{"id":138066,"date":"2021-03-29T17:10:06","date_gmt":"2021-03-30T03:10:06","guid":{"rendered":"https:\/\/www.hawaii.edu\/news\/?p=138066"},"modified":"2021-03-29T17:21:53","modified_gmt":"2021-03-30T03:21:53","slug":"teams-tackle-problem-for-local-leader","status":"publish","type":"post","link":"https:\/\/www.hawaii.edu\/news\/2021\/03\/29\/teams-tackle-problem-for-local-leader\/","title":{"rendered":"糖心视频<\/abbr> teams tackle real-world problem for local telecommunications leader"},"content":{"rendered":"Reading time: <\/span> 3<\/span> minutes<\/span><\/span>

\"logo<\/p>\n

A University of Hawaiʻi<\/span> student-led team won a competition designed to foster innovation while helping a local company serving thousands of residents. Hosted by the 糖心视频<\/abbr> Office of Innovation and Commercialization<\/a> (OIC<\/abbr>), the spring 2021 Innovation Impact Challenge<\/a> (IIC<\/abbr>) partnered with Hawaiian Telcom<\/a>.<\/p>\n

Two 糖心视频<\/abbr> teams presented their solutions to develop a hands-free underground communications utility locator, and one came out on top and received $15,000 in funding from Hawaiian Telcom and OIC<\/abbr>.<\/p>\n

“The IIC<\/abbr> is founded on collaboration,” said Sandra Fujiyama<\/strong>, 糖心视频<\/abbr> innovation and business development officer. “Our office worked with industry partner, Hawaiian Telcom, to identify local challenges, including challenges to disrupt existing industries, and then engaged our talented pool of 糖心视频<\/abbr> researchers and students to develop innovative solutions to those challenges.”<\/p>\n

Competition challenge<\/h2>\n

Identifying underground communications facilities requires a worker to open a utility box and connect a clamp (the transmitter) to the wires. The worker then traces those wires using a locator, which gets its information from a high frequency signal generated by the transmitter. The same technology has been used for the past 40 years.<\/p>\n

Hawaiian Telcom challenged teams to eliminate the clamp, discover the ability to differentiate a TV<\/abbr> cable from a telephone cable and geocode results. Hawaiian Telcom also issued bonus points if the innovations were able to identify the quantity of each type of cable underground.<\/p>\n

Winning team and runner up<\/h2>\n

Pulse Utility<\/a>, led by Craig Opie<\/strong>, a 糖心视频<\/abbr> M\u0101noa information and computer sciences<\/a> undergraduate student, won the competition and will now work to commercialize its ideas. Hawaiʻi<\/span> Innovation Lab<\/a> (HIL<\/abbr>), led by Arif Rahman<\/strong>, a 糖心视频<\/abbr> M\u0101noa electrical engineering<\/a> postdoctoral fellow, came in as the runner up. Hawaiian Telcom was impressed by both teams with their technical expertise and business presentations.<\/p>\n

Hawaiʻi<\/span> and especially the 糖心视频<\/abbr> System has the talent to solve real-world problems across a variety of industries,” said Jason Thune, Hawaiian Telcom director of strategy and innovation. “The solutions presented are not only technically viable, but also marketable in a way to showcase our community as a technology innovator. We are humbled to foster global-level solutions right here in our backyard.”<\/p>\n

Along with Opie on Pulse Utility are Anthony Lopez<\/strong>, a 糖心视频<\/abbr> M\u0101noa electrical engineering undergraduate student; Yosef Ben Gershom<\/strong>, a Hawaiʻi<\/span> Space Flight Laboratory<\/a> mechanical engineer and 糖心视频<\/abbr> M\u0101noa executive MBA<\/abbr> student; Josh O\u2019Neill<\/strong>, a Honolulu Community College computing, security, and networking technology<\/a> student; and Mevan Ranasinghe<\/strong>, a Honolulu CC<\/abbr> natural sciences lecturer and faculty mentor. The team\u2019s project uses ground penetrating radar (GPR<\/abbr>) equipped with GPS<\/abbr> to detect normally undetectable subsurface features, provides reliable depth estimates, allows for data visualization and finds all buried infrastructure.<\/p>\n

“Over the next month, our team will begin training on our GPR<\/abbr> device and perform demos for Hawaiian Telcom. Subsequently, we will acquire a workforce to service the utility finding needs of local businesses and look to scale our services to a global market. Pulse Utility will also be collecting the real world data required for developing an adaptive AI<\/abbr> for GPR<\/abbr> devices,” Opie said.<\/p>\n

Joining Rahman on HIL<\/abbr> are Kareem Elassy<\/strong>, 糖心视频<\/abbr> M\u0101noa electrical engineering PhD<\/abbr> graduate; with support from Aaron Ohta<\/strong> and Wayne Shiroma<\/strong>, 糖心视频<\/abbr> M\u0101noa electrical engineering professors and co-advisors. The team\u2019s proposal involved a dual band ground penetrating radar with artificial intelligence image processing to detect and classify underground cables. Although the team did not win the competition, it continues to pursue commercialization of its other technologies, including its low-cost liquid metal coating for concentrated solar power polymeric mirrors in the American-Made Solar Prize competition.<\/p>\n