Wibree
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14-02-2009, 11:46 PM


Now a days the wireless technologies are more in use and are widely evolving. Some of the technologies now in use are Wi-Fi, Wi-max, Zigbee, Bluetooth¦¦. Out of which Bluetooth is most popular. These technologies are widely used to connect the large devices like mobile phones or personal computers. No other existing wireless technologies will connect with small button cell battery devices so effectively. So the Nokia introduced the new radio technology called Wibree.

New radio technology for ultra low power

Wibree is a new radio technology developed by Nokia. It consumes only a fraction of the power compared to other such radio technologies, enabling smaller and less costly implementations and it is easy to integrate with Bluetooth solutions.

Open industry initiative

Wibree is the first open technology offering connectivity between mobile devices or personal computers, and small, button cell battery power devices such as watches, wireless keyboards, toys and sports & health care sensors.

Ultra low power cannot be achieved with existing open standards

Currently available standardized local connectivity technologies are not optimized for ultra low power applications.

Ultra low power cannot be achieved with existing open standards

Currently available standardized local connectivity technologies are not optimized for ultra low power applications.

Wibree implementations:

There will be two types of Wibree implementations-

Wibree stand-alone chip

The Wibree stand-alone chip is designed for use with applications which require extremely low power consumption, small size, low cost and where only small quantities of data are transferred.
It's an ideal solution for small devices (like heart-rate monitors) that use only short data messages and must have long battery life.

Examples of devices that would benefit from the Wibree stand-alone chip are: watches, sports and wellness devices and human interface devices (HID) such as wireless keyboards.
The Bluetooth-Wibree dual-mode chip is designed for use in Bluetooth devices. In this type of implementation, Wibree functionality can be integrated with Bluetooth for a minor incremental cost by utilizing key Bluetooth components and the existing Bluetooth RF. This type of implementation allows Bluetooth devices to connect to a new range of tiny battery-powered devices.

Examples of devices that would benefit from the Bluetooth-Wibree dual-mode chip are mobile phones and personal computers.
Bluetooth is a great technology and brand, adopted worldwide
Bluetooth is widely used in mobile devices like PCâ„¢s and phones, as well as in wireless headsets. However, other products relying on button cell batteries as a source of power, e.g. watches, toys and human interface devices, are not served effectively by Bluetooth.


Wibree-Bluetooth dual-mode chip

similarities Wibree and Bluetooth use the 2.45 GHz band to transfer data and have a 1 Mbps transfer rate and a rage of about 10 meters (m). In Wibree-Bluetooth dual-mode they share the components like antenna.

Wibree is ultra low power technology

The maximum transmitted output power of Bluetooth class 2 is 4dBm,(~ 2.5 mW). The total power consumption is much higher. The output power of Wibree standard will be around -6dBm. Each manufacturer will determine its own transmit power.
Fast availability of new technology

In order to ensure fast availability of the new technology, Nokia is defining the Wibree interoperability specification together with a group of leading companies representing semiconductor manufacturers, device vendors and qualification service providers. The first commercial version of the specification is expected to be available by 1stquarter 2008.
seminar and presentationproject and implimentationsdownloads/?path=/Seminar%20Reports/computer_science-information_technology/seminar and presentation%20list21

