Red Tacton is a new technology developed by NTT that uses the human body as a communication network. It induces a weak electric field on the skin's surface to transmit data at speeds up to 10 Mbps. The transmitter induces fluctuations in the body's electric field while the receiver detects these changes using a photonic sensor. Red Tacton has applications for intuitive device connections, secure authentication, and personalized services simply through touch. It provides a more natural way to exchange data compared to traditional wireless technologies.
1. Mobile IP allows mobile devices like laptops and phones to change their point of attachment to the internet while maintaining the same IP address. It uses home and foreign agents and tunneling to redirect traffic to the mobile device's current location.
2. Key entities in Mobile IP include the mobile node, home agent, and foreign agent. The home agent intercepts traffic for the mobile node and tunnels it to the foreign agent near the mobile node.
3. The mobile IP process involves agent discovery, registration of the mobile node's location with its home and foreign agent, and tunneling of traffic by the home agent to the mobile node's current location.
The document describes RedTacton, a new human area networking technology developed by NTT that uses weak electric fields on the human body as a transmission medium. It allows for high-speed communication of up to 10 Mbps between any two points on the body through devices like transceivers. The technology works by inducing a weak electric field from a transmitter and detecting changes in this field using a photonic electric field sensor at the receiver. RedTacton has applications in areas like one-to-one personalized services, intuitive device operation, and device personalization where touching a device can transfer user configuration data to it.
RedTacton is a new technology that uses the human body as a wireless transmission path for data. It works by transmitting signals across the body's electric field. Previous intra-body communication methods had limited range and speed, but RedTacton provides high-speed transmission without deteriorating over distance. It could enable applications like touch-based printing, sharing between devices with a handshake, and unlocking doors with a touch. RedTacton provides more secure communication than other short-range wireless as it is difficult for signals to be intercepted.
This document is a seminar report on TCP/IP submitted to Rajasthan Technical University. It begins with an acknowledgment thanking those who helped in preparing the report. The contents section provides an outline of the report, which includes an abstract, introduction to TCP/IP, basics of TCP/IP including its origin and functions, TCP/IP architecture describing how data flows through layers, acronyms of important terms, and a conclusion.
Google Cardboard is a virtual reality platform developed by Google that allows users to place their smartphone into a cardboard viewer and experience virtual reality content. It uses simple and inexpensive materials like cardboard, lenses, magnets or tape. Users download a compatible app to their smartphone, insert it into the cardboard viewer, and can view VR content in a stereoscopic 3D environment. Google has released multiple versions of Cardboard with improved compatibility and features. It supports content from apps and platforms like YouTube and Expeditions, Google's VR experience for students.
Red Tacton is a new human area network technology developed by Japanese company NTT that uses weak electric fields on the surface of the human body for high-speed network transmission. It works by creating changes in electric fields from a transmitting transceiver that are received by a sensing receiving transceiver. Data transfer is faster and more secure compared to other technologies, though it has a limited range of a few centimeters and is more costly. Potential applications include touch-based controls and transferring various media types through the human body.
Red Tacton is a new technology developed by NTT that uses the human body as a communication network. It induces a weak electric field on the skin's surface to transmit data at speeds up to 10 Mbps. The transmitter induces fluctuations in the body's electric field while the receiver detects these changes using a photonic sensor. Red Tacton has applications for intuitive device connections, secure authentication, and personalized services simply through touch. It provides a more natural way to exchange data compared to traditional wireless technologies.
1. Mobile IP allows mobile devices like laptops and phones to change their point of attachment to the internet while maintaining the same IP address. It uses home and foreign agents and tunneling to redirect traffic to the mobile device's current location.
2. Key entities in Mobile IP include the mobile node, home agent, and foreign agent. The home agent intercepts traffic for the mobile node and tunnels it to the foreign agent near the mobile node.
3. The mobile IP process involves agent discovery, registration of the mobile node's location with its home and foreign agent, and tunneling of traffic by the home agent to the mobile node's current location.
The document describes RedTacton, a new human area networking technology developed by NTT that uses weak electric fields on the human body as a transmission medium. It allows for high-speed communication of up to 10 Mbps between any two points on the body through devices like transceivers. The technology works by inducing a weak electric field from a transmitter and detecting changes in this field using a photonic electric field sensor at the receiver. RedTacton has applications in areas like one-to-one personalized services, intuitive device operation, and device personalization where touching a device can transfer user configuration data to it.
