Red Tacton is a new technology for data transmission using the human body as a transmission medium. It works by inducing extremely weak electric fields on the surface of the body through a transmitter. These fields pass through the body and are detected by a receiver using an electro-optic crystal and laser light. This allows for high-speed transmission of up to 10 Mbit/s through surfaces of the body like hands or arms without needing direct contact. Communication is started when two Red Tacton devices are brought near each other and ends when they are separated. It has applications for areas like conferencing systems and security through transmission using natural movements and contacts with surfaces of the body.
RedTacton is a Human Area Networking technology/Wireless Network, which is developed by Robin Gaur Jind, that uses the surface of the human body as a safe, high speed network transmission path.
Red Tacton is a technology that allows for communication between devices through human contact using electric fields on the surface of the skin. It works on the principle that changes in a weak electric field induced on the human body can be sensed. A Red Tacton device consists of a transmitter that induces an electric field and a receiver that senses changes in the field. This allows for duplex communication at speeds up to 10 Mbps through touching any part of the body. Potential applications include controlling devices with touch and creating secure personal area networks through handshakes.
Advance communication through red tacton human area networking technology Pawan Sharma
WELCOME TO OUR PRESENTATION Its our great pleasure to presenting a paper at the NATIONAL CONFERENCE ON HUMAN COMPUTER INTERACTION IN ENGINEERING EDUCATION (NCHCIEE -2013) Organized by : Jahwaharlal institute of technology, borawa , dist khargone M.P Presented by : Mr. Pawan sharma Proff . Lokesh mehta Mr. Lokendre singh rathore (From SPITM, Mandleshwar dist khargone . M.p )
Advance Communication through Red Tacton -Human Area Networking Technology: Presented by : Mr. Pawan Sharma Proff . Lokesh mehta Mr. Lokendra Singh Rathore Advance Communication through Red Tacton -Human Area Networking Technology Dept. of Electronics & Communication
Bluetooth, infrared etc. were the most commonly used techniques for data transmission.
But these short-range wireless communication systems have some problems of packet collisions and it can be reduce by RED-TECTON.
The ultimate human area network solution to all these constraints of conventional technologies is “intra body” communication, in which the human body serves as the transmission medium.
Thanks to slideshare to allow me to share my part of happiness. And also thanks to science and Technology to give us a hand full of new technos where we can not only get updated but also share the same with others. For this 'REDTACTON' , I stood 1st in my final yr seminar. So hope this ppt not only keeps you updated but also helps you out to choose a new and hot topic of the present.All the best. Be different.. :)
Ubiquitous services that are genuinely user-friendly to everyone will require technologies that enable communication between people and objects in close proximity.
Focusing on the naturalness, inevitability, and sense of security conveyed by touching in everyday life, which describes Human area network that enables communication by touching, which we call RedTacton.
Here, the human body acts as a transmission medium supporting IEEE 802.3 half-duplex communication at 10Mbit/s. The key component of the transceiver is an electric-field sensor implemented with an electro optic crystal and laser light.
Power constraints play a key role in designing Human Area Networks (HANs) for biomonitoring. To alleviate the power constraints, we advocate a design that uses an asynchronous time encoding mechanisms for representing biomonitoring information and the skin surface as the communication channel.
Time encoding does not require a clock while allows perfect signal recovery; the communication channel is operated below 1 MHz. The ultimate human area network solution to all these constraints of conventional technologies is “intrabody” communication, in which the human body serves as the transmission medium.
The concept of intrabody communication, which uses the minute electric field propagated by the human body to transmit information, was first proposed by IBM [1]. The communication mechanism has subsequently been evaluated and reported by several research groups around the world.
RedTacton is a Human Area Networking technology/Wireless Network, which is developed by Robin Gaur Jind, that uses the surface of the human body as a safe, high speed network transmission path. It is completely distinct from wireless and infrared technologies as it uses the minute electric field emitted on the surface of the human body
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.
RedTacton is an innovative Human Area Networking technology that uses the human body as a transmission path for data. It transmits data through natural physical movements like touching or walking. RedTacton allows devices to communicate through the body at speeds over 10Mbps, faster than Bluetooth or infrared. It provides a more secure alternative to wireless technologies by using the body as the transmission medium instead of radio frequencies. Potential applications of RedTacton include connected cars, wireless headsets, touchscreens, and security systems that can unlock with a touch.
RedTacton is a Human Area Networking technology/Wireless Network, which is developed by Robin Gaur Jind, that uses the surface of the human body as a safe, high speed network transmission path.
Red Tacton is a technology that allows for communication between devices through human contact using electric fields on the surface of the skin. It works on the principle that changes in a weak electric field induced on the human body can be sensed. A Red Tacton device consists of a transmitter that induces an electric field and a receiver that senses changes in the field. This allows for duplex communication at speeds up to 10 Mbps through touching any part of the body. Potential applications include controlling devices with touch and creating secure personal area networks through handshakes.
Advance communication through red tacton human area networking technology Pawan Sharma
WELCOME TO OUR PRESENTATION Its our great pleasure to presenting a paper at the NATIONAL CONFERENCE ON HUMAN COMPUTER INTERACTION IN ENGINEERING EDUCATION (NCHCIEE -2013) Organized by : Jahwaharlal institute of technology, borawa , dist khargone M.P Presented by : Mr. Pawan sharma Proff . Lokesh mehta Mr. Lokendre singh rathore (From SPITM, Mandleshwar dist khargone . M.p )
Advance Communication through Red Tacton -Human Area Networking Technology: Presented by : Mr. Pawan Sharma Proff . Lokesh mehta Mr. Lokendra Singh Rathore Advance Communication through Red Tacton -Human Area Networking Technology Dept. of Electronics & Communication
Bluetooth, infrared etc. were the most commonly used techniques for data transmission.
But these short-range wireless communication systems have some problems of packet collisions and it can be reduce by RED-TECTON.
The ultimate human area network solution to all these constraints of conventional technologies is “intra body” communication, in which the human body serves as the transmission medium.
Thanks to slideshare to allow me to share my part of happiness. And also thanks to science and Technology to give us a hand full of new technos where we can not only get updated but also share the same with others. For this 'REDTACTON' , I stood 1st in my final yr seminar. So hope this ppt not only keeps you updated but also helps you out to choose a new and hot topic of the present.All the best. Be different.. :)
Ubiquitous services that are genuinely user-friendly to everyone will require technologies that enable communication between people and objects in close proximity.
Focusing on the naturalness, inevitability, and sense of security conveyed by touching in everyday life, which describes Human area network that enables communication by touching, which we call RedTacton.
Here, the human body acts as a transmission medium supporting IEEE 802.3 half-duplex communication at 10Mbit/s. The key component of the transceiver is an electric-field sensor implemented with an electro optic crystal and laser light.
Power constraints play a key role in designing Human Area Networks (HANs) for biomonitoring. To alleviate the power constraints, we advocate a design that uses an asynchronous time encoding mechanisms for representing biomonitoring information and the skin surface as the communication channel.
Time encoding does not require a clock while allows perfect signal recovery; the communication channel is operated below 1 MHz. The ultimate human area network solution to all these constraints of conventional technologies is “intrabody” communication, in which the human body serves as the transmission medium.
The concept of intrabody communication, which uses the minute electric field propagated by the human body to transmit information, was first proposed by IBM [1]. The communication mechanism has subsequently been evaluated and reported by several research groups around the world.
RedTacton is a Human Area Networking technology/Wireless Network, which is developed by Robin Gaur Jind, that uses the surface of the human body as a safe, high speed network transmission path. It is completely distinct from wireless and infrared technologies as it uses the minute electric field emitted on the surface of the human body
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.
