazing, as a
Bluetooth radio can be built into one or two very
small microchips then integrated into any electronic
device where wireless operations would be an
advantage.

Bluetooth also offers a robust link, which ensures
that normal operating circumstances are not
interrupted by interference from other signals
that are operating in the same frequency band.

Also known for its worldwide operation, Bluetooth
radio operates in the 2.4 GHz frequency band, which
is license free and available to any type of
radio system in the world.  No matter where you
are in the world, you count on Bluetooth to work.

Security is also important.  Offering advanced
security mechanisms, Bluetooth ensures a high level
of security.  Therefore, authentification will
prevent unauthorized acess to important data and
make it very difficult to listen in.

Bluetooth also boasts power optimization.  The radio
is power friendly and the software for Bluetooth
is very configurable, limiting the power consumption
of equipment.  The radio itself only consumes a
small amount of power from a cellular phone.

Bluetooth`s keys

It`s easily the best in wireless handheld
technology.  When it comes to learning, Bluetooth
can get quite complicated.  To help you, you'll find
the key learning points of Bluetooth below:

1.  Bluetooth is an energy efficient, low
overhead communication protocol that's ideal for
interdevice communications.
2.  Unlike infrared, Bluetooth doesn't require
a line of sight.
3.  Depending on the implementation, Bluetooth
can have a range of up to 100 meters.
4.  The specification of Bluetooth consists of
a Foundation Profile Document and a Foundation Core
Document.
5.  The protocol stack for Bluetooth consists
of core protocols, cable protocols, and even adapted
protocols.
6.  The transmitter operates around the 2.4
GHz frequency band.
7.  The data channel will change frequency, or
hops, 1,600 times in a second, between the 79 allocated
channels in the ISM band.
8.  Bluetooth utilizes a spread spectrum
frequency hopping RF characteristic to ensure that
independant networking operates when the other
devices are in range.
9.  A piconet is formed when one or more
devices open up a channel of communication.
10.  A piconet can have a master and up to
seven slaves. 
11.  Communication of the interdevice is
based on the concepts of channels.
12.  All Bluetooth devices are capable of
transmitting voice.
13.  The channel has a total capacity of
1 MB per second.
14.  There are two types of channels with
Bluetooth - SCO (Synchronous Connection Oriented) and
ACL (Asynchronous Connectionless).
15.  The SCO channels are time oriented, and
are therefore primarily used for transferring time
critical data such as voice.
16.  ACL channels are normally used for
communicating data.
17.  Data contained in a packet can be up to
2,745 bits in length.18.  In a single piconet, there can be up
to three SCO links containing 64,000 bits a second
each.
19.  To avoid collision and timing problems
20.  The masters can support up to three
SCO links with either one, two, or three slaves.
21.  The slots that aren't reserved for SCO
links can be used as ACL links.
22.   The LMP (Link Management Protocol)
will handle link level security, error corrections,
and the establishment of communications links.
23.  The LMP packets will have priority
over user packets that originate and form the
L2CAP layer.
24.  The L2CAP layer will ensure an
acceptable quality of service.
25.  No more than one ACL link can exist
at the L2CAP layer.

Solution of Bluetooth

Bluetooth`s technology will take small area
networking to the next level by removing the need
for user intervention and help keep transmission
power very low to preserve battery power.  Each
transmission signal to and from your cellular
phone will use just 1 mw of power, giving you
plenty of space on your battery to talk.

Bluetooth is a networking standard that will
work on two levels:
1.  It will provide agreement at the
physical level, as Bluetooth is a radio frequency
standard.
2.  It will provide agreement at the level
of protocol, where products will have to agree
on when bits are sent, how many are sent, and how
the parties in conversation can be sure the message
recieved is the same one that was sent.

The major draws to Bluetooth is the fact that
it's wireless, inexpensive, and automatic. There
are other ways to get around wires, including
infrared.  Infrared uses light waves of a lower
frequency than the human eye can, and is normally
used in television remote controls.

The technology of Bluetooth is intended to get
around the problems that normally come with
infrared systems.  The 1.0 older standard of
Bluetooth has a max transfer speed of 1 MB a
second, while the 2.0 Bluetooth standard can
manage up to 3.0 MB a second.  To make things
better, 2.0 is compatible with 1.0 devices.

As a solution to wireless, Bluetooth will
eliminate the need for messy cords, keeping
everything nice and neat.  It's perfect for those
who like to talk on cell phones, as you no
longer need to hold the phone next to your
ear - which is great for those who travel a
lot.

Bluetooth`s Future

Since the forming of the original group, more than
1,800 manufacturers around the world have joined
the initiative.  According to reports, the Bluetooth
technology is expected to be built into more than
100 million devices, with over 670 million enabled
Bluetooth devices.

Resulting from the amazing success of WAP (Wireless
Application Protocol), the adoption of smart phones
and hand held devices, Bluetooth can easily have
an amazing impact on your day to day life.  Bluetooth
is one of the key technologies that can help to
make the mobile information society happen, by
blurring the possibilities between home, the office,
and the outside world.

The seamless integration and connectivity that
Bluetooth promises will make it possible to explore
a wide range of interactive and highly transparent
personalized services which were actually quite
difficult to dream of simply because of the
complexity involved with making such devices
communicate with each other.

Many Bluetooth pilot products have already been
rolled into the market and backed by big vendors,
which is a healthy sign for the overall acceptance
of the technology.  The support for Bluetooth isn't
limited to companies that develop only Bluetooth
enabled products.

The applications for Bluetooth can have great
impacts on other industries as well.  The adoption
of Bluetooth technology is expected to spread
throughout the industry of computers. 

Unlike infrared technology, Bluetooth is used by
many different wireless devices.  Bluetooth offers
exceptional quality for short range wireless, even
going through walls and obstructions.  While
infrared is the biggest competitor at this time,
Bluetooth far surpasses it, proving to millions that
it is the wireless communication technology of the
present day and age.

In the beginning, Bluetooth started with version 1.0,
then gradually moved from there.  The current
version is 2.0+EDR, with another version currently
in development.  The technology behind the Bluetooth
specification always getting better and better,
which is why it's so popular.

In the future, you can expect the technology
behind Bluetooth to get better.  Bluetooth has
proven to be the wireless standard of the future,
offering you wireless connectability for hundreds
of different devices.  For cell phones or other forms
of wireless connections, Bluetooth is the one
technology that you don't want to find yourself
without.

Hot To Use Bluetooth

Bluetooth offers interoperability, meaning that
you can use your portable Bluetooth device to connect
with existing Bluetooth points.  This way, you won't
have to carry a data lead or CDs of drivers around
with you everywhere you go.  You can enjoy the best
of wireless without having to worry about installing
your software.

With today's Bluetooth, you can use your PDA and cell
phone to surf the net or check emails as you travel.
If you are in the business field, this can be very
beneficial, especially if you like to check your
email throughout the day.  Bluetooth will enable you
to check your email no matter where you are - which
is great news for those who like to travel.

Bluetooth will also enable to you to transfer files
as well, such as MP3 and photo to and from your mobile
device.  Bluetooth dominates the world of short range
wireless, enabling you to do more than you may
have thought possible.

One of the best things to Bluetooth and something
everyone loves is the wireless headset.  Bluetooth
offers wire free headsets for your cell phone or
computer, which is great for those who like to walk
around or talk on the phone in the car, without
having to worry about your hands getting in the way.

To make things even better, you can use a Bluetooth
GPS device for satellite navigation on your PDA,
laptop, or mobile.  If you travel - this can be
really great to have.