WALLOPS ISLAND, Vir. (Nov. 19, 2013) — A satellite built by University of Hawaiʻi at Mānoa students was launched from NASAʻs Wallops Flight Facility in Wallops Island, Virginia.
It is the first UH-built satellite to be launched into space and will fill a critical need by performing radar calibration and performance monitoring for U.S. Department of Defense and NASA radar stations that track missiles, aircraft, rockets, satellites, asteroids, and space junk.
About 50 students from the UH Mānoa College of Engineering’s Small-Satellite Program, established by Professor Wayne Shiroma in 2001, have spent the last four years designing and building the cube satellite, or CubeSat, from scratch. Dubbed Hoʻoponopono 2 or H2, it measures 4 inches by 4 inches by 13 inches, about the size of a loaf of bread, weighs less than 9 pounds and cost $220,000 to build. It replaces a satellite 20 times larger and 40 times more expensive that recently failed in orbit and left the radar community without a dedicated calibration satellite. Ho‘oponopono means “to make right” in Hawaiian, an appropriate name for a calibration satellite.
“We have exceptional students at the University of Hawai‘i, and I couldn’t be prouder of the team,” said Shiroma, who attended today’s launch. “Creating, building and deploying the first radar calibration satellite in CubeSat form demonstrated the ability of our UH student team to address an urgent operational need at very low cost, and simultaneously provided immense educational value.”
“We congratulate Dr. Shiroma and his students on this historic effort,” said Interim UH President David Lassner. “The development and launch of Ho‘oponopono 2 illustrates how the University of Hawaiʻi is helping to solve some of the nation’s most pressing problems and is training the workforce for the high quality jobs we are helping to build here.”
The UH Small-Satellite Program has trained more than 250 students since 2001 and has brought in more than $1 million in funding, including funding from student-solicited proposals. Graduates have gone on to work for major aerospace companies, including Northrop Grumman, Boeing, Raytheon, Lockheed Martin and more.
Three of the program’s students have been recognized as the “Most Outstanding EE Student in the Nation” by IEEE-HKN, the international honor society for electrical engineers. Larry Martin is a UH Mānoa graduate student who received that honor and he is currently the H2 project program manager.
Martin, who also attended today’s launch, said, “It is so exciting to see all of our hard work launched into space and now being put to good use. It is also gratifying that the skills we have gained through building H2 are the same skills that major engineering companies are employing today.”
H2 is just one of UH’s aerospace initiatives. The first space launch from Hawai‘i, which will also be carrying a UH student-built satellite, is scheduled for the second quarter of 2014 from Kaua‘i’s Pacific Missile Range Facility (PMRF). UH’s Hawai‘i Space Flight Laboratory, a collaboration between UH Mānoaʻs School of Ocean and Earth Science and Technology and the College of Engineering, is an important partner in that launch. Several UH Community College campuses are also involved in the project.
UH Mānoa Chancellor Tom Apple said, “These projects demonstrate our commitment to working with sister campuses to develop research that matters to the entire State of Hawai‘i.”
Hawai‘i’s first space launch known as ORS-4 is sponsored by the U.S. Air Force’s Operationally Responsive Space Office (ORS) Office and is the first launch of the Super Strypi launch system. This mission will demonstrate a new, low-cost launch capability able to deliver 300 kilograms to low-earth orbit. This is the first orbital launch for PRMF and will carry the University of Hawai’i’s hyperspectral imager as the primary payload along with 12 CubeSats in an integrated payload stack. This demonstration will enable low-cost launch alternatives and range processes for the future.
H2 and ORS-4 both represent the tremendous possibilities of the Hawai‘i Innovation Initiative, in which the university is partnering with the private sector and government to cultivate a $1-billion research industry in Hawaii over the next decade.
The University of Hawai‘i (UH) was established in 1907 and its campuses are all fully accredited by the Western Association of Schools and Colleges. The UH System now comprises all public higher education in the State and provides a rich array of associate, baccalaureate, graduate, and professional degrees and certificates to about 60,000 students through seven community colleges, two baccalaureate campuses and a major research university that holds land-, space- and sea-grant designations. For more information, visit www.hawaii.edu.
The University of Hawai‘i is working in partnership with the private sector and government to build a thriving $1-billion research enterprise in Hawai‘i that will develop a third major economic sector for the State, create thousands of high-quality living-wage jobs, and address the challenges and opportunities that face our communities and the world to improve our quality of life. More information about the Hawai‘i Innovation Initiative is available online at http://hawaii.edu/innovation.
The College of Engineering has launched thousands of successful careers in Hawai‘i and throughout the world. Graduates occupy key roles with engineering firms, government agencies, defense contractors, and as entrepreneurs. Many of its 9,000 alumni have made significant engineering contributions to the state’s infrastructure and are now set on accomplishing similar tasks abroad. The College’s respect for the Hawaiian culture is reflected in its successful mentoring program for under-represented science and engineering students. As the College celebrated 100 years of engineering education at Mānoa in 2008, it is focused on becoming a major contributor to Hawai‘i’s renewable energy and sustainable future. For more information, visit www.eng.hawaii.edu.
This mission is sponsored by the Air Force’s Operationally Responsive Space Office.The ORS-3 Mission, also known as the Enabler Mission, will demonstrate launch and range improvements to include: These enablers not only focus on the ability to execute a rapid call up mission, they reduce engineering hours from months to days resulting in decreased mission costs.