RedTacton is an innovative Human Area Networking technology that uses the human body as a transmission path for data. It transmits data through natural physical movements like touching or walking. RedTacton allows devices to communicate through the body at speeds over 10Mbps, faster than Bluetooth or infrared. It provides a more secure alternative to wireless technologies by using the body as the transmission medium instead of radio frequencies. Potential applications of RedTacton include connected cars, wireless headsets, touchscreens, and security systems that can unlock with a touch.
RedTacton is a new technology developed by NTT that enables high-speed communication through human contact. It uses weak electric fields on the human body as a transmission medium, allowing data transfer through a simple touch. RedTacton relies on transreceivers that can create a communication channel when touching and detect signals programmed into other devices. It supports interactive broadband communication at speeds up to 10 Mbps and has applications for printing, data sharing, access control, and medical devices like insulin pumps. However, RedTacton is currently costly compared to other technologies.
This seminar discusses Red Tacton technology, a new human area networking technique developed by NTT that can transmit data through weak electric fields on the surface of the human body at speeds up to 10 Mbps. It relies on changes in the optical properties of electro-optic crystals caused by electric fields. Prototypes include PC card and hub transceivers. Red Tacton has advantages like wireless data transfer with just a touch and strong security since the human body is the transmission medium. However, its design is complex and expensive compared to other technologies.
One of the major issue in power system is the losses occurs during the transmission and distribution of electrical power. As the demand increases day by day, the power generation increases and the power loss is also increased. The major amount of power loss occurs during transmission and distribution. The percentage of loss of power during transmission and distribution is approximated as 26%. The main reason for power loss during transmission and distribution is the resistance of wires used for grid. The efficiency of power transmission can be improved to certain level by using high strength composite overhead conductors and underground cables that use high temperature super conductor. But, the transmission is still inefficient. According to the World Resources Institute (WRI), India’s electricity grid has the highest transmission and distribution losses in the world – a whopping 27%. Numbers published by various Indian government agencies put that number at 30%,40% and greater than 40%. This is attributed to technical losses (grid’s inefficiencies) and theft. Any problem can be solved by state of the art technology. The above discussed problem can be solvedby choose an alternative option for power transmission which could provide much higher efficiency, low transmission cost and avoid power theft. Microwave Power Transmission is one of the promising technologies and may be the righteous alternative for efficient power transmission.
This document describes a home automation system that allows users to control devices in their home from their mobile phone using Bluetooth. The system connects an Android phone to a microcontroller using a Bluetooth module. The user can then control electrical devices and appliances connected to relays through the microcontroller. This provides convenience and accessibility from anywhere. It also improves energy efficiency and security for homes.
The document discusses Red Tacton, a new human area networking technology developed in Japan. Red Tacton uses the human body as a transmission medium for data, inducing weak electric fields on the skin's surface to transmit signals up to 10 Mbps. It works by transmitting data via a tacton transmitter and receiving it using an electro-optic crystal sensor in the tacton receiver. The technology has applications for personal devices, security, and intuitive human-computer interaction through touch.
This document discusses e-paper technology, including its history, construction, properties, applications, and future potential. E-paper was first developed in 1974 and resembles ordinary paper but can hold text and images like an electronic display. It uses microcapsules containing charged white and black particles to switch between pixels and is flexible, low-power, and readable outdoors like paper. The document compares e-paper to LCD displays and outlines e-paper's advantages for uses in electronic books, newspapers, and mobile displays.
This ppt presentation is to develop a home automation system with a touch screen based control panel based on microcontroller
Edgefxkits.com has a wide range of electronic projects ideas that are primarily helpful for ECE, EEE and EIE students and the ideas can be applied for real life purposes as well.
http://www.edgefxkits.com/
Visit our page to get more ideas on popular electronic projects developed by professionals.
Edgefx provides free verified electronic projects kits around the world with abstracts, circuit diagrams, and free electronic software. We provide guidance manual for Do It Yourself Kits (DIY) with the modules at best price along with free shipping.
The document describes RedTacton, a new human area networking technology developed by NTT Lab in Japan. RedTacton uses the human body as a transmission path for data, transmitting at speeds of 10mbps using the minute electric fields generated by the body. It allows for touch-based communication and transmission of media between devices carried or embedded on the user. Potential applications include military and medical device security, access control, and media sharing between devices in close proximity to the body.
The document discusses electronic paper (e-paper) technology. It provides an overview of e-paper, including its history from development in the 1970s at Xerox PARC to current applications in e-readers, digital signs, and more. The document also describes several different technologies used to produce e-paper displays, such as Gyricon, electrophoretic, electrowetting, and others. It covers advantages like high contrast and low power consumption, as well as challenges like limited color reproduction.
This document provides an overview of electronic private automatic branch exchange (EPABX) systems. It discusses the history of PBX systems and how they have evolved from manual switchboards operated by telephone operators to modern digital and IP-based systems. It describes the typical components of an EPABX system, including the switching network, control cards, telephone stations, outside telephone trunk lines, and power supply. Current trends in EPABX technology include the adoption of voice over IP (VoIP) and ISDN systems. The document also briefly discusses the use of small EPABX systems in homes and small businesses.
This document discusses wireless power transmission (WPT) and compares microwave and laser transmission methods. It describes how a rectenna works to receive microwaves with 85% efficiency within 5km. Solar power satellites that transmit power via microwaves from space are also discussed, including their advantages over earth-based solar like constant sunlight. Current development of a low-cost Japanese demonstration project by 2025 and potential applications of WPT like electric vehicles are mentioned.
Photonics communication [communication application of nano technology]jayarajchinna
Photonics communication uses nano-sized particles and photonic crystals to route information using light instead of electrical signals. This allows information to be transmitted nearly instantaneously. The document discusses how nano-lasers and photonic band gaps can be used to control and direct photons for optical switching. Nanotechnology enables building devices that manipulate individual photons to route data at speeds approaching the speed of light through fiber optic networks.
This document provides an overview of Intel's Light Peak technology, which uses fiber optic cables to transmit data at speeds up to 10Gbps over distances of up to 100 meters. It describes the key components of Light Peak, including the optical fiber, light sources, light detectors, and packaging. Light Peak aims to replace existing connection standards like USB and PCIe with a single universal optical connection. It allows for thinner, more flexible cables while providing higher bandwidth than copper-based standards. The document discusses how Light Peak addresses challenges with existing technologies and compares it favorably to USB 3.0 in terms of speed and cable length.
The document is a technical seminar presentation on wireless power transmission technology by a student named K Sunita. It discusses the history of wireless power transmission from Nikola Tesla's experiments to modern implementations. It covers different wireless power transfer technologies like inductive coupling, resonant inductive coupling, microwave power transmission and their working principles. The advantages of wireless power transmission in reducing transmission losses and enabling power transfer to remote areas are highlighted. Applications like electric vehicle charging and consumer electronics are mentioned.
A Stratellite is a type of satellite that is stationed in the stratosphere at an altitude of about 13 miles, rather than in orbit. It can provide clear communications coverage to an entire metropolitan area as well as rural areas. Stratellites are airships that carry payloads and communication equipment. They can remain stationary in the stratosphere for long periods of time, providing services like broadband internet, cell phone, and television coverage to millions of users simultaneously. Stratellites have advantages over traditional satellites in that they are cheaper to launch and maintain, and can provide continuous coverage from the stratosphere for up to a year at a time.
