26-06-2012, 12:22 PM
NOKIA MORPH CONCEPT ON NANOTECHNOLOGY: CHANGING THE FUTURE OF COMMUNICATION
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ABSTRACT
Nanotechnology…most of us know very well this word, in present scenario there are many problem around world…but according to all scientist simple solution is nanotechnology…
So here I discuss about the nanotechnology. Nanotechnology, which is sometimes shortened to "Nanotech", refers to a field whose theme is the control of matter on an atomic and molecular scale. Generally nanotechnology deals with structures of the size 100 nanometres or smaller, and involves developing materials or devices within that size.
Now we comes to its future. nobody can predict the future of anything…but researches and report are those things which clear the present, past and future status of any technology…
Nanotechnology is extremely diverse, ranging from novel extensions of conventional device physics, to completely new approaches based upon molecular self-assembly, to developing new materials with dimensions on the nanoscale , even to speculation whether we can there has been much debate on the future of implications of nanotechnology. On the other hand, nanotechnology raises many of the same issues as with any introduction of new technology, including concerns about the toxicity and environmental impact of nanomaterials, and their potential effects on global economics, as well as speculation about various doomsda scenarios.
Now here I am discussing some concept which is based on nanotechnology and which will change the future scenario…
Morph Concept- Morphing is a special affect in motion pictures and animations that changes (or morphs) one image into another through a seamless transition. But here we are talking about the morph technology in nanotechnology refers for nokia future strategy for their new invention with University of Cambridge.
Morph concept technologies might create fantastic opportunities for mobile devices:
Newly-enabled flexible and transparent materials blend more seamlessly with the way we live
Devices become self-cleaning and self-preserving
Transparent electronics offering an entirely new aesthetic dimension
Built-in solar absorption might charge a device, whilst batteries become smaller, longer lasting and faster to charge
www.studygalaxy.com
Integrated sensors might allow us to learn more about the environment around us, empowering us to make better choices
KEYWORDS- INTRODUCTION, Morph: reshaping phones of the future, Nanoscience and the Mobile Device: The Vision, The Mobile Gateway, and The WORK.
INTRODUCTION- World-changing telecommunications research projects centered on nanotechnology will be the initial focus of a major new research group at the University of Cambridge West Cambridge site.
Nokia and the University of Cambridge signed an agreement at a meeting in Helsinki to work together on an extensive and long-term programme of joint research projects. Nokia Research Center (NRC) will collaborate with several departments - initially the Nanoscience Centre and the Electrical Division of Engineering - on projects that, to begin with, will be centered on nanotechnology.
Commenting on the agreement, Professor Ian Leslie, Pro-Vice-Chancellor for Research at the University, said: "This collaboration both recognizes and enhances Cambridge's global reputation for excellence in science and technology research. One of the greatest advantages to the University is the opportunity to work closely with a recognized worldwide leader in technology products and applications on 'real world' challenges and initiatives."
Nokia will initially base around ten people at Cambridge. The agreement is intended to be long-term and the number of Nokia researchers at the University is set to rise over time.
Commenting on the agreement, Dr. Bob Iannucci, Nokia Senior Vice President and Head of NRC, said: "This is the third partnership with a world-leading research institution NRC has announced in the last eighteen months. Such open collaboration is central to NRC's strategy, because it enables us to bring together some of the leading researchers in our fields of interest and to benefit from each other's different backgrounds and perspective.
"Cambridge and Nokia share a common belief in the ability of nanotechnology to deliver products and applications of tangible value to people," commented Professor Mark Welland, director of the IRC (Interdisciplinary Research Collaboration) in Nanotechnology at Cambridge. "The fact that we also share a common commitment to the responsible introduction of nanotechnology into the public arena adds a further unique dimension to this collaboration."
Dr. Tapani Ryhanen heads Nokia global research in the nanotechnology area, and will lead Nokia's collaboration with Cambridge. He added: "Nanotechnology long ago left science fiction movies for the laboratory and, more recently, we saw the first commercial applications. The techniques we are developing really bring us a toolkit for working with the processes of nature at a very basic level - the level of molecules - in a safe and controlled way."
The site has long been home to the renowned Cavendish Laboratories, the Veterinary School and the Whittle Laboratories. Also long established at West Cambridge are British Antarctic Survey, Schlumberger Cambridge Research, Aveva Group plc (formerly Cad Centre) and the Hitachi Cambridge Laboratory.
Academic development is focused on the physical sciences and technology. More recent completions have been the Nanoscience Centre and Centre for Advanced Photonics and Electronics (Electrical Engineering).