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11-11-2009, 02:02 PM

see its the part of presentation webree


What is Wibree Origin and What benefits can Architecture development wibree bring to already Iscrowded wireless PAN market wibree a Bluetooth killer Applications Comparison of various wireless technologies What is Wibree Wibree is a short range (10 metres/30 feet), wireless technology now under development This specifically targeted signed for ultra low power consumption. Connectivity between mobile devices such as smart phones or PCs and small battery-powered devices such as watches, wireless keyboards, toys and sports sensors. ORIGIN & DEVELOPMENT Around 2001; the Nokia Research Center was looking at options for future personal They thought of low power devices such as sensors, but wireless networking realized that there was no suitable technology connecting those to larger It made them to develop a technology called devices such as a mobile phone. Wibree to meet the requirements of low power consumption, small size, and low cost with Nokia decided to create a new interoperability based on open specification. open wireless protocol along with its partners Broadcom Corporation, CSR, Epson, and Nordic Semiconductor, is working to bring it to market. WIBREE DEVICE ARCHITECTURE Nordic Semiconductor is a key player in Wibree architecture. Wibree specification has been in modes namely Dual-mode Stand-alone-mode. In the dual mode implementation the Wibree functionality is an add-on feature inside Bluetooth circuitry sharing a great deal of existing functionality resulting in a minimal cost increase compared to existing products. The Wibree-Bluetooth dual-mode chips would probably be implemented in future mobile phones, allowing users to benefit from both worlds “ Bluetooth 2.0 high speed and Wibree's low power and extended ability to communicate with a new generation of smaller wireless devices. Stand-alone Wibree chips would be implemented in small, low cost devices such as wireless mouse and keyboards, sensors, toys, sport, wellness, and human HID product categories. Is Wibree a Bluetooth killer No, absolutely not. It has its own advantages and disadvantages over Bluetooth. Likewise Bluetooth also. It™s up to 10 times more energy efficient than Bluetooth. This wireless system can transfer data at speeds of up to 1 mbps, about a third of the speed of current Bluetooth technology. This system has longer battery life and more compact devices When Wibree has become a standard. Like Bluetooth”used to link cell phones with headsets, computers and printers to transfer calls, calendar items, documents, songs and pictures. While Bluetooth is looking for ultra high frequencies above 6 gigahertz for new faster connections, Wibree will operate in the 2.4 gigahertz band. Wibree packets will be dynamic in size, unlike the fixedlength Bluetooth packets, so there is some Bluetooth workspower-saving there if small amounts of data are being sent. for periodic short-range wireless links but not for applications with heavier duty cycles, such as audio transfer to headphones or speakers while wibree can. WHAT BENEFITS CAN WIBREE BRING TO ALREADY-CROWDED WIRELESS PAN MARKETS ¢ Wibree is complementary to existing technologies; it does not replace them. ¢ Nokia believes that Bluetooth, as we today understand it, serves some use cases very well, but is not well equipped to serve others. ¢ The same will apply to Wibree, meaning that there will be room for both technologies. ¢ The communication becomes more data-intensive, the power consumption benefits of Wibree will diminish compared to Bluetooth. ¢ Wibree will broaden CSR™s portfolio of wireless technologies including Bluetooth, WiFi and UWB. Bluetooth Band Antenna/hw Power 2.4 GHz Shared 100mW Wibree 2.4 GHz Shared ~10mW 1-2 years 10m Bluetooth+20 Adhoc,point to point, star Zigbee 2.4GHz,868MHz, 915 MHz Independent 30mW 6 months-2 years 10-75 m $2 Mesh,adhoc,star Target Battery life Days-months Range Component cost Network topologies Security 10-30 m $3 Adhoc,point to point, star 128-bit encryption 128-bit encryption 128-bit encryption TBA 15ms Time to wake and 3s Advantages Wibree is the first wireless technology to solve the following needs in a single solution. Ultra low peak and average power consumption in both active and idle modes Ultra low cost & small size for accessories & human interface devices Minimal cost(HID) & size addition to mobile phones & Global,PCs intuitive & secure multi-vendor interoperability Applications Healthcare You can monitor your heart rate and blood pressure at home to improve your personal diet. You can being connected over-the-air to your physician while rehabilitating out of hospital. Wibree makes being healthy easier and more fun. Sports Wibree enabled products can provide the measurement and consequent optimization of a professional athlete™s It enables the automatic selection ofperformance during a work out session. suitable music from your mp3 player to match your heart rate while bicycling to You can feed continuous data to the mobile phone so you can laterwork. The heart rateanalyze on your mobile phone while jogging listening to music. meter around your chest and the accelerometer and compare your performance. Pressing the answer button on your wrist watch you can manage your pulse rate. Entertainment Steer your little racing car clear of obstacles with your mobile phone. Watch your little robot interact with that of your friend when they come close and tune up the volume to your favorite beat with your tiny mp3 player remote control. Wibree enabled toys and gadgets take play to the next level. Office Wibree ensures that your wireless keyboard, mouse and digital pen will work when you work with laptops where ever you go Conclusion: Wibree will also dramatically extend the battery lifetime of existing wireless devices such as keyboards, mice and remote controls. It™s up to 10 times more energy efficient than Bluetooth. Nokia said it expected the first commercial version of the standard to be available during the second quarter of 2007. The firm said it expected dual Bluetooth- Wibree devices such as mobile phones to hit the market within two years.
for more see en.wikipediawiki/Wibree
scribddoc/11573213/WIBREE
www-cse.ucsd.edu/classes/fa08/cse237a/topicresearch/jkooker_tr_report.pdf
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#3
01-12-2009, 06:44 PM

see a beautiful webree presentation

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04-02-2010, 11:53 PM


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INTRODUCTION

¢ Radiofrequency technology
¢ Introduced by NOKIA
¢ Short range wireless technology
¢ Offers connectivity between mobile devices & small button cell devices

Presented By:
SUVAJITH V S.S7.CS.53

ORIGIN & development

Search for a feasible wireless technology
Existing standard Bluetooth was the inspiration.
Low power, small size & low cost was the driving motives.

Wibree (Stand-Alone mode)

Only Wibree enabled chip is used.
Designed for devices with low hardware specifications .
Used when quantities of data transferred are small
Commonly implemented in :
Watches
Sport / wellness devices
Wireless Keyboards
Wireless mouse
Combination chip is used .
Wibree functionality is integrated with Bluetooth
A combination chip communicates independently of dongles.
Commonly implemented in:
mobile phones.
personal computers.
Dongles.

APPLICATIONS

Sports
Healthcare
Entertainment
Office & Mobile Accessories
Automotive
Remote control devices

Similarity with Bluetooth

2.45GHz band to transfer data
1Mbps transfer rate
10 meter range

Wibree v/s Bluetooth

Wibree uses only a fraction of the power compared to today's Bluetooth standards.
Wibree chips are smaller than Bluetooth chips
Wibree is 10 times more efficient than Bluetooth

Advantages

Ultra low power consumption
Small chip size
Inexpensive implementation
More efficient
Easily integrated with Bluetooth standards
Point to multipoint data transfer

disadvantages

Data transmission rate is very low
Cannot be used in high bandwidth applications

Conclusion

Wibree is a Nokia solution. However the major Bluetooth chip vendors including Cambridge Silicon Radio and Broadcom will support the Wibree. Taking all of these factors together, Wibree has the potential to transform consumer devices. Wibree enabled devices will be available commercially with in a few years
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09-04-2010, 08:08 PM


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ABSTRACT
Nowadays the wireless technologies are more in use and are widely evolving. Some of the technologies now in use are Wi-Fi, Wi-max, Zigbee, Bluetooth¦ Out of which Bluetooth is most popular. These technologies are widely used to connect the large devices like mobile phones or personal computers. No other existing wireless technologies will connect with small button cell battery devices so effectively. So the Nokia introduced the new radio technology called Wibree.
Wibree is a new radio technology developed by Nokia. It consumes only a fraction of the power compared to other such radio technologies, enabling smaller and less costly implementations and it is easy to integrate with Bluetooth solutions. Wibree is the first open technology offering connectivity between mobile devices or personal computers, and small, button cell battery power devices such as watches.