A touchless touchscreen uses optical pattern recognition and a solid state optical matrix sensor to detect hand movements in front of the screen instead of requiring physical contact. The sensor is made up of a matrix of pixels, each with photodiodes that convert incoming light to electric charge. The sensor generates signals that are processed by a digital image processor to provide output and interpret gestures without the user touching the display. Touchless touchscreens offer advantages like not wearing down the screen surface and allowing control from a distance, though sightline remains a limitation currently. The technology continues developing with potential for full body control of devices in the future.
1. The document lists over 100 potential seminar topics in computer science and information technology, ranging from embedded systems and extreme programming to biometrics, quantum computing, and more.
2. Some examples include elastic quotas, electronic ink, gesture recognition, graphics processing units, grid computing, and honeypots.
3. The broad range of topics provide many options for students or professionals to explore emerging technologies and issues in computing.
Red Tacton is an emerging human area network technology that uses the human body as a transmission path for high-speed communication. It was developed by NTT and uses electric fields on the skin to transmit digital data at speeds up to 10 Mbps through half or full duplex communication. Red Tacton has applications for one-to-one services, intuitive operations, personalization, new behavior patterns, and security. It provides advantages over wireless networks like no required pairing and high security, but development costs remain high and adoption challenges exist due to entrenched alternative technologies.
RedTacton is a Human Area Networking technology, which is developed by Robin Gaur Jind, that uses the surface of the human body as a safe, high speed network transmission path. It is completely distinct from wireless and infrared technologies as it uses the minute electric field emitted on the surface of the human body.
A transmission path is formed at the moment a part of the human body comes in contact with a RedTacton transceiver. Communication is possible using any body surfaces, such as the hands, fingers, arms, feet, face, legs or torso. RedTacton works through shoes and clothing as well. When the physical contact gets separated, the communication is ended.
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 developed by NTT that enables high-speed communication through human contact. It uses weak electric fields on the human body as a transmission medium, allowing data transfer through a simple touch. RedTacton relies on transreceivers that can create a communication channel when touching and detect signals programmed into other devices. It supports interactive broadband communication at speeds up to 10 Mbps and has applications for printing, data sharing, access control, and medical devices like insulin pumps. However, RedTacton is currently costly compared to other technologies.
This seminar discusses Red Tacton technology, a new human area networking technique developed by NTT that can transmit data through weak electric fields on the surface of the human body at speeds up to 10 Mbps. It relies on changes in the optical properties of electro-optic crystals caused by electric fields. Prototypes include PC card and hub transceivers. Red Tacton has advantages like wireless data transfer with just a touch and strong security since the human body is the transmission medium. However, its design is complex and expensive compared to other technologies.
One of the major issue in power system is the losses occurs during the transmission and distribution of electrical power. As the demand increases day by day, the power generation increases and the power loss is also increased. The major amount of power loss occurs during transmission and distribution. The percentage of loss of power during transmission and distribution is approximated as 26%. The main reason for power loss during transmission and distribution is the resistance of wires used for grid. The efficiency of power transmission can be improved to certain level by using high strength composite overhead conductors and underground cables that use high temperature super conductor. But, the transmission is still inefficient. According to the World Resources Institute (WRI), India’s electricity grid has the highest transmission and distribution losses in the world – a whopping 27%. Numbers published by various Indian government agencies put that number at 30%,40% and greater than 40%. This is attributed to technical losses (grid’s inefficiencies) and theft. Any problem can be solved by state of the art technology. The above discussed problem can be solvedby choose an alternative option for power transmission which could provide much higher efficiency, low transmission cost and avoid power theft. Microwave Power Transmission is one of the promising technologies and may be the righteous alternative for efficient power transmission.
This document describes a home automation system that allows users to control devices in their home from their mobile phone using Bluetooth. The system connects an Android phone to a microcontroller using a Bluetooth module. The user can then control electrical devices and appliances connected to relays through the microcontroller. This provides convenience and accessibility from anywhere. It also improves energy efficiency and security for homes.
The document discusses Red Tacton, a new human area networking technology developed in Japan. Red Tacton uses the human body as a transmission medium for data, inducing weak electric fields on the skin's surface to transmit signals up to 10 Mbps. It works by transmitting data via a tacton transmitter and receiving it using an electro-optic crystal sensor in the tacton receiver. The technology has applications for personal devices, security, and intuitive human-computer interaction through touch.
This document discusses e-paper technology, including its history, construction, properties, applications, and future potential. E-paper was first developed in 1974 and resembles ordinary paper but can hold text and images like an electronic display. It uses microcapsules containing charged white and black particles to switch between pixels and is flexible, low-power, and readable outdoors like paper. The document compares e-paper to LCD displays and outlines e-paper's advantages for uses in electronic books, newspapers, and mobile displays.
This ppt presentation is to develop a home automation system with a touch screen based control panel based on microcontroller
Edgefxkits.com has a wide range of electronic projects ideas that are primarily helpful for ECE, EEE and EIE students and the ideas can be applied for real life purposes as well.
http://www.edgefxkits.com/
Visit our page to get more ideas on popular electronic projects developed by professionals.
Edgefx provides free verified electronic projects kits around the world with abstracts, circuit diagrams, and free electronic software. We provide guidance manual for Do It Yourself Kits (DIY) with the modules at best price along with free shipping.
The document describes RedTacton, a new human area networking technology developed by NTT Lab in Japan. RedTacton uses the human body as a transmission path for data, transmitting at speeds of 10mbps using the minute electric fields generated by the body. It allows for touch-based communication and transmission of media between devices carried or embedded on the user. Potential applications include military and medical device security, access control, and media sharing between devices in close proximity to the body.
The document discusses electronic paper (e-paper) technology. It provides an overview of e-paper, including its history from development in the 1970s at Xerox PARC to current applications in e-readers, digital signs, and more. The document also describes several different technologies used to produce e-paper displays, such as Gyricon, electrophoretic, electrowetting, and others. It covers advantages like high contrast and low power consumption, as well as challenges like limited color reproduction.
This document provides an overview of electronic private automatic branch exchange (EPABX) systems. It discusses the history of PBX systems and how they have evolved from manual switchboards operated by telephone operators to modern digital and IP-based systems. It describes the typical components of an EPABX system, including the switching network, control cards, telephone stations, outside telephone trunk lines, and power supply. Current trends in EPABX technology include the adoption of voice over IP (VoIP) and ISDN systems. The document also briefly discusses the use of small EPABX systems in homes and small businesses.
This document discusses wireless power transmission (WPT) and compares microwave and laser transmission methods. It describes how a rectenna works to receive microwaves with 85% efficiency within 5km. Solar power satellites that transmit power via microwaves from space are also discussed, including their advantages over earth-based solar like constant sunlight. Current development of a low-cost Japanese demonstration project by 2025 and potential applications of WPT like electric vehicles are mentioned.
Photonics communication [communication application of nano technology]jayarajchinna
Photonics communication uses nano-sized particles and photonic crystals to route information using light instead of electrical signals. This allows information to be transmitted nearly instantaneously. The document discusses how nano-lasers and photonic band gaps can be used to control and direct photons for optical switching. Nanotechnology enables building devices that manipulate individual photons to route data at speeds approaching the speed of light through fiber optic networks.
This document provides an overview of Intel's Light Peak technology, which uses fiber optic cables to transmit data at speeds up to 10Gbps over distances of up to 100 meters. It describes the key components of Light Peak, including the optical fiber, light sources, light detectors, and packaging. Light Peak aims to replace existing connection standards like USB and PCIe with a single universal optical connection. It allows for thinner, more flexible cables while providing higher bandwidth than copper-based standards. The document discusses how Light Peak addresses challenges with existing technologies and compares it favorably to USB 3.0 in terms of speed and cable length.
