Alan Dix Snip!t: Technology Review: Blogs: Mims's Bits: Adding Temperature to Human-Computer Interaction

Snip summary	An experimental new game controller adds the sensation o... Touch interfaces and haptic feedback are already a part ... Based on the Peltier effect, these solid-state devices a ... In this configuration, just announced at the 2010 SIGGRA ... ... list t Technology Review: Blogs: Mims's Bits: Adding Temperature to Human-Computer Interaction http://www.technologyreview.com/blog/post.aspx?bid=377&bpid=25544

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An experimental new game controller adds the sensation o...
Touch interfaces and haptic feedback are already a part ...
Based on the Peltier effect, these solid-state devices a ...
In this configuration, just announced at the 2010 SIGGRA ...
... list t

Technology Review: Blogs: Mims's Bits: Adding Temperature to Human-Computer Interaction: http://www.technologyreview.com/blog/post.aspx?bid=377&bpid=25544

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An experimental new game controller adds the sensation of hot and cold to users' experience of a simulated environment

Touch interfaces and haptic feedback are already a part of how we interact with computers, in the form of iPads, rumbling video game controllers and even three-dimensional joysticks. As the range of interactions with digital environments expands, it's logical to ask what's next: Smell-o-vision has been on the horizon for something like 50 years, but there's a dark horse stalking this race: thermoelectrics.

Based on the Peltier effect, these solid-state devices are easy to incorporate into objects of reasonable size, i.e. video game controllers.

In this configuration, just announced at the 2010 SIGGRAPH conference, a pair of thermoelectric surfaces on either side of a controller rapidly heat up or cool down in order to simulate appropriate conditions in a virtual environment.

The temperature difference isn't large - less than 10 degrees heating or cooling after five seconds, but the researchers involved discovered that, as with haptics, just a little sensory nudge can be enough to convince involved participants in a virtual environment that they are experiencing something like the real thing.

This graph shows that users responded to the change in temperature in a second (for cooling) or after about two and a half seconds (for heating), a difference they attribute to the inherent difference in sensitivity to hot or cold of the human palm.

The research was conducted by researchers at Tokyo Metropolitan University, with collaboration from the National Institute of Special Needs Education. Not coincidentally, among their aims for the device, they list temperature-transmitting interfaces for the blind.

HTML	<div class="blogdek">An experimental new game controller adds the sensation of hot and cold to users' experience of a simulated environment</div> <div style="margin-top: 12px;"><div class="blogfloatimg"><table border="0" cellpadding="0" cellspacing="0"><tbody><tr><td><div><img src="http://www.technologyreview.com/blog/file.aspx?bid=377&ufid=44762" alt="" width="345" height="204"></div></td></tr></tbody></table></div> <p>Touch interfaces and haptic feedback are already a part of how we interact with computers, in the form of iPads, rumbling video game controllers and even <a href="http://www.destructoid.com/peripherally-speaking-novint-falcon-140503.phtml" target="_blank">three-dimensional joysticks</a>. As the range of interactions with digital environments expands, it's logical to ask what's next: Smell-o-vision has been <a href="http://today.msnbc.msn.com/id/20714557" target="_blank">on the horizon</a> for <a href="http://en.wikipedia.org/wiki/Smell-O-Vision" target="_blank">something like 50 years</a>, but there's a dark horse stalking this race: thermoelectrics.</p> <p>Based on the <a href="http://en.wikipedia.org/wiki/Peltier_effect#Peltier_effect" target="_blank">Peltier effect</a>, these solid-state devices are easy to incorporate into objects of reasonable size, i.e. video game controllers.</p> <p>In this configuration, <a href="http://portal.acm.org/citation.cfm?id=1836900&dl=ACM&coll=ACM&CFID=96334813&CFTOKEN=11010805" target="_blank">just announced</a> at the 2010 SIGGRAPH conference, a pair of thermoelectric surfaces on either side of a controller rapidly heat up or cool down in order to simulate appropriate conditions in a virtual environment.</p> <p><img src="http://www.technologyreview.com/blog/file.aspx?bid=377&ufid=44763" alt="" width="254" height="254"></p> <p>The temperature difference isn't large - less than 10 degrees heating or cooling after five seconds, but the researchers involved discovered that, as with haptics, just a little sensory nudge can be enough to convince involved participants in a virtual environment that they are experiencing something like the real thing.</p> <div class="blogfloatimg"><table border="0" cellpadding="0" cellspacing="0"><tbody><tr><td><div><img src="http://www.technologyreview.com/blog/file.aspx?bid=377&ufid=44764" alt="" width="342" height="218"></div></td></tr></tbody></table></div> <p>This graph shows that users responded to the change in temperature in a second (for cooling) or after about two and a half seconds (for heating), a difference they attribute to the inherent difference in sensitivity to hot or cold of the human palm.</p> <p>The research was conducted by researchers at Tokyo Metropolitan University, with collaboration from the National Institute of Special Needs Education. Not coincidentally, among their aims for the device, they list temperature-transmitting interfaces for the blind.</p></div>