Interacting closely with all Nokia business groups and Technology Platforms, Nokia Research Center is responsible for the strategic and long-term research in Nokia. Looking beyond current product development, the Research Center challenges current strategies and drives Nokia's renewal through long-term technology exploration. Nokia Research Center participates in the standardization work and various international R&D projects in cooperation with universities and research institutes. Nokia Research Center employs about 950 people and has activities in Finland, USA, Germany, Hungary, China and Japan. For more information on Nokia Research Center, see the link above right.
Nokia is a world leader in mobile communications, driving the growth and sustainability of the broader mobility industry. Nokia connects people to each other and the information that matters to them with easy-to-use and innovative products like mobile phones, devices and solutions for imaging, games, media and businesses. Nokia provides equipment, solutions and services for network operators and corporations.
MORPH: RESHAPING PHONE OF FUTURE- A joint nanotechnology partnership between the University of Cambridge and Nokia has unveiled its concept for the future of mobile.
Flexible, stretchable, foldable, self-cleaning and solar-chargeable: this is the new Morph design concept for the mobile devices of tomorrow that was launched in February at The Museum of Modern Art in New York City. Based on the latest nanotechnology and sensor research, the Morph design showcases the revolutionary leaps being explored by Nokia Research Centre (NRC) in collaboration with Cambridge Nanoscience Centre, part of the Department of Engineering.
Nanoscale technologies lend themselves to the manufacture of incredibly strong yet flexible materials with such a degree of elasticity that devices can literally change shape to adapt to the task at hand. Nanostructured surfaces repel water and dirt, and in-built nanosensors have the potential to allow users to examine the environment around them in completely new ways.
Nanoscience and the Mobile Device: The Vision-
Why has a video about nanotechnology received more than 2.3 million views on You Tube? The star of the show is called Morph, and its appeal is undeniable: a wearable device that changes shape, detects toxins on your food, draws power from the sun, and repels a drop of honey. Morph isn’t a product you can buy tomorrow, but it isn’t science fiction either. Nokia created the Morph video to illustrate a collective vision for the mobile device of the future—a vision that is driving Nokia’s research efforts in nanoscience and nanotechnologies.
The Mobile Gateway-
Think of Morph as a snapshot of a new kind of mobility, made possible by a personal device that intelligently bridges local and global information. By sensing ambient elements, physical objects, and your individual context, the device adapts its form factor and functionality accordingly. It connects automatically to global services and communities, transmitting local data and returning context-relevant information in real time.
Very compliant, very human, this tiny device is transparent to your daily activities. It conforms to the variety of your require¬ments—there’s no need to deviate from your usual behavior. You’re always on and always connected to a range of objects and services not yet imagined.
The mobile device works at the centre of your everyday life, interconnecting local intelligence—temperature changes, air pollution, your heart rate—with needed information and services.
You Can’t Get There from Here
Combining so much capability with true mobility results in a list of steep demands. A self-configuring unit that can learn its context—and adapt instantly—presents severe challenges for sensor technologies. Vastly more efficient computing solutions are required to minimize power consumption. And new materials and fabrication methodologies are needed to produce a robust, self-healing device that can operate for days under rough conditions.
How can we surmount the barriers? We need new architectures and models for integrating cognitive and system components. We need to push far beyond current technologies and current ways of thinking about electronics design and material science. (Even Moore admits we’re nearing the limits of his eponymous law.)
Enter nanoscience. “There’s plenty of room at the bottom,” Richard Feynman proposed in 1959, and that’s exactly where Nokia is looking for breakthroughs. By engaging in deep, far-reaching research in nanotechnologies—and with the mobile gateway as the guiding vision—Nokia is working to discover surprising solutions for energy efficiency, learning and adaptively, and durable structures and materials.
What’s behind Morph?
When New York’s Museum of Modern Art invited Nokia to participate in its exhibition “Design and the Elastic Mind,” the answer was Morph. Morph featured in the exhibition catalogue and on the MoMA website.
The Morph video demonstrates how advances in nanoscience might shape the future of mobility. In fact, all of the elements of Morph reflect real projects in Nokia labs. To view the video, go to You Tube and search “Nokia Morph.”
THE WORK-In the ongoing race to make phones smaller, thinner, stronger, and increasingly functional, Nokia is already beginning to apply nanotechnologies. But to deliver a product like Morph is an entirely different story. How do we make sure the right work is happening?
Our challenge is to understand technologies today that will still make sense in 2015 or 2020—especially as new technologies lead to sometimes surprising applications. Given a lead time of 10 to 15 years for a solution like the mobile gateway device, our work is well under way. Following are examples of areas of investigation that may support Nokia’s mobile gateway vision.
Sensors and Sensing Everywhere
Sensors integrated into future devices will construct a complete awareness of the user context—both personal and environmen¬tal—enabling an appropriate and intelligent response.
