hi im bhavya i would like to get details on ieee 2016 paper on skinput technology.i am studying in vvce college and i want to give seminar..please i need help

Abstract

The Microsoft company has developed skinput, a technique that makes the human body suitable for acoustic transmission, so that the skin can be used as an input surface. In particular, we analyze the mechanical vibration circulated through the body and solve the location of the finger tap on the hands and hands. They collect these signals using a novel array of sensors, which are worn as an armband. This approach is always available, naturally provides portable and on-body finger input systems. We assess the capabilities, accuracy and limitations of our technology through two-part, twenty-participant user studies. To make the utility of our approach more clear, we have developed many proof of concept applications which we have developed.

Introduction to Skinput Technology

The primary goal of skinpot is to always provide the available mobile input system - that is an input system that the user does not need to take or take the device, many alternative approaches have been proposed at this place. Techniques are popular on the basis of computer vision, however, these are computationally expensive and error prone in mobile scenarios (where the non-input optical flow is prevalent) speech input is always a logical choice for available input, but unexpected acoustic environment It is limited in its accuracy, and suffers from privacy and scalability problems in a shared environment. Other methods have taken the form of wearable computing

It usually includes a physical input device which is considered to be part of someone's clothes. For example, glove based input systems allow users to maintain their natural arm movements, but are cumbersome, uncomfortable and disruptive to the tangent sensation. There is a "smart fabric" system in post and in arthritic which embeds the sensor and conductor in the abreak, but for this always-available input, this approach requires embedding technique in all fabrics, prohibitably complex and expensive Will be

The Sextonance project proposes a mobile, always available input / output capability, combining the approximate information with a color-marker-based vision tracking system. This approach is possible, but suffers from serious obstacles and limitations of accuracy. For example, to determine that, for example, a finger has taped a button, or is hovering over it, it is exceptionally difficult