HTML

<div class="blogdek">An experimental new game controller adds the sensation of hot and cold to users' experience of a simulated environment</div> <div style="margin-top: 12px;"><div class="blogfloatimg"><table border="0" cellpadding="0" cellspacing="0"><tbody><tr><td><div><img src="http://www.technologyreview.com/blog/file.aspx?bid=377&ufid=44762" alt="" width="345" height="204"></div></td></tr></tbody></table></div> <p>Touch interfaces and haptic feedback are already a part of how we interact with computers, in the form of iPads, rumbling video game controllers and even <a href="http://www.destructoid.com/peripherally-speaking-novint-falcon-140503.phtml" target="_blank">three-dimensional joysticks</a>. As the range of interactions with digital environments expands, it's logical to ask what's next: Smell-o-vision has been <a href="http://today.msnbc.msn.com/id/20714557" target="_blank">on the horizon</a> for <a href="http://en.wikipedia.org/wiki/Smell-O-Vision" target="_blank">something like 50 years</a>, but there's a dark horse stalking this race: thermoelectrics.</p> <p>Based on the <a href="http://en.wikipedia.org/wiki/Peltier_effect#Peltier_effect" target="_blank">Peltier effect</a>, these solid-state devices are easy to incorporate into objects of reasonable size, i.e. video game controllers.</p> <p>In this configuration, <a href="http://portal.acm.org/citation.cfm?id=1836900&dl=ACM&coll=ACM&CFID=96334813&CFTOKEN=11010805" target="_blank">just announced</a> at the 2010 SIGGRAPH conference, a pair of thermoelectric surfaces on either side of a controller rapidly heat up or cool down in order to simulate appropriate conditions in a virtual environment.</p> <p><img src="http://www.technologyreview.com/blog/file.aspx?bid=377&ufid=44763" alt="" width="254" height="254"></p> <p>The temperature difference isn't large - less than 10 degrees heating or cooling after five seconds, but the researchers involved discovered that, as with haptics, just a little sensory nudge can be enough to convince involved participants in a virtual environment that they are experiencing something like the real thing.</p> <div class="blogfloatimg"><table border="0" cellpadding="0" cellspacing="0"><tbody><tr><td><div><img src="http://www.technologyreview.com/blog/file.aspx?bid=377&ufid=44764" alt="" width="342" height="218"></div></td></tr></tbody></table></div> <p>This graph shows that users responded to the change in temperature in a second (for cooling) or after about two and a half seconds (for heating), a difference they attribute to the inherent difference in sensitivity to hot or cold of the human palm.</p> <p>The research was conducted by researchers at Tokyo Metropolitan University, with collaboration from the National Institute of Special Needs Education. Not coincidentally, among their aims for the device, they list temperature-transmitting interfaces for the blind.</p></div>

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