The document is a technical seminar presentation on wireless power transmission technology by a student named K Sunita. It discusses the history of wireless power transmission from Nikola Tesla's experiments to modern implementations. It covers different wireless power transfer technologies like inductive coupling, resonant inductive coupling, microwave power transmission and their working principles. The advantages of wireless power transmission in reducing transmission losses and enabling power transfer to remote areas are highlighted. Applications like electric vehicle charging and consumer electronics are mentioned.
A Stratellite is a type of satellite that is stationed in the stratosphere at an altitude of about 13 miles, rather than in orbit. It can provide clear communications coverage to an entire metropolitan area as well as rural areas. Stratellites are airships that carry payloads and communication equipment. They can remain stationary in the stratosphere for long periods of time, providing services like broadband internet, cell phone, and television coverage to millions of users simultaneously. Stratellites have advantages over traditional satellites in that they are cheaper to launch and maintain, and can provide continuous coverage from the stratosphere for up to a year at a time.
A touchless touchscreen uses optical pattern recognition and a solid state optical matrix sensor to detect hand movements in front of the screen instead of requiring physical contact. The sensor is made up of a matrix of pixels, each with photodiodes that convert incoming light to electric charge. The sensor generates signals that are processed by a digital image processor to provide output and interpret gestures without the user touching the display. Touchless touchscreens offer advantages like not wearing down the screen surface and allowing control from a distance, though sightline remains a limitation currently. The technology continues developing with potential for full body control of devices in the future.
1. The document lists over 100 potential seminar topics in computer science and information technology, ranging from embedded systems and extreme programming to biometrics, quantum computing, and more.
2. Some examples include elastic quotas, electronic ink, gesture recognition, graphics processing units, grid computing, and honeypots.
3. The broad range of topics provide many options for students or professionals to explore emerging technologies and issues in computing.
Red Tacton is an emerging human area network technology that uses the human body as a transmission path for high-speed communication. It was developed by NTT and uses electric fields on the skin to transmit digital data at speeds up to 10 Mbps through half or full duplex communication. Red Tacton has applications for one-to-one services, intuitive operations, personalization, new behavior patterns, and security. It provides advantages over wireless networks like no required pairing and high security, but development costs remain high and adoption challenges exist due to entrenched alternative technologies.
RedTacton is a Human Area Networking technology, which is developed by Robin Gaur Jind, that uses the surface of the human body as a safe, high speed network transmission path. It is completely distinct from wireless and infrared technologies as it uses the minute electric field emitted on the surface of the human body.
A transmission path is formed at the moment a part of the human body comes in contact with a RedTacton transceiver. Communication is possible using any body surfaces, such as the hands, fingers, arms, feet, face, legs or torso. RedTacton works through shoes and clothing as well. When the physical contact gets separated, the communication is ended.
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 human area networking technology introduced by NTT that uses the weak electric field on the human body surface for communication. It works by inducing a weak electric field from a transmitter on the body which is then sensed by a receiver. This creates a communication path when two bodies touch. Redtacton offers high-speed communication between any two points on the body, is more secure than wireless technologies, and is not impacted by network congestion. While research is still ongoing, potential applications include personal devices, security features, and replacing wired connections.
Wireless communication using local area networkingWABCO
(1) 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 and detecting fluctuations in those fields to transmit data.
(2) RedTacton devices can communicate through direct contact or indirectly through clothing or shoes. Data transmission speeds of up to 10 Mbps have been achieved between different points on the body.
(3) Potential applications include personalizing devices with a touch, secure authentication systems, and connecting multiple devices simultaneously through indirect body contact instead of traditional wireless technologies. The human body's conduction properties provide a simple and secure alternative to existing wireless communication methods.
WiFi uses two radio technologies, DSSS and OFDM, to transmit signals over a spread spectrum to prevent interference. It was developed to provide fast, cable-free communications. There are four WiFi standards - 802.11b, a, g, and n - which provide transmission speeds up to 11, 54, and 100 megabits per second respectively. Most standards operate in the 2.4GHz frequency band while 802.11a uses 5GHz. Newer standards can function on the frequencies of older standards. Bluetooth was also developed for wireless connectivity over short ranges at speeds up to 720 kilobits per second. It operates at 2.4GHz to avoid interference and can connect up to eight
RedTacton is a new human area networking technology that allows for high-speed data transmission of up to 10 Mbps by turning the surface of the human body into a transmission path. It was developed by NTT in Japan and uses photonic electric field sensors to overcome limitations of prior technologies that only achieved speeds of 40 bit/s over short ranges. RedTacton transmits data through the minute electric fields on the skin and enables communication through touch with devices like cards or receivers without direct contact or currents flowing into the body. Potential applications include touch advertising, intuitive device operations through touch, and security verification systems.
Red Tacton is a new technology that uses the human body as a transmission medium for data. It works by inducing a weak electric field on the surface of the body through an electro-optic crystal and laser. This electric field can then transmit data as it passes through the body and is received by another user in contact. It provides a high-speed and interactive wireless transmission option without using cables or traditional signals. The technology was developed by NTT in Japan and allows for transmission through clothing and materials at speeds of up to 10Mbps.
Red Tacton is a technology developed by NTT that uses the human body as a transmission medium for data. It works by inducing extremely weak electric fields on the surface of the body through transceivers. Changes in these electric fields caused by one transceiver are detected by another through an optical sensor. This allows for data transfer speeds of up to 10Mbps through handshakes, touching devices, or walking on embedded surfaces. It provides a way to initiate wireless data transfer through natural human movements without additional devices or cables.
This is the networking technology.Basically we can understand HAN (Human Area Network) same as LAN as we transfer our data by lan cable or any other medium.Here we can transfer our data by using human body.
Virtual reality (VR), sometimes referred to as immersive multimedia, is a computer-simulated environment that can simulate physical presence in places in the real world or imagined worlds.
This document discusses Red Tacton, a human area networking technology developed by NTT that uses weak electric fields on the surface of the body for high-speed wireless transmission. It works by using a transmitter and receiver with an electro-optic crystal to detect signal variations using laser detection. The technology provides broadband, interactive communication within short distances and has potential applications in security, communications in new domains like space and underwater, and communication with internal devices. However, it is costly and limited to transmission within a few centimeters currently.
RedTacton is a new technology developed by NTT that enables communication through the human body using very weak electric fields on the skin's surface. It allows for a "Human Area Network" where electronic devices can connect and exchange data when touching different parts of the body. RedTacton uses a photonic electric field sensor combining an electro-optic crystal and laser to detect tiny fluctuations in the electric field caused by transmitting data. This powers duplex communication at speeds up to 10 Mbps. Potential applications include instantly sharing files between devices with a handshake, personalizing devices with a touch, and triggering alarms if the wrong medicine is touched.
This document describes a new technology called RedTacton that uses the human body as a communication network or Human Area Network (HAN). It works by using the electric fields generated on the surface of the human body to transmit data wirelessly. Chips embedded in devices can send and receive digital files through contact with the body. RedTacton achieves duplex communication at speeds up to 10 Mbps using a photonic electric field sensor. It has applications for securely transferring data through natural touch-based interactions and movements of the human body. The document outlines the key features and safety of RedTacton as a new way to realize communication through physical human contact.