Wibree is ultra low power technology. The maximum transmitted output power of Bluetooth class 2 is 4dBm, (~ 2.5 mW). The total power consumption is much higher. The output power of Wibree standard will be around -6dBm. Each manufacturer will determine its own transmit power.
In order to ensure fast availability of the new technology, Nokia is defining the Wibree interoperability specification together with a group of leading companies representing semiconductor manufacturers, device vendors and qualification service providers.

1. INTRODUCTION
Now that wireless connections are established solutions in various sectors of consumer electronics, the question arises whether devices that draw long life from a small battery could find benefit as well in a global standard for wireless low energy technology. Makers of sensors for sports, health and fitness devices have dabbled in wireless but not together, while manufacturers of products like watches have never even considered adding wireless functionality because no options were available. Several wireless technologies have tried to address the needs of the button cell battery market, but most were proprietary and garnered little industry support. However, none of these technologies let smaller manufacturers plug in to a global standard that provides a viable link with devices like mobile phones and laptops.

However, companies that wants to make their small devices wireless need to build and sell either a dedicated display unit or an adapter that connects to a computing platform such as a mobile phone, PC or iPod. There have been few successful products that followed this route to a mass market. A new flavor of Bluetooth technology may be just the answer, and a more efficient alternative for yet another wireless standard.

In the ten years since engineers from a handful of companies came together to create the first Bluetooth specification, Bluetooth technology has become a household term, a globally recognized standard for connecting portable devices. The Bluetooth brand ranks among the top ingredient technology brands worldwide, recognized by a majority of consumers around the world. A thriving global industry of close to 11,000 member companies now designs Bluetooth products and works together to develop future generations of the technology, found in well over 50 percent of mobile phones worldwide and with more than two billion devices shipped to date. Bluetooth wireless technology has established the standard for usability, ease of setup and compatibility across all manufacturers. A well-established set of Bluetooth profiles define the communication needs for a wide range of applications, making it easy for a manufacturer to add Bluetooth wireless connectivity to new devices ” from phones to headsets to printers ” with a minimum of programming and testing work.
Bluetooth technologyâ„¢s consumer brand recognition and its years long experience of software development, testing and validation, are tremendous advantages for any device that bears the Bluetooth logo. The current Bluetooth radio delivers a combination of fast data rate and low power consumption that has proven to be the right choice for a range of mobile phone and PC applications, including hands-free communication, streaming music, printing and file transfer. But its speed is wasted in applications that require only small bits of information to be sent infrequently. The Bluetooth Special Interest Group (SIG) recognizes that no single radio design will ever offer both maximum data rate and maximum battery life. With this in mind, the Bluetooth SIG has focused efforts on uniting several wireless technologies under a single Bluetooth wireless umbrella.

In 2001, Nokia researchers determined that there were various scenarios that contemporary wireless technologies did not address. To address the problem, Nokia Research Center started the development of a wireless technology adapted from the Bluetooth standard which would provide lower power usage and price while minimizing difference between Bluetooth and the new technology. The results were published in 2004 using the name Bluetooth Low End Extension. After further development with partners, e.g., within EU FP6 project and implimentation MIMOSA, the technology was released to public in October 2006 with brand name Wibree. In June 2007, the Bluetooth SIG announced it would bring Nokiaâ„¢s Wibree under the Bluetooth umbrella to create a low energy version of Bluetooth wireless technology. The result: a wireless technology with a considerable battery life that will be measured in years and even lower power consumption than other standards based technologies, but able to communicate with over a billion of Bluetooth devices shipped each year. As of June, 2007 Wibree is known as Bluetooth ultra low power, in 2008 renamed Bluetooth low energy.

In December 2009, the Bluetooth Special Interest Group (SIG) announced the adoption of Bluetooth low energy wireless technology, the hallmark feature of the Bluetooth Core Specification v4.0. Bluetooth low energy technology enhances the opportunities for developers and manufacturers of Bluetooth technology and will bring to life entirely new markets for devices requiring low cost and low power wireless connectivity.

Specification for the technology is currently ongoing. Nokia is defining the Wibree interoperability specification together with a group of leading companies representing semiconductor manufacturers, device vendors and qualification service providers. The technology will be made available to the industry through an open and preferably existing forum enabling wide adoption of the technology. The forum solution is under evaluation and will be defined upon finalization of the specification. Members of the group defining the specification include Broadcom Corporation, CSR, Epson and Nordic Semiconductor, having licensed the Wibree technology for commercial chip implementation and Suunto and Taiyo Yuden, contributing to the interoperability specification in their respective areas of expertise.
Wibree is a short-range wireless protocol optimized for low power consumption. Wibree is intended to compliment Bluetooth communications in certain PAN applications where small, lightweight design makes standard Bluetooth communication unsuitable or difficult. For instance, Bluetooth-enabled wristwatches require relatively large transmitters and batteries, making the devices heavy and uncomfortable. Wibree-enabled wristwatches can use smaller transmitters and smaller batteries, increasing user comfort and reducing fatigue while extending battery life.
Wibree operates in the same 2.4 GHz frequency band as Bluetooth, which ensures backwards hardware compatibility. Due to this, a single antenna can support both protocols, and many existing Bluetooth devices will require only a simple software update to communicate with Wibree devices. While these upgraded devices will not benefit from the size savings dedicated Wibree models enjoy, they will see much improved battery life. Additionally, compatibility with newer Wibree models will help prolong the lifespan of existing equipment.