RedTacton is a new technology that uses the human body as a wireless transmission path for data. It works by transmitting signals across the body's electric field. Previous intra-body communication methods had limited range and speed, but RedTacton provides high-speed transmission without deteriorating over distance. It could enable applications like touch-based printing, sharing between devices with a handshake, and unlocking doors with a touch. RedTacton provides more secure communication than other short-range wireless as it is difficult for signals to be intercepted.
This document is a seminar report on TCP/IP submitted to Rajasthan Technical University. It begins with an acknowledgment thanking those who helped in preparing the report. The contents section provides an outline of the report, which includes an abstract, introduction to TCP/IP, basics of TCP/IP including its origin and functions, TCP/IP architecture describing how data flows through layers, acronyms of important terms, and a conclusion.
Google Cardboard is a virtual reality platform developed by Google that allows users to place their smartphone into a cardboard viewer and experience virtual reality content. It uses simple and inexpensive materials like cardboard, lenses, magnets or tape. Users download a compatible app to their smartphone, insert it into the cardboard viewer, and can view VR content in a stereoscopic 3D environment. Google has released multiple versions of Cardboard with improved compatibility and features. It supports content from apps and platforms like YouTube and Expeditions, Google's VR experience for students.
Red Tacton is a new human area network technology developed by Japanese company NTT that uses weak electric fields on the surface of the human body for high-speed network transmission. It works by creating changes in electric fields from a transmitting transceiver that are received by a sensing receiving transceiver. Data transfer is faster and more secure compared to other technologies, though it has a limited range of a few centimeters and is more costly. Potential applications include touch-based controls and transferring various media types through the human body.
The document discusses Google Cardboard and virtual reality (VR). Some key points:
- Cardboard was awarded the Cannes Lions Mobile Grand Prix for its innovative use of mobile technology. Over 1 million Cardboard units have been distributed worldwide since its 2014 debut.
- The Cardboard platform is open source and many companies have created their own Cardboard viewers. The Cardboard SDK allows for app development on Android and Unity.
- The document provides best practices and tips for creating VR content, such as using a reticle instead of a cursor, considering depth and eye strain, maintaining head tracking, leveraging scale through parallax effects, and utilizing spatial audio.
- Google Spotlight Stories creates high-quality
Mobile IP allows mobile nodes to change their point of attachment between IP networks while maintaining ongoing connections. It defines entities like mobile nodes, home agents, and foreign agents to facilitate IP packet delivery to the mobile node's current location. The key operations in Mobile IP are agent discovery, registration of the mobile node's new location with its home agent, and tunneling of packets from the home agent to the foreign agent or mobile node's care-of address.
A presentation given by Mark Billinghurst on September 23rd 2015 at the Sydney AR meet up. It describes how the VR space in 2016 will be different from that in 1996, and directions for future work to help grow the business.
Harsh Shah gives a presentation on Google Cardboard, an inexpensive DIY virtual reality headset made from cardboard and lenses. He explains that Cardboard uses a smartphone to provide the screen and sensors to create a basic VR experience. It comes with an open source software development kit to build immersive 3D apps. Shah demonstrates how to build a Cardboard headset, unfold it, and gives a live demo of using a VR app.
The document is a seminar report on Android and Android architecture. It discusses the history and introduction of Android, key aspects of the Android architecture including its layered design with the Linux kernel at the bottom and applications at the top, and describes Android versions, features, advantages, and disadvantages. It also covers the Open Handset Alliance and provides an overview of Android security.
Google Cardboard allows users to experience virtual reality through their smartphones by placing them in a cardboard viewer. It transforms Google Maps Street View into a virtual reality mode, letting users walk around places as if they were really there. While it provides an inexpensive way to try VR and more features may be added as Google expands its Cardboard team, it does not change the smartphone experience significantly or address comfort, and users may look ridiculous wearing the cardboard viewer.
Google Cardboard is an inexpensive virtual reality platform made of cardboard and used with a smartphone. It allows users to view VR experiences through a fold-out cardboard viewer for their phone. Official Google Cardboard viewers can be purchased for under $30, or viewers can be assembled at home using free DIY instructions. The platform works with both Android and iOS devices, and there are many VR apps available for both operating systems.
Google Cardboard EDU Workshop - Aumentame 2015Raúl Reinoso
Virtual reality has become more accessible with affordable options like Google Cardboard. Google Cardboard allows anyone to experience VR using only a cardboard viewer and their smartphone. It has various applications for education, from creating VR field trips to using VR for simulations and interactive learning experiences. While still limited by smartphone technology, Google Cardboard has helped introduce more people to VR and its potential for learning.
