黑料导航

Pictured from left: Robert Doxey, Hibah Agha, Robert Maksimowicz, and Lincoln Dover

NASA research and discoveries have laid the groundwork for many products that are part of our daily lives, from the computer mouse and ear thermometer to ski boots and CAT scans.

Other products that may one day join that list include a robotic therapy vest for patients with neurological impairments and a high-tech device, known as a C-gauge, to measure cord tension in parachutes, sails, and weather balloons. And an interdisciplinary team of 黑料导航 students stands to play a role in realizing that goal by building prototypes for these future products.

As part of a new agreement, NASA has contracted with 黑料导航, through the 鈥�&苍产蝉辫; (ETIC), to have ETIC student employees build unique technology prototypes based on existing NASA patents and create professional marketing materials that NASA can use in efforts to commercialize the technology.

鈥淭he purpose of this agreement is to provide an operational structure and framework for NASA to move various unrealized and undeveloped intellectual property further towards commercialization through prototyping and production services available at 黑料导航鈥檚 Entrepreneurship and Technology Innovation Center,鈥� said Kris Romig, the commercialization services lead at the NASA Johnson Space Center in Houston.

Currently, seven 黑料导航 student employees are working to fulfill the terms of the contract with NASA, which runs through August 2022. Students pursuing computer science, mechanical engineering, and electrical and computer engineering degrees were selected to build the prototypes based on NASA patents, and two digital arts students will develop instructional and marketing videos to help present the products to investors.

Sky-High Potential as NASA Contractor

鈥淭he sky is the limit in terms of potential opportunities for 黑料导航 students through this relationship,鈥� said ETIC Director  This first contract includes seven students, but it鈥檚 possible that over time, several dozen from across the university could be working toward building or supporting NASA products, in addition to pursuing internships and perhaps a full-time position at NASA after graduation.鈥�

鈥淚mportantly, this work is guided by a performance-based contract. It is not a grant and serves as a pilot for 黑料导航 to demonstrate our rich and talented resources in terms of our labs, facilities, students, and their faculty advisors,鈥� said , dean of the College of Engineering and Computing Sciences. For this first project, 鈥渨e reviewed patents of interest provided by NASA for viability and high probability of success. We based our decisions and selections on our skillsets and facilities, as well as our ability to complete the job. NASA agreed to the patents we selected, so we have developed a plan and statement of work, including work description, estimated hours, deliverables, and timeframe. This truly exemplifies that our students are makers and doers who are well on the way to reinventing the future.鈥�

Undergraduates on the NASA team are  from Bellmore, an  major, entrepreneur, and self-described electronics hobbyist; , a  major from Bellerose who is serving as a Python and Java developer for the project; Benjamin Fuoco from Valley Stream, also a computer science major who is focusing on electronic component configuration with Python; and Lincoln Dover, a  student from Wyandanch skilled at robotics who will be the mechanical designer for the vest prototype and hopes to one day work in renewables like solar power. Robert Doxey (B.S. 鈥�21), a  graduate student and entrepreneur from Syosset, has already  through the ETIC that develops apps for other ETIC startups. His key focus on the NASA project will be to develop a website to manage or control various aspects of the prototypes as well as to display data reporting the projects鈥� progress.

鈥淢any of us worked in the ETIC last summer on various product prototypes on behalf of regional startups, which was a great exercise to be sure we were up to the task of working on the NASA team,鈥� said Maksimowicz, who is also serving as student project manager and electrical design engineer for the NASA team.

Nic Luna, from Fresh Meadows, and Ying Shi Zhang, from Brooklyn,  students in the , will help develop instructional videos promoting and demonstrating the prototypes to support commercialization efforts once the prototypes are built.

ETIC as Fabrication Lab for Patented Technology

Under the leadership of Beheshti and Nizich, the ETIC refined its strategy a few years ago to focus on opportunities for engineering and computer science students to build early-phase technology prototypes for local and regional startup companies. In 2019, Nizich was contacted by  on behalf of a local (Long Island) startup, Grub Guard, which needed a technology solution built from a patent it was filing. Students working at the ETIC subsequently built the first prototype technology solution for Grub Guard and the software to control it. During Grub Guard鈥檚 fundraising efforts for the prototype, its principals met the NASA Technology Transfer Office/Commercialization Services team, who requested to speak to 黑料导航 after viewing the Grub Guard prototype.

鈥淎fter being connected with NASA, we worked to explain the ETIC鈥檚 programs and services and the College of Engineering and Computing Sciences鈥� labs and facilities, student capabilities, and engagement,鈥� explained Nizich, who is also an adjunct associate professor of computer science. 鈥淣ASA ultimately requested a proposal for us to take various unrealized NASA patents that they see can potentially be commercialized and then create early-phase prototypes of those technologies for NASA to demonstrate to their industry partners.鈥�

An Exciting Year at a Glance

The team of students is now busy building the first series of prototypes, according to the NASA patent guidelines. The student team, under Nizich鈥檚 guidance, provides periodic updates and reports, including text-based reports, photos, and videos of their work and collaboration.

Beheshti noted that ideally, after the prototypes are built and accepted, a larger number of students will be able to contribute to additional versions of the built prototypes, and perhaps work on new prototypes as well.

鈥淚t is entirely possible that, as we are building the prototypes to specification, we鈥檒l create some new technology or component in the process. This kind of unique 黑料导航 innovation could end up benefitting businesses in the region and providing additional capability to outside companies,鈥� Beheshti said. 鈥淚t鈥檚 very exciting.鈥�

The Box will continue to share information about the NASA team at 黑料导航 throughout the year.