<div dir="ltr">Steffen -- would it be possible to send out a video conference/go to meeting link for your defense so that people in the lab that are at internships can watch? I imagine Gerhard will already be using something like this anyways...</div>
<div class="gmail_extra"><br><br><div class="gmail_quote">On Mon, Jul 7, 2014 at 10:05 AM, Jillian Title <span dir="ltr"><<a href="mailto:jillian.title@cs.ucsb.edu" target="_blank">jillian.title@cs.ucsb.edu</a>></span> wrote:<br>
<blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex">
<div bgcolor="#FFFFFF" text="#000000">
PhD Defense<br>
<b>Steffen Gauglitz</b><br>
Monday, July 14th at 11:00am<br>
ESB 2001<br>
<b><br>
</b><b>Committee: </b>Tobias Hollerer (Chair), Matthew Turk,
Pradeep Sen, Susan Fussell (Cornell University), Gerhard Reitmayr
(Qualcomm Research)<br>
<b><br>
</b><b>Title: </b>Interactive Remote Collaboration Using Augmented
Reality<br>
<br>
<b>Abstract: </b>With the widespread deployment of fast data
connections and availability of a variety of sensors for different
modalities, the potential of remote collaboration has greatly
increased. While the now ubiquitous video conferencing applications
take advantage of some of these capabilities, the use of video
between remote users is limited to passively watching disjoint video
feeds and provides no means for interaction with the remote
environment. However, collaboration often involves sharing,
exploring, referencing, or even manipulating the physical world, and
thus tools should provide support for these interactions. <br>
<br>
We suggest that augmented reality is an intuitive and user-friendly
paradigm to communicate information about the physical environment,
and that integration of computer vision and augmented reality
facilitates more immersive and more direct interaction with the
remote environment than what is possible with today's tools. <br>
<br>
In this dissertation, we present contributions to realizing this
vision on several levels. First, we describe a conceptual framework
for unobtrusive mobile video-mediated communication in which the
remote user can explore the live scene independent of the local
user's current camera movement, and can communicate information by
creating spatial annotations that are immediately visible to the
local user in augmented reality. Second, we describe the design and
implementation of several, increasingly more flexible and immersive
user interfaces and system prototypes that implement this concept.
Our systems do not require any preparation or instrumentation of the
environment; instead, the physical scene is tracked and modeled
incrementally using monocular computer vision. The emerging model
then supports anchoring of annotations, virtual navigation, and
synthesis of novel views of the scene. Third, we describe the
design, execution and analysis of three user studies comparing our
prototype implementations with more conventional interfaces and/or
evaluating specific design elements. Study participants
overwhelmingly preferred our technology, and their task performance
was significantly better compared with a video-only interface,
though no task performance difference was observed compared with a
``static marker'' interface. Last, we address a particular technical
limitation of current monocular tracking and mapping systems which
was found to be impeding and present a conceptual solution; namely,
we describe a concept and proof-of-concept implementation for
automatic model selection which allows tracking and modeling to cope
with both parallax-inducing and rotation-only camera movements. <br>
<br>
We suggest that our results demonstrate the maturity and usability
of our systems, and, more importantly, the potential of our approach
to improve video-mediated communication and broaden its
applicability.<br>
<br>
Everyone Welcome!<span class="HOEnZb"><font color="#888888"><br>
<br>
<pre cols="72">--
Jillian Title
Graduate Advisor
Department of Computer Science
University of California Santa Barbara
2104 Harold Frank Hall
Santa Barbara, CA 93106-5110
<a href="tel:%28805%29%20893-4322" value="+18058934322" target="_blank">(805) 893-4322</a></pre>
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<br></blockquote></div><br></div>