The document discusses Google Cardboard, a low-cost virtual reality headset developed by Google. It can turn smartphones into virtual reality displays. The cardboard headset contains lenses and magnets that allow users to view VR content on their phone through compatible apps. When placed in the headset, the phone's magnetometer detects button presses via magnet to control the VR experience. The headset allows users to explore various VR environments and experiences through apps like YouTube and Google Earth at a low price point, helping make VR more accessible.
This document provides an overview of Mobile IP, including its key requirements, terminology, and technical processes. Mobile IP allows devices to change networks without losing connectivity by updating their location through registration with a home agent. It aims to remain compatible with existing IP standards while providing transparency to higher-level applications and efficiency at scale. The document explains concepts such as home and foreign networks, care-of addresses, agents, registration, tunneling, and optimization techniques.
RedTacton is a human area networking technology that uses the human body as a transmission path for data. It works by using the electric field emitted by the human body and can achieve duplex communication at speeds up to 10 Mbps. RedTacton has receivers and transceivers that can initiate communication through touch and transmit data as electric fields are generated through natural body movements and interactions. It provides a more secure alternative to other short-range wireless technologies like Bluetooth and infrared.
RedTacton is a new human area networking technology that uses the human body as a transmission medium. It works by inducing weak electric fields on the skin's surface during contact between two devices. Data can be transmitted at speeds up to 10 Mbps without interference even in crowded areas. RedTacton communication is initiated with a touch and allows for interactive digital transfer of various media types through natural human movements and contact with surfaces like walls or desks. Potential applications include secure medical information transmission and safety alerts in hazardous environments.
Red Tacton is a new human area networking technology that uses the human body's electric field to transmit data wirelessly. It was developed by NTT in Japan in 2005 and allows for high-speed communication through touch. Red Tacton transceivers convert electric field changes on the body surface into signals using photonic sensors and electro-optic crystals. It provides intuitive, secure networking within a short range through basic human movements and interactions. While promising for applications requiring fast, convenient connections, Red Tacton is currently limited by range, cost, and lack of compelling uses.
The document discusses Google Cardboard and virtual reality (VR). Some key points:
- Cardboard was awarded the Cannes Lions Mobile Grand Prix for its innovative use of mobile technology. Over 1 million Cardboard units have been distributed worldwide since its 2014 debut.
- The Cardboard platform is open source and many companies have created their own Cardboard viewers. The Cardboard SDK allows for app development on Android and Unity.
- The document provides best practices and tips for creating VR content, such as using a reticle instead of a cursor, considering depth and eye strain, maintaining head tracking, leveraging scale through parallax effects, and utilizing spatial audio.
- Google Spotlight Stories creates high-quality
Mobile IP allows mobile nodes to change their point of attachment between IP networks while maintaining ongoing connections. It defines entities like mobile nodes, home agents, and foreign agents to facilitate IP packet delivery to the mobile node's current location. The key operations in Mobile IP are agent discovery, registration of the mobile node's new location with its home agent, and tunneling of packets from the home agent to the foreign agent or mobile node's care-of address.
A presentation given by Mark Billinghurst on September 23rd 2015 at the Sydney AR meet up. It describes how the VR space in 2016 will be different from that in 1996, and directions for future work to help grow the business.
Harsh Shah gives a presentation on Google Cardboard, an inexpensive DIY virtual reality headset made from cardboard and lenses. He explains that Cardboard uses a smartphone to provide the screen and sensors to create a basic VR experience. It comes with an open source software development kit to build immersive 3D apps. Shah demonstrates how to build a Cardboard headset, unfold it, and gives a live demo of using a VR app.
The document is a seminar report on Android and Android architecture. It discusses the history and introduction of Android, key aspects of the Android architecture including its layered design with the Linux kernel at the bottom and applications at the top, and describes Android versions, features, advantages, and disadvantages. It also covers the Open Handset Alliance and provides an overview of Android security.
Google Cardboard allows users to experience virtual reality through their smartphones by placing them in a cardboard viewer. It transforms Google Maps Street View into a virtual reality mode, letting users walk around places as if they were really there. While it provides an inexpensive way to try VR and more features may be added as Google expands its Cardboard team, it does not change the smartphone experience significantly or address comfort, and users may look ridiculous wearing the cardboard viewer.
Google Cardboard is an inexpensive virtual reality platform made of cardboard and used with a smartphone. It allows users to view VR experiences through a fold-out cardboard viewer for their phone. Official Google Cardboard viewers can be purchased for under $30, or viewers can be assembled at home using free DIY instructions. The platform works with both Android and iOS devices, and there are many VR apps available for both operating systems.
