arm as a touchscreen 1
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TRANSCRIPT
ARM AS A TOUCHSCREEN
Presented ByAbhijeet S. Kapse
Guided ByProf. S.B. Somani
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Introduction What is Skinput Principle of Skinput How it works Advantages Applications Future Implementation Conclusion
Overview
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Mobiles becomes ubiquitous Mobility, flexibility, responsiveness getting
more demands Devices with small sized have some
limitations Can’t make buttons and screens large without losing benefit of small sized Microsoft introduces new flesh-control input
technology-”Skinput”
Introduction
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Collaboration between Chris Harrison at Carnegie Mellon University and team of Microsoft research lab.
Touch-Screen gadgets have become popular due to the advantages they come with
Skinput turns the body into a touch-screen interface
What Is Skinput
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Skinput allow the users to simply tap their skin in order to control mobile applications
It applies the use of series of sensors to determine where user taps on their arms
Each part of body creates different types of vibrations depending on features of bones, muscle and tendons
Principle Of Skinput
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Pico-Projector
How It Works
Bluetooth
Bio-Acoustics
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Pico-Projector: Small Sized Projector to Display menu Widely Used in Gadgets like Mobile ,
Camera
How It Works
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Bio-Acoustics: Study Of Sound waves inside living body When a finger taps the skin, distinct forms
of acoustics energy are produced- Longitudinal waves Transverse waves
How It Works
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Bio-Acoustics
Transverse Wave Propagation
Longitudinal Wave Propagation
• Finger Impacts creates transverse waves(ripples)
• Sensor is Activated as wave passes underneath it
• Finger impact creates longitudinal (compressive)waves
• Causes internal skeletal structure to vibrate
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Sensors
• Wave Sensor Armband
• Responsive to the Vibrations
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Vibrations are Captured from Sensors and
Converted to Digital signal form
This is connected to Mobile device Via Bluetooth
A Software to match sound frequencies to Specific skin
location is used
Corresponding Action is implemented in Device
Processing : Model
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Experimental Condition
Fingers •Tapping on tips of fingers• Accurately Interact with eyes free manner
Arm• Maximum Surface area• Provides 10 Different Locations
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Analysis:
Ten Channels of acoustic data generated by three finger taps on the Forearm, followed by three taps
on Wrist
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BMI Effect :
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No need to interact with the gadget directly. Don’t have to worry about keypad. People with larger fingers get trouble in
navigating tiny buttons and keyboards on mobile phones.
With Skinput that problem disappears. Can be used without visual screen
Advantages
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Mobile i-Pods Gaming Simpler Browsing System
Applications
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Small Sized Pico-projector Wrist watch size sensor armband
Future Implimentation
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We have presented the approach to appropriating the human body as an input surface.
We described a novel wearable bio acoustic array used to detect and localize finger taps on the hand and forearm.
Conclusion
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1) Chris Harrison, Desney Tan, and Dan Morris “Skinput: Appropriating the Skin as an Interactive Canvas” Microsoft Research 2011.
2) Chris Harrison, Scott E. Hudson “Scratch Input: Creating, Large
Inexpensive, Unpowered and Mobile Finger Input Surfaces” UIST 2008.3) Amento, B.Hill, W.Terveen “The Sound of one Hand: A wrist- mounted bio-acoustic fingertip gesture interface” CHI’02.4) Thomas Hahn “Future Human Computer Interaction with
special focus on input and output techniques” HCI March 2006.
References
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Thank You
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