Wibree technology is an important development that opens up new market opportunities and a whole new range of possibilities for mobile users. In addition to creating a vast market for sensors, watches and other existing devices, Bluetooth low energy technologyâ„¢s ability to connect low power devices to the mobile phone will open new applications.
Wibree - Bluetooth low energy technology promises a new answer, one with a proven global standard at its heart.
2. SPECIFICATION
Bluetooth low energy technology is a next generation wireless communications specification from the same group that created and continue to expand the original Bluetooth specification to cover new use cases. Bluetooth low energy technology enables new classes of devices that can only be viable when an ultra low power radio technology, interoperable profiles and services are combined together to create an industry wide technology platform. Bluetooth low energy technology connects everything to anything, phones and watches, watches to shoes, shoes to web services, and web services to the home answering the long awaited standardization from many different markets
Technical Specification Wibree -Bluetooth low energy
Radio frequency 2.4 GHz
Distance/Range 200 m (660 ft)
Over the air data rate 1 Mb/s
Application throughput 0.2 Mb/s
Active slaves Not yet available
Security 128-bit AES with Counter Mode CBC-MAC and application layer user defined
Robustness Adaptive fast frequency hopping, Lazy Acknowledgement, 24-bit CRC, 32-bit Message Integrity Check
Total time to send data (det.battery life) <3 ms
Government regulation Worldwide
Certification body Bluetooth SIG
Voice capable No
Network topology Star-bus
Power consumption 0.01 to 0.5 (depending on use case)
Peak current consumption <15 mA (max 15 mA to run on coin cell battery)
Service discovery Yes
Profile concept Yes
Primary use cases Mobile phones, gaming, PCs, watches, sports and fitness, healthcare, automotive, home electronics, automation, Industrial, etc.
3. IMPLEMENTATION
Bluetooth low energy technology is designed and optimized for applications with low effective data throughput. The exciting aspect of Bluetooth low energy is its ability to enable low cost devices to be made that can send their data all of the way to the web. Itâ„¢s based on over ten years of experience and promises to have the fastest growing ecosystem of any wireless standard.
Bluetooth low energy (previously known as Wibree) has the potential to be the fastest shipping wireless technology ever. On April 20th 2009, Fiona Thomson “ a key analyst from IMS Research told the media that the feedback they have had from a market survey was so positive that they are no longer asking when it will happen, but how long it will take to ship the first billion chips! That figure could easily be reached and surpassed in the first four years of shipments. Three chip vendors “ Nordic Semiconductor, Texas Instruments and Cambridge Silicon Radio formally announced their single mode Bluetooth low energy chips at the meeting, with TI also announcing a dual-mode chipset. Taken together with previous public statements from CSR, Broadcom and EM Microelectronics, that brings the tally of Bluetooth low energy chipsets to four single mode chips and three dual mode chips. As well as the chips themselves, Texas Instruments gave information about a $99 developer™s kit due later this year and Anritsu supported the momentum with a demonstration of their test system for Bluetooth low energy, showing live analysis of radio packets. (Shown below for the RF cognoscenti.)
A key concept in Bluetooth low energy technology is the two implementation options:
1. Single mode implementation
2. Dual mode implementation
3.1 Single mode implementation:
The single mode is the one that truly delivers the ultra low power consumption by being a pure low energy implementation. While classic Bluetooth solutions typically provides battery lifetime of days to weeks on a rechargeable battery, single mode Bluetooth low energy technology implementation can provide months to years of lifetime on a standard coin cell battery. The Wibree stand-alone chip is designed for use with applications which require extremely low power consumption, small size, low cost and where only small quantities of data are transferred.
It's an ideal solution for small devices (like heart-rate monitors) that use only short data messages and must have long battery life.
Examples of devices that would benefit from the Wibree stand-alone chip are: watches, sports and wellness devices and human interface devices (HID) such as wireless keyboards.
3.2 Dual mode implementation:
The dual mode combines classic and low energy Bluetooth on a single chip at a very small price delta compared to a classic Bluetooth chip. In addition the radio circuitry is also shared between the classic radio and the low energy radio. The dual mode is designed to enable fast adoption of low energy in classic Bluetooth applications like mobile phones and PC by providing a very low cost delta as well as removing the need to add another radio. Several major mobile phone vendors have indicated that they will adopt dual mode devices in their upcoming phones. The Bluetooth-Wibree dual-mode chip is designed for use in Bluetooth devices. In this type of implementation, Wibree functionality can be integrated with Bluetooth for a minor incremental cost by utilizing key Bluetooth components and the existing Bluetooth RF. This type of implementation allows Bluetooth devices to connect to a new range of tiny battery-powered devices.
Examples of devices that would benefit from the Bluetooth-Wibree dual-mode chip are mobile phones and personal computers.
3.3 Network topologies
Bluetooth low energy technology supports star and star-bus network topology with a no theoretical limit on the number of active slaves. There are two different cases for the network topologies:
1. Single and dual mode topology
2. Single mode only topology
In the single and dual mode topology, the dual mode devices acts as the Hubs and the single mode devices acts as Nodes. The connection between Hub and Node is a Bluetooth low energy technology, while the backbone connection between different Hubs is classic Bluetooth. A Hub does not need to be a dual mode device, meaning that dual mode devices also can connect to classic Bluetooth devices.
An example of this topology in its simplest form is a mobile phone equipped with a dual mode device that maintains low energy connection to a single mode pedometer and single mode watch and at the same time has a classic Bluetooth connection to a stereo headset.
Single mode devices can also be networked on their own without the presence of a dual mode device. In this case the supported topology is star, where one of the single mode devices acts as the Hub.
An example of this topology is a TV with a Bluetooth low energy technology remote control. A single mode device is used in both the remote and the TV, but the one in the TV acts as the Hub.
3.4 Complete single mode solution
µBlue: Micro ampere Bluetooth® wireless technology from Nordic Semiconductor
µBlue is a complete single mode Bluetooth low energy technology solution. It includes the nRF8000 family of chips and chipsets combined with µBlue software stacks and device profiles. This means that µBlue significantly eases the effort and cost for manufacturers to make Bluetooth low energy wireless enabled products
Key features of the µBlue nRF8001 include:
1. Highly integrated single mode slave solution
2. 32-pin 5x5mm QFN package
3. Fully embedded radio, link controller, and host subsystem
4. Profiles and application examples included within the µBlue SDK„¢
5. Sub 15mA peak current consumption
6. Microampere range average current consumption
7. Years of battery operating life for coin cell battery-powered applications (depending on duty cycle)
8. Roadmap and availability
µBlue will be a range of single-mode Bluetooth low energy solutions based on a single chip architecture integrating radio, baseband and microcontroller with fully embedded Bluetooth low energy software stacks. By providing a complete solution, µBlue significantly eases the effort and cost for manufacturers to make Bluetooth low energy wireless enabled products. This high level of integration, tiny chip size, and low external component count makes µBlue ideal for size-constrained applications like watches and wearable sensors. µBlue will also be made available in a number of targeted application variants to suit the specific requirements of products in various market segments.
µBlue will provide a true ULP wireless solution with peak currents low enough to support standard coin cell battery operation and micro ampere range average current in connected mode, enabling months to years of battery lifetime. This means that it will drastically expand the range of applicable application areas where manufacturers can take advantage of Bluetooth wireless connectivity as well as deliver an improved user experience in existing applications. While classic Bluetooth solutions typically require rechargeable batteries and weekly charging cycles, µBlue will support applications that use non-rechargeable batteries, such as coin cells, and that therefore need to deliver months to years of battery lifetime to avoid end-user frustration.
The biggest and most important advantage of µBlue compared other ultra low power wireless solutions is the mobile phone connectivity. As dual mode implementations are adopted in mobile phone, µBlue will enable a new category of small battery powered devices to connect to the mobile phone.
While the single mode implementation is the true ultra low power solution in Bluetooth low energy, crucially important for its wide scale adoption will be its dual-mode implementation. Dual mode will combine Bluetooth low energy and classic Bluetooth on a single chip with a very small price delta compared to a classic Bluetooth solution. Combined with the fact that the two radio technologies can share most of the radio circuitry, Bluetooth low energy has the potential for fast and near saturation adoption in classic Bluetooth applications like mobile phones. With this connectivity to mobile phones, µBlue will enable manufacturers to create new and innovative products centered on the cellphone. Not only is the cellphone a natural hub device, but the latest designs also typically feature Internet connectivity and large color displays that can all be leveraged for new applications. The ultra low power consumption of µBlue does not come with a compromise on radio performance. µBlue is built on the latest class-leading ULP 2.4 GHz radio technologies and is therefore expected to deliver best-in-class sensitivity and blocking performance from launch.