Red Tacton is a new human area networking technology that uses the human body's surface as a safe, high-speed transmission path. It uses the minute electric field generated by the human body to transmit data between devices that have transmitters and receivers embedded in them. Communication starts when these devices come into contact through any part of the body and ends when physical contact is separated. Red Tacton can achieve duplex communication at speeds of up to 10 Mbps using sensitive photonic electric field sensors to detect fluctuations in the weak electric field on the body's surface.
Red Tacton is a new technology that uses the human body as a communication network by transmitting data through weak electric fields on the surface of the skin. It works by using a transmitter embedded in a device like a PDA to induce a weak electric field on the skin. The field is then modulated to carry signals that a receiver can detect and decode to recover the data. This allows for intuitive data transfer between devices by touching or shaking hands. Potential applications include transferring files between devices by dancing or kissing. While an interesting idea, Red Tacton may not offer compelling uses that are not already available through other technologies.
Redtacton the forward thinking of human area networkeSAT Journals
Abstract Human society is entering an era of ubiquitous computing, when networks are seamlessly interconnected and information is always accessible at our fingertips. In the world of computers, networking is the practice of linking two or more computing devices together for the purpose of sharing data. Red Tacton is emerging technology that enables the first practical HAN (Human Area Network)between body-centered electronic devices and PCs or other network devices embedded in the environment via a new generation of user interface based on totally natural human actions such as touching, holding, sitting, walking, or stepping on a particular spot. By making Human Area Networks feasible, Red Tacton will enable ubiquitous services based on human centered interactions and therefore more intimate and easier for people to use. Red Tacton is a break-through technology that uses the surface of the human body as a safe, high speed network transmission path. So we, in this paper are explaining the unique new functional features and enormous potential of Red Tacton as a Human Area networking technology. Technology is making many things easier; we can say that our concept is standing example for that. So far we have seen LAN, MAN, WAN, INTERNET & many more but here is new concept of “RED TACTON” which makes the human body as a communication network. Keywords: Electro sensor, Human area network, Redtacton
Human Area Networking, also called RedTacton, is a technology developed by NTT that uses the human body's natural electric field to transmit data through physical contact at speeds up to 10 Mbps. RedTacton overcomes earlier limitations of short operating ranges and slow speeds. It works by detecting minute changes in the body's electric field using a sensitive photonic electric field sensor. RedTacton transceivers induce a weak electric field for transmission and sense changes using an electro-optic crystal and laser. This allows for interactive high-speed communication through touch with various devices and surfaces.
RedTacton is a human area networking technology developed by NTT that allows for data transmission speeds of up to 10 Mbps across the human body. It works by using weak electric fields on the body's surface as a transmission medium, unlike previous technologies that relied on electromagnetic or light waves. NTT plans to continue developing more compact and cost-effective RedTacton transceivers and explore applications through field testing, though its high cost and lack of compelling uses that other technologies cannot provide remain drawbacks.
RedTacton is a human area networking technology developed by NTT that allows for data transmission speeds of up to 10 Mbps across the human body. It works by using weak electric fields on the body's surface as a transmission medium, unlike previous technologies that relied on electromagnetic or light waves. NTT plans to continue developing more compact and cost-effective RedTacton transceivers and exploring applications through field testing, though the technology currently has high costs and may lack compelling uses beyond existing options.
RedTacton is a new human area network technology introduced by NTT that uses the human body as a transmission medium for safe, high-speed data transfer through weak electric fields. It works by generating a displacement current through the body when in contact with a transmitting device, which is then detected by a receiving device. While offering advantages like speed, security, and ease of use, it also faces limitations in range, cost, and lack of compelling applications beyond existing options. Potential uses include personalizing automobiles, user verification management, wearables, and military applications.
RedTacton is a new human area network technology introduced by NTT that uses the human body as a transmission medium for safe, high-speed data transfer through weak electric fields. It works by generating a displacement current through the body when in contact with a transmitting device, which is then detected by a receiving device. While offering advantages like speed, security, and low power usage, RedTacton has limitations in range and cost that have prevented compelling applications beyond short-distance personal use cases.
Red Tacton is a new Human Area Networking (HAN) technology that uses the human body as a transmission path for data. It works by inducing a weak electric field on the body's surface from a transmitter chip, which is then detected by a receiver chip. This allows devices to communicate by touch at speeds up to 10Mbps without needing connectors. Potential applications include instantly downloading device drivers or sharing data between devices with a touch. While it provides a low-cost way to network devices, there are limitations on conductor size and potential safety issues from power dissipation that need further research.
Red Tacton is an emerging human area networking technology developed by NTT that allows for high-speed data transmission through physical contact between devices and the human body. It uses minute electrostatic fields modulated with digital data that are transmitted capacitively to the skin and between devices. Red Tacton has advantages over other technologies with data transmission speeds of up to 10 Mbps, support for simultaneous connections, and ability to transmit over a variety of conductive surfaces including clothes and liquids. Potential applications include personalized one-to-one services, intuitive device operation through touch, new interactive behaviors, security applications, and communication in new contexts.
RedTacton is a new Human Area networking technology, which is under development that uses the surface of the human body as a safe, high speed network transmission path.
Survey on Red Tacton Technology for Human Area NetworkIOSR Journals
This document summarizes research on Red Tacton technology for human area networks (HANs). Red Tacton uses the human body as a communication medium by transmitting data via electric fields induced on the skin's surface. It allows devices to communicate when touching a person. The document discusses Red Tacton's working principles, safety measures, applications in areas like healthcare monitoring and underwater communication, and comparisons to other HAN technologies. It concludes that Red Tacton is well-suited for wireless pervasive environments and its use in such networks will continue to expand.
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.
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.
Red tacton is a new human area networking technology developed by NTT labs that uses the human body's electric field as a transmission medium. It allows for high-speed duplex communication of up to 10 Mbps by placing a transmitter on the skin that induces a weak electric field, which is detected by a sensitive photonic receiver and converted to an electrical signal. Red tacton relies on natural physical contact and movement for communication and has advantages over wireless technologies in terms of security and usability.
RedTacton is a new human area networking technology under development that uses the human body's surface as a transmission medium. It can achieve data transmission speeds of up to 10 Mbps by inducing weak electric fields on the body from transmitter to receiver devices. RedTacton was first proposed in 1996 and developed by NTT in 2005. It allows for secure communication through touch and has applications in areas like device personalization, security, and instant data sharing. While promising, RedTacton faces challenges in widespread adoption due to costs and the need for many users to adopt the technology.
This document summarizes the RedTacton technology, which enables data transfer between two devices through physical contact with the human body. RedTacton uses electric fields generated by the human body as a transmission medium. It allows for connectivity between various personal devices through natural physical interactions like handshakes. The technology works by placing sensors on the body that can detect minute electric fields used to transmit data in a point-to-point way. RedTacton provides a new way of connecting devices through a human-centered approach and establishes a type of network called a Human Area Network. Future applications could include uses in healthcare, security, and other areas where device-to-device communication through touch is useful.
RedTacton is a Human Area Networking technology which uses the surface of the human body as a safe, high speed network transmission path. It is completely distinct from wireless and infrared technologies as it uses the minute electric field emitted on the surface of the human body.
it describes the bony anatomy including the femoral head , acetabulum, labrum . also discusses the capsule , ligaments . muscle that act on the hip joint and the range of motion are outlined. factors affecting hip joint stability and weight transmission through the joint are summarized.
Walmart Business+ and Spark Good for Nonprofits.pdfTechSoup
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Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.
