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Name of
proposer(s): |
Drs. Semwal and Dandapani |
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Title of proposed
area: |
Wearable Computing with Systems-on-Chip, Reconfigurable Systems and Mobile Computing |
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Type of activity:
e.g., research, teaching or outreach |
Research, teaching, and outreach |
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Brief description
of area – keywords: |
Virtual Reality to Go, Wearable
Computing is defined as next generation computing which is expected
to seamlessly blend computing embodied within the human-body. New miniaturized devices are appearing in
fashion shows and movies, leading to new awareness of computing which can
extend the boundaries of human-computer interaction. Miniaturized head-mounted displays and
eye-glasses, watches, jackets, and PDAs are some examples of such technology
combining VR with VLSI technology. |
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Criteria |
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Existing support for
area. Who, among our faculty, can
support this? Do they have expertise and experience in this area? How willing
are they to contribute? What other support exists for this area and what is
needed? Dr. Semwal brings his expertise in the area virtual reality, graphics and HCI to this effort and will be teaching a course on wearable computing in spring 2003. Dr. Dandapani, Chair of ECE Department, provides expertise in the area of VLSI technology and is the cofounder of the Wearable Computing laboratory with Dr. Semwal. Dr. Chow is providing the mobile computing and network research support to our efforts. Dr. Wang will provide the VLSI, parallel processing, and mobile computing efforts. Dr. Carlos Araujo, a systems-in-chip expert, is part of the team providing his vast knowledge of running a successful company (Symetrix). In addition, Drs. Kalkur, Plett, and Cilletti have been also identified as interested in the general area of system-on-chip which complement the wearable computing research. Research in the area of medical applications is expected with the Biology departments (Drs. Jeff Broker, Melamede, Dana Fields), and Dr. John Elias of Medical Education and Research Group of Colorado. A large number of graduate (approximately 30 or so) students are already working in these areas with Drs. Semwal, Dandapani, Chow, Wang, and Araujo, Kalkur and others. At present, the wearable computing laboratory will be housing Magnetic Trackers through an Intel Grant; and an SGI donated by Miagration Associate Corporation through Dr. Ziemer, Director of Research Development Center. In addition, Microvision’s NOMAD system for augmented reality work would also be available to this laboratory. Other equipments and projects are expected in the future for both research and teaching. |
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Employment opportunities. If we support this area in our curriculum, what
are the future employment forecasts for employing these students once they
graduate? The general area is already supported by existing courses: there are six courses related to the general area of Wearable Computing, Human Computer Interaction, Graphics, virtual reality. In addition ECE Department offers several courses in the area of VLSI design and communication. In addition mobile computing courses are being offered in the area of networks in both CS and ECE Departments. Together, these already provide a solid foundation to pursue this exciting field. Wearable computing also is an application of systems-on-chip design and mobile computing. Students with an expertise in these areas already find employment locally. In addition, wearable computing will be an important aspect of future computing and is expected to provide students jobs locally, state-wise and internationally. Because Wearable Computing has applications for both military and civilian application, participation with North Command through NISCC, and support of local telecommunication industry would be sought. |
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External funding
opportunities. What and how strong
are the opportunities to support this area with external funding? Federal,
state funding agencies should be considered in research and outreach areas
while Extended studies might be sources of revenue for teaching areas. NSF, NIH, Education (K-12) are examples of national agencies. Partnership with district schools (K-12) is expected as wearable computing can directly benefit the teaching efforts. Traditionally military applications have dominated the Wearable computing research in the past, and collaboration with NISSC and Northern Command is expected. Aerospace Engineering applications, medical applications, nano-devices, biomedical and biomechanical applications of nano-devices are but a few examples of commercial applications of our research. |
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Community engagement. Do the stakeholders beyond the college (campus,
community, system, state) have a strong interest in the area under question?
E.g., aerospace industry needs system engineers Olympic training center, UCCS biology department, K-12 education,
Aerospace Industry, Intel VLSI industry, Symetrix are examples of
community partnership which we expect to form. Relationship with NISCC, North Command, and local
telecommunications industry is expected and will be sought. |
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Costs. What are the types of costs to the College to
sustain our current efforts and what are the anticipated costs for
appropriate growth? E.g., new faculty or staff positions, equipment, graduate
students, etc We believe that a critical
mass exist in the college to conduct teaching, research and outreach activity
in this area, and no immediate resources are needed at this time. Depending upon the funding, there might be
a need to hire more faculty/laboratory space sometime in next five years. As a part of systems-on-chip and mobile
computing, wearable computing group will be seeking seed grants through
college and university as appropriate. Dave Lohman is providing the
system administrating support to the wearable computing efforts at this time. |