4. Bluetooth, Zigbee, and Wibree:
A Comparison of WPAN Technologies
4.1 Introduction and Background
Wireless Personal Area Network (WPAN) designs have been flourishing in recent years. The pervasive success of Bluetooth has been a boon to all devices in the IEEE 802.15 working group. Wibree is a technology that has been under development by Nokia since 2001. It was originally adapted from the Bluetooth specification, and in 2006, the Bluetooth Special Interest Group (SIG) announced it would be adopting Wibree into the Bluetooth specification. Integrated Bluetooth/Wibree devices are not yet shipping, though Nordic Semiconductor has published a preliminary product specification. While the Wibree and Bluetooth specs are being integrated, the new name of the Wibree technology has changed several times.
While Wibree has been under development, the competing IEEE 802.15.4 technology of Zigbee has been available to the public for several years. ZigBee was designed as a low power, low-cost, low-speed solution, and has many benefits over Bluetooth, though fewer benefits over Wibree.
4.2 Detailed Technology Comparison
4.2.1 Frequency Band
All three technologies operate in the unlicensed 2.4 GHz spectrum, while Zigbee can also operate at reduced speeds at 915MHz and 868 MHz
4.2.2 Antenna and Hardware
Wibree's adoption into the Bluetooth spec was directly related to the fact that it can coexist on BT hardware. Devices that wish to take advantage of both Bluetooth and Wibree will not need to add extra hardware; one antenna will do for both. Zigbee support, however, requires its own hardware and antenna.
4.2.3 Power and Battery Life
Zigbee, designed to be a low-power alternative to Bluetooth, offers 30mW performance compared to Bluetoothâ„¢s 100mW. However, Dr. Bob Iannucci, Senior Vice President and Technology Advisor at Nokia, claims that Wibree is up to 10 times more energy efficient than Bluetooth, putting Wibree around 10mW. Zigbee is designed to run for six months to two years on just two AA batteries. This results from its ability to lock into a transmission time slot and sleep in between. Bluetooth, however, must stay awake for the convenience of quick response time, which results in battery life on the order of days. This led to Wibree's design goal of 1-2 years on a single battery.
4.2.4 Range
Both Bluetooth and Wibree are designed to operate within a 10m range, though Bluetooth 2.1 now states a maximum range of 30m. Zigbee, being designed to enable home and industry automation, allows a maximum range of 75m.
4.2.5 Data Rate
Wibree has caught up to Bluetoothâ„¢s original data rate at 1Mbps, while Bluetooth has proceeded to reach maximum rates of 3Mbps. Zigbee intentionally lags far behind these numbers, sacrificing data rates for power savings, and so transmits only 20-250Kbps.
4.2.6 Component Cost
In 2003, when Zigbee was targeting a $2 component cost, Bluetooth support cost $5 per device. Now Bluetooth pricing has fallen to $3, while Zigbee costs $2. More importantly, integrating Wibree into an existing Bluetooth implementation adds around 20¢, making Wibree a much more attractive addition to Bluetooth-enabled devices than Zigbee.
4.2.7 Network Topologies
Bluetooth and Wibree operate primarily in ad hoc piconets, where a master device controls multiple slaves. These piconets are limited to 8 devices. Zigbee has far greater flexibility in this arena, supporting mesh and star configurations. Mesh networks offer resilience against severed connections, as Coordinator devices can reroute traffic as needed. Star configurations at the ends of the mesh allow clusters of Zigbee devices to interact with the outside world,
While the mesh devices focus on data transmission.
4.2.8 Security
All three technologies support state-of-the-art 128-bit encryption, and all three continue to be scrutinized for key distribution vulnerabilities and the like.
4.2.9 Time to Wake and Transmit
One of Zigbeeâ„¢s greatest strengths over Bluetooth has been its freedom to sleep often. This comes from its quick wake-from-sleep design. A Zigbee device can wake up and get a packet across a network connection in around 15 milliseconds, while a Bluetooth device would take 3 seconds. A Wibree device would presumably behave more like the Zigbee device, but this remains to be seen.
Table of Feature comparisons:
5. APPLICATIONS
5.1 Wibree “The Marvelous World of Wireless Microdata
Wibree offers low power “ as low as any of the other contenders, but it does it in a way that sets itself apart from them. Its unique feature is that it cohabits with a Bluetooth radio in a new generation of wireless chips. To reduce cost it uses the same radio circuitry that™s already there for Bluetooth and squeezes in a small, complementary protocol stack. These dual mode chips will cost at most a few cents more than today™s Bluetooth only chips. That means Wibree will quickly achieve a high penetration in mobile phones because it is riding on the back of an established technology. There are two important things to realize about that symbiosis: firstly, Wibree deployment will happen quickly and happen in volume. Secondly, it means that every Wibree enabled mobile phone becomes a ready built, wide area gateway capable of transferring data from a peripheral Wibree device to a remote network or service.
The sheer speed and scale of Wibree deployment in mobile phones in the next few years is the first step to its goal. It will provide the critical mass that product designers need to justify incorporating wireless connectivity into a new generation of products. Low cost, Wibree only chips will find their way into a whole new range of accessories, such as watches and lifestyle devices. Dual-mode Wibree + Bluetooth chips will give added functionality to the phones themselves, which will become usable for location specific data searching and remote control. Most importantly, Wibree opens up a raft of new opportunities for mobile network operators. As each Wibree equipped handset is a mobile gateway for Wibree devices, operators will be able to offer new services, such as health monitoring. Such services provide a route to new revenue streams, as well as being a powerful tool for operators to increase customer loyalty and reduce churn.
The important point to understand about Wibree is that it is going to build upon the volumes of mobile phones. Unlike other low power standards itâ„¢s not starting from scratch, but will ride on an industry that already sells a billion devices every year. Wibree has the goal of enabling a multitude of products to connect to each and every one of these handsets. That adds up to a potential that is an order of magnitude greater than mobile phone sales. Unlike other short range standards, Wibreeâ„¢s goal is not to ship mere millions, but tens of billions.
The new markets that are enabled by Bluetooth low energy technology include but are not limited to:
5.2 Health and Fitness - Everything from shoes and heart rate straps to weighing scales and bicycle computers. These devices will connect with the phone and watch to allow everybody to monitor their bodiesâ„¢ performance while exercising. This segment also includes health maintenance devices like blood oxygen meters, blood glucose meters that can raise alarms when there are problems, or send their data to the healthcare monitoring web services to monitor long term trends.