[attachment=25546]
ABSTRACT
Nanotechnology…most of us know very well this word, in present scenario there are many problem around world…but according to all scientist simple solution is nanotechnology…
So here I discuss about the nanotechnology. Nanotechnology, which is sometimes shortened to "Nanotech", refers to a field whose theme is the control of matter on an atomic and molecular scale. Generally nanotechnology deals with structures of the size 100 nanometres or smaller, and involves developing materials or devices within that size.
Now we comes to its future. nobody can predict the future of anything…but researches and report are those things which clear the present, past and future status of any technology…
Nanotechnology is extremely diverse, ranging from novel extensions of conventional device physics, to completely new approaches based upon molecular self-assembly, to developing new materials with dimensions on the nanoscale , even to speculation whether we can there has been much debate on the future of implications of nanotechnology. On the other hand, nanotechnology raises many of the same issues as with any introduction of new technology, including concerns about the toxicity and environmental impact of nanomaterials, and their potential effects on global economics, as well as speculation about various doomsda scenarios.
Now here I am discussing some concept which is based on nanotechnology and which will change the future scenario…
Morph Concept- Morphing is a special affect in motion pictures and animations that changes (or morphs) one image into another through a seamless transition. But here we are talking about the morph technology in nanotechnology refers for nokia future strategy for their new invention with University of Cambridge.
Morph concept technologies might create fantastic opportunities for mobile devices:
Newly-enabled flexible and transparent materials blend more seamlessly with the way we live
Devices become self-cleaning and self-preserving
Transparent electronics offering an entirely new aesthetic dimension
Built-in solar absorption might charge a device, whilst batteries become smaller, longer lasting and faster to charge
www.studygalaxy.com
Integrated sensors might allow us to learn more about the environment around us, empowering us to make better choices
KEYWORDS- INTRODUCTION, Morph: reshaping phones of the future, Nanoscience and the Mobile Device: The Vision, The Mobile Gateway, and The WORK.
INTRODUCTION- World-changing telecommunications research projects centered on nanotechnology will be the initial focus of a major new research group at the University of Cambridge West Cambridge site.
Nokia and the University of Cambridge signed an agreement at a meeting in Helsinki to work together on an extensive and long-term programme of joint research projects. Nokia Research Center (NRC) will collaborate with several departments - initially the Nanoscience Centre and the Electrical Division of Engineering - on projects that, to begin with, will be centered on nanotechnology.
Commenting on the agreement, Professor Ian Leslie, Pro-Vice-Chancellor for Research at the University, said: "This collaboration both recognizes and enhances Cambridge's global reputation for excellence in science and technology research. One of the greatest advantages to the University is the opportunity to work closely with a recognized worldwide leader in technology products and applications on 'real world' challenges and initiatives."
Nokia will initially base around ten people at Cambridge. The agreement is intended to be long-term and the number of Nokia researchers at the University is set to rise over time.
Commenting on the agreement, Dr. Bob Iannucci, Nokia Senior Vice President and Head of NRC, said: "This is the third partnership with a world-leading research institution NRC has announced in the last eighteen months. Such open collaboration is central to NRC's strategy, because it enables us to bring together some of the leading researchers in our fields of interest and to benefit from each other's different backgrounds and perspective.
"Cambridge and Nokia share a common belief in the ability of nanotechnology to deliver products and applications of tangible value to people," commented Professor Mark Welland, director of the IRC (Interdisciplinary Research Collaboration) in Nanotechnology at Cambridge. "The fact that we also share a common commitment to the responsible introduction of nanotechnology into the public arena adds a further unique dimension to this collaboration."
Dr. Tapani Ryhanen heads Nokia global research in the nanotechnology area, and will lead Nokia's collaboration with Cambridge. He added: "Nanotechnology long ago left science fiction movies for the laboratory and, more recently, we saw the first commercial applications. The techniques we are developing really bring us a toolkit for working with the processes of nature at a very basic level - the level of molecules - in a safe and controlled way."
The site has long been home to the renowned Cavendish Laboratories, the Veterinary School and the Whittle Laboratories. Also long established at West Cambridge are British Antarctic Survey, Schlumberger Cambridge Research, Aveva Group plc (formerly Cad Centre) and the Hitachi Cambridge Laboratory.
Academic development is focused on the physical sciences and technology. More recent completions have been the Nanoscience Centre and Centre for Advanced Photonics and Electronics (Electrical Engineering).