LAND USE LAND COVER AND NDVI OF MIRZAPUR DISTRICT, UPRAHUL
This Dissertation explores the particular circumstances of Mirzapur, a region located in the
core of India. Mirzapur, with its varied terrains and abundant biodiversity, offers an optimal
environment for investigating the changes in vegetation cover dynamics. Our study utilizes
advanced technologies such as GIS (Geographic Information Systems) and Remote sensing to
analyze the transformations that have taken place over the course of a decade.
The complex relationship between human activities and the environment has been the focus
of extensive research and worry. As the global community grapples with swift urbanization,
population expansion, and economic progress, the effects on natural ecosystems are becoming
more evident. A crucial element of this impact is the alteration of vegetation cover, which plays a
significant role in maintaining the ecological equilibrium of our planet.Land serves as the foundation for all human activities and provides the necessary materials for
these activities. As the most crucial natural resource, its utilization by humans results in different
'Land uses,' which are determined by both human activities and the physical characteristics of the
land.
The utilization of land is impacted by human needs and environmental factors. In countries
like India, rapid population growth and the emphasis on extensive resource exploitation can lead
to significant land degradation, adversely affecting the region's land cover.
Therefore, human intervention has significantly influenced land use patterns over many
centuries, evolving its structure over time and space. In the present era, these changes have
accelerated due to factors such as agriculture and urbanization. Information regarding land use and
cover is essential for various planning and management tasks related to the Earth's surface,
providing crucial environmental data for scientific, resource management, policy purposes, and
diverse human activities.
Accurate understanding of land use and cover is imperative for the development planning
of any area. Consequently, a wide range of professionals, including earth system scientists, land
and water managers, and urban planners, are interested in obtaining data on land use and cover
changes, conversion trends, and other related patterns. The spatial dimensions of land use and
cover support policymakers and scientists in making well-informed decisions, as alterations in
these patterns indicate shifts in economic and social conditions. Monitoring such changes with the
help of Advanced technologies like Remote Sensing and Geographic Information Systems is
crucial for coordinated efforts across different administrative levels. Advanced technologies like
Remote Sensing and Geographic Information Systems
9
Changes in vegetation cover refer to variations in the distribution, composition, and overall
structure of plant communities across different temporal and spatial scales. These changes can
occur natural.
How to Make a Field Mandatory in Odoo 17Celine George
In Odoo, making a field required can be done through both Python code and XML views. When you set the required attribute to True in Python code, it makes the field required across all views where it's used. Conversely, when you set the required attribute in XML views, it makes the field required only in the context of that particular view.
Leveraging Generative AI to Drive Nonprofit InnovationTechSoup
In this webinar, participants learned how to utilize Generative AI to streamline operations and elevate member engagement. Amazon Web Service experts provided a customer specific use cases and dived into low/no-code tools that are quick and easy to deploy through Amazon Web Service (AWS.)
Chapter wise All Notes of First year Basic Civil Engineering.pptxDenish Jangid
Chapter wise All Notes of First year Basic Civil Engineering
Syllabus
Chapter-1
Introduction to objective, scope and outcome the subject
Chapter 2
Introduction: Scope and Specialization of Civil Engineering, Role of civil Engineer in Society, Impact of infrastructural development on economy of country.
Chapter 3
Surveying: Object Principles & Types of Surveying; Site Plans, Plans & Maps; Scales & Unit of different Measurements.
Linear Measurements: Instruments used. Linear Measurement by Tape, Ranging out Survey Lines and overcoming Obstructions; Measurements on sloping ground; Tape corrections, conventional symbols. Angular Measurements: Instruments used; Introduction to Compass Surveying, Bearings and Longitude & Latitude of a Line, Introduction to total station.
Levelling: Instrument used Object of levelling, Methods of levelling in brief, and Contour maps.
Chapter 4
Buildings: Selection of site for Buildings, Layout of Building Plan, Types of buildings, Plinth area, carpet area, floor space index, Introduction to building byelaws, concept of sun light & ventilation. Components of Buildings & their functions, Basic concept of R.C.C., Introduction to types of foundation
Chapter 5
Transportation: Introduction to Transportation Engineering; Traffic and Road Safety: Types and Characteristics of Various Modes of Transportation; Various Road Traffic Signs, Causes of Accidents and Road Safety Measures.
Chapter 6
Environmental Engineering: Environmental Pollution, Environmental Acts and Regulations, Functional Concepts of Ecology, Basics of Species, Biodiversity, Ecosystem, Hydrological Cycle; Chemical Cycles: Carbon, Nitrogen & Phosphorus; Energy Flow in Ecosystems.
Water Pollution: Water Quality standards, Introduction to Treatment & Disposal of Waste Water. Reuse and Saving of Water, Rain Water Harvesting. Solid Waste Management: Classification of Solid Waste, Collection, Transportation and Disposal of Solid. Recycling of Solid Waste: Energy Recovery, Sanitary Landfill, On-Site Sanitation. Air & Noise Pollution: Primary and Secondary air pollutants, Harmful effects of Air Pollution, Control of Air Pollution. . Noise Pollution Harmful Effects of noise pollution, control of noise pollution, Global warming & Climate Change, Ozone depletion, Greenhouse effect
Text Books:
1. Palancharmy, Basic Civil Engineering, McGraw Hill publishers.
2. Satheesh Gopi, Basic Civil Engineering, Pearson Publishers.
3. Ketki Rangwala Dalal, Essentials of Civil Engineering, Charotar Publishing House.
4. BCP, Surveying volume 1
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Date: May 29, 2024
Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
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Communicating effectively and consistently with students can help them feel at ease during their learning experience and provide the instructor with a communication trail to track the course's progress. This workshop will take you through constructing an engaging course container to facilitate effective communication.
Temple of Asclepius in Thrace. Excavation resultsKrassimira Luka
The temple and the sanctuary around were dedicated to Asklepios Zmidrenus. This name has been known since 1875 when an inscription dedicated to him was discovered in Rome. The inscription is dated in 227 AD and was left by soldiers originating from the city of Philippopolis (modern Plovdiv).
Traditional Musical Instruments of Arunachal Pradesh and Uttar Pradesh - RAYH...
Red tacton
1. RED TACTON –DATA TRANSMISSION
TECHNOLOGY
BHARTI VIDYAPEETHS COLLEGE OF ENGINEERING, GSSIP
UNIVERSITY,DELHI
Chetna Deepali
tk.chetna@gmail.com rdeepali92@gmail.com
Instrumentation and control(III YEAR) Instrumentation and control(III YEAR)
ABSTRACT : body as a safe, high speed network
transmission path.
In an age where information is being
considered as the blood of this century, the RedTacton takes a different technical
very idea of transmitting such data or approach. Instead of relying on
information to someone very specific sends electromagnetic waves or light waves to carry
these cold waves all around our body. With so data, RedTacton uses weak electric fields on
many hackers and other anti-social elements the surface of the body as a transmission
spread all around the world, secure data medium. A RedTacton transmitter couples
transmission is considered to be a myth these with extremely weak electric fields on the
days. With the recent technological surface of the body. The weak electric fields
advancements success has been achieved to an pass through the body to a RedTacton
extent in tackling the above stated issue. One receiver, where the weak electric fields affect
such solution to this issue is the RED the optical properties of an electro-optic
TACTON devices which are going to make crystal. The extent to which the optical
their mark very soon. And when they are out properties are changed is detected by laser
all the problems related to secure, efficient, light which is then converted to an electrical
reliable, hi speed data transmission will be signal by a detector circuit.
solved. Yes they are going to be solved!! - RedTacton uses the minute electric field
emitted on the surface of the human body.