5.3 Home - Everything from using your phone as a remote control for your entertainment system to monitoring the temperature and controlling the heating and ventilation systems will be possible with Bluetooth low energy technology. The key element in this is that the phone can act as a remote control for all these devices.
5.4 Office -Typical wireless office devices like mice and keyboards will use Bluetooth low energy technology to increase their battery lifetimes. Also intelligent energy use will be enabled by enabling office buildings to monitor the presence of workers and visitors around the building, and adapting the environment to keep them comfortable while also saving energy and money.
5.5 Automotive - Tire pressure monitors and other remote monitoring of devices will reduce the weight of the wiring loom within a car. Bluetooth low energy technology can also be used to make the various controls, like rear entertainment controls, use fewer wires. This reduction of weight can also save energy as it will take less energy to accelerate the vehicle.
5.6 Watch - The only really true wrist computer that most people will accept is the watch. The Bluetooth low energy technology has been designed alongside watch companies so that it meets their requirements. The watch can display caller ID information, allow the user to accept or reject calls, all without looking at the phone. The watch can be used to control other devices like music players to enable volume and track changes.
Bluetooth low energy technology is a next generation wireless communications specification from the same group that created and continue to expand the original Bluetooth specification to cover new use cases. Bluetooth low energy technology enables new classes of devices that can only be viable when an ultra low power radio technology, interoperable profiles and services are combined together to create an industry wide technology platform. Bluetooth low energy technology connects everything to anything, phones and watches, watches to shoes, shoes to web services, and web services to the home answering the long awaited standardization.
6. MERITS AND DEMERITS
Bluetooth technology is the most successful short range wireless communications technology incorporated into billions of devices from cellular phones, headsets and stereo headphones, through to medical devices, portable media players and games consoles.
Bluetooth low energy technology is the next generation of wireless standard from the Bluetooth Special Interest Group. It is a new design that has taken the best parts of the existing Bluetooth specifications and optimized it for a new set of applications.
The core values of Bluetooth low energy technology are similar to the existing Bluetooth core values:
6.1 Low Power “ Bluetooth technology has always strived to utilize as low power as possible. The power consumption of Bluetooth technology has improved in every specification version, from interlaced page scanning in v1.2, faster data rates in v2.0, and sniff sub-rating in v2.1 to be the most power efficient standard for its applications. Bluetooth low energy technology will dramatically improve the energy efficiency when devices are connectable and discoverable, and also enables devices to send a small quantity of data very quickly from a disconnected state. These new low power features enable new market segments where there is a need to transmit only small amounts of data.
6.2 Low Cost “ Bluetooth technology has always been the lowest cost standard short-range wireless technology. Not only are there no royalties or specification a patent to worry about, but also the specification is designed around mass production using bulk CMOS technology. Bluetooth low energy technology will further reduce these costs, by relaxing important specification parameters, and by reducing the implementation size significantly (approximately half the die size).
6.3 Short Range “ Bluetooth technology has never attempted to be a long-range technology. By concentrating on short range applications, it has successfully created the first truly adhoc technology. Any device can connect with any other device, create a temporary or permanent relationship, and transfer data quickly and easily. Bluetooth low energy technology enables similar ranges as Bluetooth technology; they are still fairly modest compared with cellular radio links.
6.4 Worldwide “ Bluetooth technology can be used and sold in almost every country on the planet. Bluetooth technology therefore enables a single seamless market for wireless devices, enabling huge mass market, rather than country or regional specifications or devices.
6.5 Robust “ Bluetooth devices just work. Having a robust radio is essential when you are trying to gather a measurement from a sensor, or controlling something. Bluetooth technology has learnt that being robust is what the consumers demand, and it is therefore something that people now take for granted. Bluetooth low energy technology has not compromised anything for robustness.
Bluetooth low energy technology is a new specification; it is not a small additional feature within Bluetooth technology. This new specification has been designed by a team of experienced wireless experts, who have extensive experience of both Bluetooth solutions as well as proprietary radio systems. This combination enables a completely new generation of wireless standard that can build interoperable products.
The new specification has a number of features that make it very attractive to a wide variety of markets. This includes:
6.6 Number of devices - The number of devices that can be active within a Bluetooth low energy network has been significantly increased to many thousands. The network topology has been kept as simple as possible to reduce the cost of each individual part, while allowing more complex star-bus networks to route information around multiple
piconets (ad hoc network of one master and seven slaves).
6.7 Web Service Integration - the ability for small Bluetooth low energy wireless devices to send a small quantity of data to a web service is vital for a large number of use cases. This enables weighing scales to automatically send data to your weight loss website (via the mobile phone), allowing you to check on your progress over time, using the best possible user interface.
6.8 Fast Connections “ the time it takes to make a connection, and send some data is very important to reduce battery life. A target of 3 ms was set, and has been met by Bluetooth
low energy technology. This means that a device can wake up, connect and send some application data, and then disconnect again within 3 ms. This uses the lowest amount of energy, while also having the fastest possible transmission of event based data.
6.9 Interoperable Sensors “ a consumer electronics based specification will always favour interoperability over proprietary solutions. The profiles that have been created for health and fitness, medical and automation markets enable the creation of fully interoperable devices. This means that if you buy a pair of weighing scales, or a Bluetooth low energy enabled heart rate strap, they will always interoperate with devices, regardless of the manufacturer of the various devices. This interoperability is tested via the unique Bluetooth qualification program.
DEMERITS
Data transmission is very slow, i.e. only 1Megabit per second
Cannot be used in high bandwidth required applications

