UH to develop new wireless communications systems to serve remote areas

University of Hawaiʻi at Mānoa
Contact:
Magdy Iskander, (808) 956-3434
Director, Hawaii Center for Advanced Communications
Talia Ogliore, (808) 956-4531
Public Information Officer, Vice Chancellor for Research
Posted: Oct 13, 2014

HCAC testing communications technologies in a remote setting.
HCAC testing communications technologies in a remote setting.
HCAC faculty and students hard at work in challenging terrain conditions.
HCAC faculty and students hard at work in challenging terrain conditions.
The indoor antenna range at UH Manoa is a unique research facility for advanced communications.
The indoor antenna range at UH Manoa is a unique research facility for advanced communications.

Advanced communications technology could bring broadband wireless service to remote and rural areas in the Hawaiian Islands, under a new research grant funded by the National Science Foundation.

The Hawai‘i Center for Advanced Communications at the University of Hawai‘i at Mānoa's College of Engineering received $500,000 to pursue an innovative solution based on improving the efficiency of radio spectrum utilization.

And we’re not just talking about wireless for folks living off the grid in Hāna. Across the United States, more than 19 million people, or 6 percent of the population, do not have access to reliable broadband communications coverage. Availability of such coverage is essential to education, jobs, health care and economic development, yet many people living in rural or otherwise inaccessible areas have only low-speed dial-up access or no data service at all.

Rough terrain and large undeveloped areas often present challenges to the implementation of cost-effective and reliable broadband wireless service.

HCAC is proposing a new solution based on the use of smart networking with high-performance directional antennas, propagation modeling applications, and spectrum-sensing resources.

“New network access protocols need to be developed, so that these advances may be achieved without affecting available communications standards and systems,” said Magdy F. Iskander, Director of the Hawai‘i Center for Advanced Communications. “Our solution represents a bold new concept for integrating these new capabilities to support customers in low-density regions.”

The program director for the NSF Electrical, Communications and Cyber Systems division who recommended the grant described the HCAC proposal as "an excellent proposal which will make a major impact on wireless communications for rural areas . . . [It] will have a transformative impact on rural communities.”

The new NSF funding will support three years of research and development activity, during which time Iskander and the HCAC team will develop a prototype of their new broadband technology and test it in rural areas in Hawai‘i.

About the Hawaii Center for Advanced Communications (HCAC): http://hcac.hawaii.edu/ 
The Hawaii Center for Advanced Communications at the College of Engineering, University of Hawai'i at Mānoa is a multidisciplinary, autonomous research center in broadband wireless telecommunications and advanced radar technologies with joint research and educational activities that promote national and international collaboration and partnership with industry in support of economic development in Hawaii.

For more information, visit: http://www.eng.hawaii.edu/