The surface of morph is super hydrophobic which makes it extremely dirt repellent. The concept consists of two parts – a wearable sensor unit which can sense and analyze our environment, health, and local weather conditions, and a dedicated mobile phone. Nanosensors construct a complete awareness of the user context-both personal and environmental enabling an appropriate and intelligent response. Energy Harvesting from RF using wideband antennas and Nems structures. We think you have liked this presentation. It demonstrates the ultimate functionality that nanotechnology might be capable of delivering i. Core requirements for this kind of ubiquitous ambient intelligence are that the devices are autonomous and robust.
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Nokia is exploiting these qualities to nokkia strain-based electromechanical transducers—ideal for touch-sensitive even direction-sensitive surfaces.
NFC Near Field Communication technology will relay information by touch from the sensors to the phone. Nanostructured surface known as nanoflowers that naturally repel water, dirt and even finger-prints is used here. The concept consists of two parts – a wearable sensor unit which can sense and analyze our environment, health, and local weather conditions, and a dedicated mobile phone. By coating a pppt silicon, glass, or PET with an array of these ZnO nanowires, the electrical signals on the surface can be activated by mechanical force.
Buttons on the device surface are real 3D forms. This visionary design concept is a mobile phone along with a compatible sensing device that will help us to stay connected to our friends and loved ones, as well as helps us to monitor our health and local environment.
Nokia Morph Technology Seminar Report
The surface of morph is superhydrophobic that makes it extremely dirt repellent. Enhanced energy harvesting and storage. To improve sensor and signal processing capabilities,Nokia introduced Nanowire Lithography. Latest Seminar Topics for Engineering Students. Published by Owen Francis Modified over 2 years ago.
Nokia Morph Technology Seminar PDF
Share buttons are a little bit lower. Nanotechnology enables materials and components that are flexible, stretchable, transparent and remarkably strong.
Core requirements for this kind of ubiquitous ambient intelligence are that the devices are autonomous and robust. Cambridge University Nanoscience Center.
Morph technical concept can develop mobile devices with some advantages: Intelligence, sensing, context awareness, and increased data rates require more memory and computing power, which together with the size limitations leads to severe challenges nokia morph technology seminar ppt thermal management.
In this paper we will give an overview of how nanotechnology can help to realize this vision, and in particular what is the impact for wireless communication technologies. Auth with social network: By sensing ambient elements, physical objects, and your individual context, the nokia morph technology seminar ppt adapts its form factor and functionality accordingly.
By integrating TRRAM device with other noka electronic components, we can create a total see-through embedded electronic system which became the major platform for Nokia Morph.
The surface of morph is super hydrophobic which makes it extremely dirt repellent. By integrating TRRAM device with other transparent electronic components, we se,inar create a total see-through embedded electronic system which became the major platform for Nokia morph technology.
Nokia Morph Technology Seminar Report
Fibril proteins are woven into a three dimensional mesh that reinforces thin elastic technolgy. Nanotechnology could provide solutions for sensing, actuation, radio, embedding intelligence into the environment, power efficient computing, memory, energy sources, human-machine interaction, materials, mechanics, manufacturing, and environmental issues.
It is intended to demonstrate the flexibility of future mobile devices, in regards to their shape and form allowing the users to transform them according to techonlogy preference. Nanosensors are used for this purpose and it empowers users to examine the environment around them in completely new ways, from analyzing air pollution, to gaining insight into bio-chemical traces and processes.