7. CONCLUSION
Taking all of these factors together, Wibree has the potential to transform consumer devices. It will solve the technology and monitoring issues that are currently hindering the adoption of wireless healthcare services and enable a whole new generation of lifestyle, monitoring and safety products. By making the mobile handset the gateway, it brings the network operators into the equation. And they have the resources to aggregate and enable service provision.
Today Wibree is a Nokia solution. However, it is being supported by the major Bluetooth chip vendors including Cambridge Silicon Radio and Broadcom. That means it will reside within the chips in almost every brand of handset. It is unlikely that other phone vendors will not take advantage of its presence, not least because it offers the network operators an additional revenue stream. Its presence will make it very difficult for any other short range, low power wireless technology to gain traction in the handset, ensuring that Wibree is placed to own the wireless healthcare market.
It may not become the accepted acronym, but Wibree will enable C2M - Consumer to Machine or Consumer to Middleware applications at a price point that makes them mass market. M2M is only just beginning to deliver against its promises. Wibree may result in C2M delivering an even larger promise in a shorter timescale.

8. BIBLIOGRAPHY
Reference links:
[1] ieee.org
[2] ezurio.com
[3]wibree.com
[4] bluetooth.com
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20-04-2010, 04:07 PM


Presented By:
Nick Hunn
CTO - Ezurio Ltd

The recent announcement of the Wibree standard by Nokia seems to have caught the industry unawares. The initial response of many analysts and much of the media has been to categorise it as yet another competitor in the 2.4 GHz space. A significant number have announced that it obviously just a Bluetooth killer. Nothing could be further from the truth. One of the most important aspects of Wibree is that it envisages dual-mode chips that can support both Bluetooth and Wibree. This symbiotic existence is key to Wibreeâ„¢s market success. There will also be single-mode Wibree chips that offer low power operation, which will enable a wide range of devices to talk to these dual mode chips. Every wireless standard faces a problem of achieving a critical mass of nodes if it is going to enable mass market applications. Wi-Fi managed this on the back of laptops, Bluetooth managed it on the back of mobile phones. So far none of the other prospective short range wireless technologies have found a platform that will give them critical mass within the market place. The design of Wibree is particularly cunning as it builds in a route to mass deployment. Because the bulk of Bluetooth chips shipped by Christmas 2008 will include Wibree dual-mode functionality, effectively for free, it means that by the end of 2009 there could be over 100 million Wibree enabled handsets in existence. It is a strategy that means Wibree will redefine the speed at which a new wireless technology can be rolled out into the market. If we look back over the last fifty years, it typically took years for new technologies to reach their first million products in the field. It took the colour TV eight years to reach the million mark. The PC was faster, at 28 months, the Palm Pilot set a new record at 9 months. That record for consumer products was shattered by the iPod, which took just 17 days. Wireless technologies have had even slower gestations. From the first to the millionth 802.11 chip took a leisurely 4 years. Bluetooth did better, but was still a slow starter taking 17 months from the first product to the millionth one, although it proved exceptionally active since that point, taking just another 5 years to get to the billion mark. All existing records, both in consumer goods and wireless technologies are set to be overturned when Wibree leaves the starting blocks. Because of the fact that it will be integrated inside Bluetooth chips, it is likely to reach that one million shipment milestone in just one week. That combination of Wibree within a Bluetooth chip is vitally important in understanding its place and the role that it can fulfil. Because low power, personal Wibree devices will be able to communicate with handsets, it means that in time every mobile phone becomes a Wibree gateway to the mobile network. So every Wibree device can communicate with the internet, allowing information to be sent backwards and forwards. And because the data rates are low, the cost of this data transfer will be a negligible portion of the userâ„¢s monthly phone contract. That paradigm change will enable a wide range of additional services that today are just too expensive for widespread deployment.