Interacting closely with all Nokia business groups and Technology Platforms, Nokia Research Center is responsible for the strategic and long-term research in Nokia. Looking beyond current product development, the Research Center challenges current strategies and drives Nokia's renewal through long-term technology exploration. Nokia Research Center participates in the standardization work and various international R&D projects in cooperation with universities and research institutes. Nokia Research Center employs about 950 people and has activities in Finland, USA, Germany, Hungary, China and Japan. For more information on Nokia Research Center, see the link above right.
Nokia is a world leader in mobile communications, driving the growth and sustainability of the broader mobility industry. Nokia connects people to each other and the information that matters to them with easy-to-use and innovative products like mobile phones, devices and solutions for imaging, games, media and businesses. Nokia provides equipment, solutions and services for network operators and corporations.
MORPH: RESHAPING PHONE OF FUTURE- A joint nanotechnology partnership between the University of Cambridge and Nokia has unveiled its concept for the future of mobile.
Flexible, stretchable, foldable, self-cleaning and solar-chargeable: this is the new Morph design concept for the mobile devices of tomorrow that was launched in February at The Museum of Modern Art in New York City. Based on the latest nanotechnology and sensor research, the Morph design showcases the revolutionary leaps being explored by Nokia Research Centre (NRC) in collaboration with Cambridge Nanoscience Centre, part of the Department of Engineering.
Nanoscale technologies lend themselves to the manufacture of incredibly strong yet flexible materials with such a degree of elasticity that devices can literally change shape to adapt to the task at hand. Nanostructured surfaces repel water and dirt, and in-built nanosensors have the potential to allow users to examine the environment around them in completely new ways.
Nanoscience and the Mobile Device: The Vision-
Why has a video about nanotechnology received more than 2.3 million views on You Tube? The star of the show is called Morph, and its appeal is undeniable: a wearable device that changes shape, detects toxins on your food, draws power from the sun, and repels a drop of honey. Morph isn’t a product you can buy tomorrow, but it isn’t science fiction either. Nokia created the Morph video to illustrate a collective vision for the mobile device of the future—a vision that is driving Nokia’s research efforts in nanoscience and nanotechnologies.
The Mobile Gateway-
Think of Morph as a snapshot of a new kind of mobility, made possible by a personal device that intelligently bridges local and global information. By sensing ambient elements, physical objects, and your individual context, the device adapts its form factor and functionality accordingly. It connects automatically to global services and communities, transmitting local data and returning context-relevant information in real time.
Very compliant, very human, this tiny device is transparent to your daily activities. It conforms to the variety of your require¬ments—there’s no need to deviate from your usual behavior. You’re always on and always connected to a range of objects and services not yet imagined.
The mobile device works at the centre of your everyday life, interconnecting local intelligence—temperature changes, air pollution, your heart rate—with needed information and services.
You Can’t Get There from Here
Combining so much capability with true mobility results in a list of steep demands. A self-configuring unit that can learn its context—and adapt instantly—presents severe challenges for sensor technologies. Vastly more efficient computing solutions are required to minimize power consumption. And new materials and fabrication methodologies are needed to produce a robust, self-healing device that can operate for days under rough conditions.
How can we surmount the barriers? We need new architectures and models for integrating cognitive and system components. We need to push far beyond current technologies and current ways of thinking about electronics design and material science. (Even Moore admits we’re nearing the limits of his eponymous law.)
Enter nanoscience. “There’s plenty of room at the bottom,” Richard Feynman proposed in 1959, and that’s exactly where Nokia is looking for breakthroughs. By engaging in deep, far-reaching research in nanotechnologies—and with the mobile gateway as the guiding vision—Nokia is working to discover surprising solutions for energy efficiency, learning and adaptively, and durable structures and materials.
What’s behind Morph?
When New York’s Museum of Modern Art invited Nokia to participate in its exhibition “Design and the Elastic Mind,” the answer was Morph. Morph featured in the exhibition catalogue and on the MoMA website.
The Morph video demonstrates how advances in nanoscience might shape the future of mobility. In fact, all of the elements of Morph reflect real projects in Nokia labs. To view the video, go to You Tube and search “Nokia Morph.”
THE WORK-In the ongoing race to make phones smaller, thinner, stronger, and increasingly functional, Nokia is already beginning to apply nanotechnologies. But to deliver a product like Morph is an entirely different story. How do we make sure the right work is happening?
Our challenge is to understand technologies today that will still make sense in 2015 or 2020—especially as new technologies lead to sometimes surprising applications. Given a lead time of 10 to 15 years for a solution like the mobile gateway device, our work is well under way. Following are examples of areas of investigation that may support Nokia’s mobile gateway vision.
Sensors and Sensing Everywhere
Sensors integrated into future devices will construct a complete awareness of the user context—both personal and environmen¬tal—enabling an appropriate and intelligent response.