The paper here unleashes the various Technically, it is completely distinct from
applications that are possible through these wireless and infrared.
small devices which can literally rest - A transmission path is formed at the
anywhere on the body or any dielectric moment a part of the human body comes in
medium for that matter. With a wide range of contact with a RedTacton transceiver.
applications starting from personalization, Physically separating ends the contact and
conferencing system, security applications and thus ends communication.
many more, RED TACTON technology is a - Using RedTacton, communication starts
giant leap in the field of HUMAN AREA when terminals carried by the user or
NETWORKING. embedded in devices are linked in various
combinations according to the user's natural,
physical movements.
1.INTRODUCTION :
- Communication is possible using any body
surfaces, such as the hands, fingers, arms,
Red Tacton is a new Human Area Networking
technology that uses the surface of the human
2. feet, face, legs or torso. RedTacton works According to NTT this technology - which can
through shoes and clothing as well. also be made to works when door handles,
switches or turnstiles are touched - allows bi-
directional signals to be sent at rates of up to
2. BACKGROUND – HUMAN AREA
10 Mbit/s. The strength of the electrostatic
NETWORK
fields evoked the company puts at but a few
hundred mill watts. Prior to the stage planned
for 2006 in which the HAN technology is to
At the end of 2002 the Japanese telecomm-
be ready for the market, NTT intends to
unications group NTT had announced that it
conduct a number of field tests this summer,
would
in which it is inviting companies with an
interest in the technology to participate .
Japanese company Nippon Telegraph and
Telephone Corporation (NTT) claims to have
developed the first viable Human Area
Network (HAN) device, enabling fast data
transfer between devices using the human
body as a conduit. NTT reckons this latest
RedTacton PC card prototype advance on the wireless Personal Area
Network concept - dubbed RedTacton
develop a new data transmission technology - can transmit data over the surface of the
that uses the conductive properties of the skin at up to 2Mbps. Where it differs,
human body to exchange information between though, from previous offerings, is that a
electronic devices. With RedTacton the RedTacton-enabled device does not have to
company has now scarcely two and a half be in direct contact with the skin - only
years later presented its first prototype of a within about 20cm.
Human Area Network (HAN).
The basic principle of the RedTacton concept 3. HOW DOES RED TACTON WORKS ?
is the creation of minute electrostatic fields
that modulated by a code-giver to carry digital Red Tacton does not rely on electromagnetic
information are capacitively transmitted to or light waves to transmit data.. It makes use
human skin as a conductor, thence to be of weak electric fields on the surface of the
transmitted upon physical contact. To read out body.. The transmitter sends data by inducing
the data bits NTT makes use of a novel type of fluctuations in the minute electric field on the
opto-electrical receiver equipped with a surface of the human body. Data is received
miniature laser whose light ray is reflected by using a photonic electric field sensor that
a crystal. combines an electro-optic crystal and a laser
light to detect fluctuations in the minute
At the receiving end the electrostatic fields electric field. The Red Tacton receiver senses
evoked by the RedTacton sender cause the changes in the weak electric field on the
electrical field in the environment of the surface of the body caused by the transmitter.
crystal to change, which in turn induces
Red Tacton relies upon the principle that the
changes in the polarization of the reflected
optical properties of an electro-optic crystal
laser light. These changes in polarization the
can vary according to the changes of a weak
opto-electrical receiver interprets as data bits,
electric field. Red Tacton detects changes in
which it converts into electrical signals that
the optical properties of an electro-optic
can be processed by a PDA, for instance.
crystal using a laser and converts the result to
an electrical signal in a optical receiver circuit.
3. terminals carried by the user or embedded in
The naturally occurring electric field induced devices are linked in various combinations
on the surface of the human body dissipates according to the user's natural, physical
into the earth. Therefore, this electric field is movements. Communication is possible using
exceptionally faint and unstable. The photonic any body surfaces, such as the hands, fingers,
electric field sensor developed by NTT arms, feet, face, legs or torso. RedTacton
enables weak electric fields to be measured by works through shoes and clothing as well.
detecting changes in the optical properties of
an electro-optic crystal with a laser beam. Using a new super-sensitive photonic electric
field sensor, RedTacton can 5 achieve duplex
4. Principle of Communication communication over the human body.
1. The RedTacton transmitter induces a
A Red Tacton consists of a transceiver and an weak electric field on the surface of
electro optical sensor crystal which is used for the body.
sensing the optical property of the electrical 2. The RedTacton receiver senses
field on the surface of the body. changes in the weak electric field on
the surface of the body caused by the
transmitter.
RedTacton uses the minute electric field 3. RedTacton relies upon the principle that the
emitted on the surface of the human body. optical properties of an electro-optic crystal
Technically, it is completely distinct from can vary according to the changes of a weak
wireless and infrared. A transmission path is electric field.
formed at the moment a part of the human
body comes in contact with a RedTacton 4. RedTacton detects changes in the optical
transceiver. Physically separating ends the properties of an electro-optic crystal using a
contact and thus ends communication. Using laser and converts the result to an electrical
RedTacton, communication starts when signal in an optical receiver circuit.
4. 5. MECHANISM OF COMMUNICATION
WITH RED TACTON
The electric field induced towards the body by The electric field ES that reaches the receiver
the transmitter‘s signal electrode is is
represented by E A. The system requires a Es =Ea – ( Eb + Ec ). It couples to the electro
ground close to the transmitter signal
–optic crystals and changes the crystal’s
electrode, so electric field EB induced from the
body can follow a return path to the optical properties. This change is detected by
transmitter ground. Moreover, since people
the laser light and transformed into a digital
are usually standing on a floor or the ground,
electric field EC escapes from body to the data by a detector circuit.
ground.
5. Data
configuration at
WL CRW CIC PWT IR RT
initiation of
E E P P E E
communications
(Registration of
ID profiles, etc)
Tasks required
at time of
each
communication E E P E P E
(Adjustment of
contacts and
optical axis)
Synchronization
with
user behavior P P E E P E
(Specification of
user positioning)
6. HOW IS RED TACTON BETTER THAN communication techniques.
ANY OTHER WIRELESS TECHNOLOGY ? 6.2 Comparison with other Human
6.1 Comparison of Red Tacton with other Communication Methods
Technologies
On comparison with other technologies here
Red Tacton surpasses other communication we apply electric field photonics which can be
techniques in terms of performance and user used for capacity coupling between equipment
convenience. and the earth ground. It can communicate
This is depicted by a comparison table where through any part of the body whereas in other
E stands for excellent and P stands for poor human communication system it utilizes a
Here the various communication techniques particular part of body for data transfer.
that are compared are – Duplex communication can be established
between mobile terminals and also between
WL - Wireless LAN mobile terminals and external equipments.
CRW - Close Range wireless
CIC - Contactless IC Card 6.3 Advantages over Bluetooth and RFID
PWT - Passive Wireless ID Tag Here the technology is clearly
IR - Infrared Standards advantageous over Bluetooth and RFID in the
RT - Red Tacton following factors
(1) The Traffic and Network congestion
Transfer speed, Simultaneous access and does not occur here and it decreases
Interactive Processing are of excellent with increase in number of users
Nature in Red Tacton rather than other joining the network. It highly supports
interactive processing.
6. (2) It greatly reduces the power Red Tacton can utilize a wide range of
consumption and cost of transmission materials as a transmission medium , as
media under usage. long as the material is conductive and
(3) The data transfer rates are very dielectric, which includes water and other
impressive and it ranges to maximum liquids, various metals ,certain plastics,
of 10 Megabits per second. glass, etc. using ordinary structures , one
(4) It turns our body into a swipe card could easily construct a communication
which can be applied in security environment at very low cost using Red
purposes. Tacton.