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.ppt   wibree-presentation.ppt (Size: 947 KB / Downloads: 159)

WIBREE


Presented By:
SUBHAM NARAYAN

[b]
CONNECTIVITY
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.doc   WIBREE.doc (Size: 525.5 KB / Downloads: 155)

Presented by
SUBHAM NARAYAN
Department of Electronics and Communication Engg.
AMC ENGINEERING COLLEGE
BANGALORE- 560083
2009 - 10

ABSTRACT

1. INTRODUCTION ON WIBREE

Now a days the wireless technologies are more in use and are widely evolving. Some of the technologies now in use are Wi-Fi, Wi-max, Zigbee, and Bluetooth.Out of which Bluetooth is most popular. These technologies are widely used to connect the large devices like mobile phones or personal computers. No other existing wireless technologies will connect with small button cell battery devices so effectively. So the Nokia introduced the new radio technology called Wibree.
Wibree is a digital radio technology (intended to become an open standard of wireless communications) designed for ultra low power consumption (button cell batteries) within a short range (10 meters / 30 ft) based around low-cost transceiver microchips in each device.[1] As of June, 2007 Wibree is known as Bluetooth ultra low power, in 2008 renamed Bluetooth low energy.
Wibree is a new radio technology developed by Nokia. It consumes only a fraction of the power compared to other such radio technologies, enabling smaller and less costly implementations and it is easy to integrate with Bluetooth solutions. In 2001, Nokia researchers determined that there were various scenarios that contemporary wireless technologies did not address. To address the problem, Nokia Research Center started the development of a wireless technology adapted from the Bluetooth standard which would provide lower power usage and price while minimizing difference between Bluetooth and the new technology. The results were published in 2004 using the name Bluetooth Low End Extension.[1] After further development with partners, e.g., within EU FP6 project and implimentation MIMOSA, the technology was released to public in October 2006 with brand name Wibree.[2] After negotiations with Bluetooth SIG members, in June 2007, an agreement was reached to include Wibree in future Bluetooth specification as an Bluetooth ultra-low-power technology, now known as Bluetooth low energy technology

1. HISTORY

Around 2001, the Nokia Research Center was looking at options for future personal wireless networking. The company realized that there was room for developing an ultra-low power, wireless technology that could interface cost-effectively with a large variety of existing and future devices, which, until now had not been effectively served by available existing technologies. Towards this end, Nokia decided to create a new open wireless protocol, and now, along with its partners Broadcom Corporation, CSR, Epson, and Nordic Semiconductor, is working to bring it to market.
While the Wibree protocol is currently under development and should be ready by mid 2007, the availability of the Wibree chip depends upon the semiconductor manufacturers' schedules. Wibree is similar in many respects to the now prevalent Bluetooth standard. Both use the 2.45 GHz band to transfer data and have a 1 Mbps transfer rate (although the newer Bluetooth 2.0 standard already incorporates a 3.0 Mbps transfer rate) and a rage of about 10 meters (m). The two complementary technologies differ in size, price, and most of all power consumption. Wibree would use only a fraction of the power consumed by today's Bluetooth chips, resulting in a much longer battery life and more compact devices. While Bluetooth can be used to transmit audio and media files, Wibree is designed to extend this network by serving applications that transmit only small amounts of data and where size and cost are priorities. Many applications that were not cost-effective using existing Bluetooth technology, such as wirelessly controlled toys, watches, medical and sports sensors, and a range of other applications that have not been conceived yet, might be developed using Wibree technology.
Nokia aeon phone concept -
future mobile phones will
include Wibree (Credit: Nokia)
FIG:1
There will be two types of Wibree implementations
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08-06-2010, 09:10 PM

hey please read topicideashow-to-bluetooth-a-revolution-in-communication-technology-download-full-seminar and presentation-report and topicideashow-to-bluetooth-technology-in-wireless-communications-full-report and topicideashow-to-bluetooth-technology-paper-presentation and topicideashow-to-wibree for getting more information of blue tooth and related technology
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thankyou very much for the seminar and presentation report..... its a great help
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thank you so much sir for helping me about wibree.
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INTRODUCTION



Now a days the wireless technologies are more in use and are widely evolving. Some of the technologies now in use are Wi-Fi, Wi-max, Zigbee, Bluetooth……. Out of which Bluetooth is most popular. These technologies are widely used to connect the large devices like mobile phones or personal computers. No other existing wireless technologies will connect with small button cell battery devices so effectively. So the Nokia introduced the new radio technology called Wibree.


Here is the new power point presentation of WIBREE,please check this...
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06-10-2010, 02:11 PM

Presentation by:
SUBHAM NARAYAN



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thank you very much for wibree topic.
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25-02-2011, 04:24 PM

I am absolutely admit that all you said but the things Shari is pointing toward are most important part.
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