Google Cardboard EDU Workshop - Aumentame 2015Raúl Reinoso
Virtual reality has become more accessible with affordable options like Google Cardboard. Google Cardboard allows anyone to experience VR using only a cardboard viewer and their smartphone. It has various applications for education, from creating VR field trips to using VR for simulations and interactive learning experiences. While still limited by smartphone technology, Google Cardboard has helped introduce more people to VR and its potential for learning.
The document discusses Google Cardboard, a low-cost virtual reality headset developed by Google. It can turn smartphones into virtual reality displays. The cardboard headset contains lenses and magnets that allow users to view VR content on their phone through compatible apps. When placed in the headset, the phone's magnetometer detects button presses via magnet to control the VR experience. The headset allows users to explore various VR environments and experiences through apps like YouTube and Google Earth at a low price point, helping make VR more accessible.
This document provides an overview of Mobile IP, including its key requirements, terminology, and technical processes. Mobile IP allows devices to change networks without losing connectivity by updating their location through registration with a home agent. It aims to remain compatible with existing IP standards while providing transparency to higher-level applications and efficiency at scale. The document explains concepts such as home and foreign networks, care-of addresses, agents, registration, tunneling, and optimization techniques.
RedTacton is a human area networking technology that uses the human body as a transmission path for data. It works by using the electric field emitted by the human body and can achieve duplex communication at speeds up to 10 Mbps. RedTacton has receivers and transceivers that can initiate communication through touch and transmit data as electric fields are generated through natural body movements and interactions. It provides a more secure alternative to other short-range wireless technologies like Bluetooth and infrared.
RedTacton is a new human area networking technology that uses the human body as a transmission medium. It works by inducing weak electric fields on the skin's surface during contact between two devices. Data can be transmitted at speeds up to 10 Mbps without interference even in crowded areas. RedTacton communication is initiated with a touch and allows for interactive digital transfer of various media types through natural human movements and contact with surfaces like walls or desks. Potential applications include secure medical information transmission and safety alerts in hazardous environments.
Red Tacton is a new human area networking technology that uses the human body's electric field to transmit data wirelessly. It was developed by NTT in Japan in 2005 and allows for high-speed communication through touch. Red Tacton transceivers convert electric field changes on the body surface into signals using photonic sensors and electro-optic crystals. It provides intuitive, secure networking within a short range through basic human movements and interactions. While promising for applications requiring fast, convenient connections, Red Tacton is currently limited by range, cost, and lack of compelling uses.
Cardboard Picture Constructions to Enjoy Your Ideas
1. Cardboard Picture Constructions to Enjoy Your Ideas
Occasions pass, and what stays are simply the feelings. Therefore, wouldnt it if you're ready to savor
these views with buildings be superb? There are numerous cardboard snapshot houses that are
usedto guard the pictures comprising important thoughts of yesteryear. You may possibly not
struggle to utilize them to function another things that are valued like simply just a person picture or
images documents. Should you shop around, you will discover several types of buildings and
proportions that complement every certain impression, predicated on their description. Now you can
get dimension or any kind of cardboard components at cheaper cost online.
Contemplate purchasing the cardboard snapshot components while you might will often have them
whenever you buy-in mass when you are seeking to conserve some dough. You'll possibly qualify for
the large special discounts, plus some scenarios can be found in by shipment. Internet is the better
spot even to discover presents on cardboard picture frames or get. Additionally there is several
websites that function items from its own incredibly extreme for you offer outstanding savings
actually to find out trusted online retailers offering cheaper items or free shipping plus a number of
suppliers.
There is also 4x6 Trip cardboard image houses, with that you may show your pictures like a
professional company photographer. It's also possible to rapidly exhibit after they visit you-all
satisfaction and family occasions reviewed by friends and relatives throughout the Holiday
situations. You can order them online while in the numerous retailers. The cardboard photograph
components that are 5x7 is likewise used to exhibit personal photos, college or wedding or wedding
images household. They are able for showing encounters views and the satisfying activities to
actually be used.
Through in this manner, you are able to display a range of good and cherished situations for your
relatives and friends. There are many sites that function items from the quantity of sellers that
provide exceptional savings or free distribution. Individual items and the custom are a superb
solution when searching for anything unique to display accreditation or your pictures in a way that's
recognizable. Also, it features your impression of improvement and imagination.
A number of products' typical types that are various range from also, and the 8x10 photo frames
2. image files the 6x8 vacation cardboard picture frames. Each one of these several types of objects
can be utilized showing the great and remarkable instances that you just have spent along with
family unit members and your friends.