(5) It can be applied for security
purposes in a variety of domains. 3) BROADBAND AND INTERACTIVE :
Duple, interactive communication is
7. FEATURES OF RED TACTON possible at a maximum speed of
10Mbps.Becausethe transmission path is
Red Tacton has three main features .they are on the surface of the body, transmission
as follows : speed does not deteriorate in congested
areas where many people are
1) TOUCH : communicating at the same time.
Communication is not just confined to the
Communication with just a touch or a surface of the body, but can travel
step. A communication path can be through the user’s clothing to a Red
created with a simple touch, networked Tacton device in a pocket or through
process. shoes to communicate with a Red Tacton
device embedded in the floor.
2) ANY MEDIA :
7. RedTacton devices embedded medicine
bottles transmit information on the medicines'
attributes. If the user touches the wrong
medicine, an alarm will trigger on the terminal
he is carrying. The alarm sounds only if the
user actually touches the medicine bottle,
reducing false alarms common with passive
wireless ID tags, which can trigger simply by
proximity.
Examples of Similar Applications
8. APPLICATIONS OF RED TACTON
Alert and contact record at medical,
long-term care, and childcare facilities.
There are six major applications that are Avoidance of risk at construction sites
done using Red Tacton (an alarm sounds if special equipment
(1) One to One Services is handled by anyone other than
(2) Intuitive operations supervisors).
(3) Personalization (B) Marketing Applications (Context
(4) New Behavior patterns Awareness)
(5) Security applications
(6) Communication in new domains
(1) One to One Services:
Enable one-to-one services tailored to
the user's situation and tastes. Attribute
information recorded in the RedTacton device
is sent to the touched objects. The appropriate
service is provided based on the attribute
information received by the RedTacton
receiver.
(A) Elimination of Human Errors
Touch Advertisements and receive
Information
When a consumer stands in front of an
advertising panel, advertising and information
matching his or her attributes is automatically
displayed. By touching or standing in front of
items they are interested in, consumers can get
more in-depth information.
Examples of Similar Applications
Brochures only of products of
interest to the visitor can be
8. downloaded automatically at trade Communication can be kept private using
shows. authentication and encryption technologies.
Inside a shop, shoppers can view
related information on their mobile
terminals immediately after touching
a product.
(2) Intuitive Operation:
Natural movements and actions are
the trigger. There's no "operation" any more.
Just intuitive human interaction. RedTacton
transceivers embedded in two terminals can
communicate not only data but also the
control or configuration instructions needed to
operate devices. Cable connections are
eliminated. The body itself is used as Instantaneous private network via personal
transmission medium. handshake
Examples of Similar Applications
Group photos taken with digital
cameras are instantly transferred to
individual's mobile terminal.
Diagrams written on white boards
during meetings are transferred to
individual's mobile terminals on the
spot.
(3) Personalization
Touch a printer to print Digital lifestyle can be instantly
personalized with just a touch. A pre-
Print out where you want just by touching the recorded configuration script can be
desired printer with one hand and a PC or embedded in a mobile terminal with built-
digital camera with the other hand to make the in RedTacton transceiver. When another
link. Complicated configurations are reduced device with RedTacton capabilities is
by downloading device drivers "at first touch". touched, personalization data and
configuration scripts can be downloaded
Examples of Similar Applications automatically.
Display notebook PC screen on (A) Personalization of Mobile Phones
projectors with just a touch
Transfer songs to portable music
players from notebook PCs with just a Just touching a phone makes it your own
touch
Your own phone number is allocated and
(A) Instant private data exchange billing commences Automatic importing
By shaking hands, personal profile data can be of personal address book and call history.
exchanged between mobile terminals on the Examples of Similar Applications
users. (Electronic exchange of business cards).
9. this has the potential to create new behavior
patterns.
The PC is configured to the user's
specifications simply by touching
the mouse.
Room temperature and lighting are
customized when a switch in the
living room is pressed. Connect to network just by putting a laptop on
the table
(B) Personalization of Automobiles
An electrically conductive sheet is embedded
in the table. A network connection is initiated
simply by placing a lap-top on the table. Using
different sheet patterns enables segmentation
of the table into subnets.
Examples of Similar Applications
Walls and partitions can be used as
communication media, eliminating
construction to install electrical wiring.
Just sitting in the seat triggers the car to load Ad hoc networking using conductive
all its presets, just the way we like liquid sprays is possible
The seat position and steering wheel height (A) Wearable:
adjust to match the driver just by sitting in the
car. The driver's home is set as the destination
in the car navigation system. The stereo plays
the driver's favorite song.
Examples of Similar Applications
Touching the TV remote control
triggers a filter/search routine
according to your personal
programming preferences.
(4) New Behavior Patterns Wireless headset
Various conductors and dielectrics can be RedTacton can carry music or video between
used as RedTacton communication media, and headsets, mobile devices, mobile phones, etc.
Users can listen to music from a RedTacton
10. player simply by putting on a headset or
holding a viewer.
Examples of Similar Applications
Connecting head mounted displays.
(5) Security
Automatic user authentication and log-in
with just a touch. ID and privileges are
recorded in a mobile RedTacton device. Automatic access log for confidential
Corresponding RedTacton receivers are document management
installed at security check points. The system
can provide authentication and record that A RedTacton receiver in a cabinet where
touched the device, and when carrying a important documents are stored enables
mobile RedTacton-capable device in one's lock administration and keeps a record of
pocket, ID is verified and the door unlocked who accessed documents at what time.
when the user holds the doorknob normally.
Secure lock administration is possible by Examples of Similar Applications
combining personal verification tools such as
fingerprint ID or other biometric in the mobile Seat reservation management by
terminal. verifying that the right person is in the
right seat.
Log and verification of the person who
touched the terminal.
(6) Communication in New Domains
User verification unlocking with just a touch
Examples of Similar Applications
Automated car door lock/unlock just
by touching the handle; unlocking a
bicycle just by sitting on it. Potential for use as communication
As a pass in amusement facilities. method in outer space and under water
(A) Confidential Domain Management
11. 7) www.oppapers.com/essays/redtacton/1
66398
8) Wikipedia.(February 2009). Red
Tacton [Online].
Available:http://en.wikipedia.org/wiki/
RedTacton
9) html/www.taipeitimes.com/news/biz/a
rchives/2005/03/20/2003247076
10) discuss.itacumens(June 2003). "Basic
Overview of Human Area
NetworkingTechnology". [Online]
Potential for use as communication Available:http://discuss.itacumens.com
method with devices inside the human /index.php?topic=12720
body.
9. CONCLUSION
Red tacton has a wide range of unique
new functional features and enormous
potential as a human area networking
technology. Considering the possibilities
offered by this technology, it’s possible that in
a few years time, we will be able to download
a ring tone for our mobile phone simply by
touching an advertising panel in the street and
do much more just by the power of touching
things, thanks to Red Tacton technology.
REFERENCES
1) technicalpapers.50webs."RED
TACTON".[Online]Available:
http://technicalpapers.50webs.com/pdf
/redtaction.pdf
2) Scribd (2010). "Human Area
NetworksRedTacton".[Online].Availab
le:
http://www.scribd.com/doc/55240946/
RED-TACTON-REPORT
3) A touch too much[intrabody
communications] by Goldstein,H.IEEE
spectrum Jan.2006 vol:43, issue:1,pp
24-25, ISSN-0018-9235
4) www.physorg.com/news3153.html
5) www.ntt.co.jp/news/news05e/0502/05
0218.html
6) www.redtacton.com/en/index.html