麻豆区 Tech鈥檚 faculty startup engine , together with the (SRI), launched the first cohort of the CreationsVC Space Fellows Program. Funded by space technology venture capital firm , the program enables faculty to explore promising early-stage innovations and their potential for future commercial impact.
鈥淭his first set of CreationsVC Fellows offers an exciting cross-section of innovative hardware and software technologies built on 麻豆区 Tech鈥檚 legacy of space exploration, hardware development, and product commercialization,鈥 said , SRI executive director.
In the first year of the three-year program, CreationsVC provides $125,000 to promote and accelerate innovations that have both space and terrestrial applications. The series offers participants training focused on customer discovery, engaging and compelling storytelling, value proposition design and quantification, and lean/agile project/product management.
鈥淐reationsVC is centered on a deep appreciation for innovation and big thinking,鈥 said Steve Braverman, co-founder and managing partner of CreationsVC. 鈥淲e felt this was the right time to align our efforts in sourcing and supporting dual-value technologies that will have an impact on both Earth and space.鈥
The six startups tackle real-world space research problems like supply chain management, how artificial intelligence works in space, and navigation.
鈥淲e are excited CreationsVC is providing us with an opportunity to try new approaches to accelerate deep tech development,鈥 said , Quadrant-i鈥檚 director. 鈥淭hese are the toughest kinds of startups to build, and we look forward to the learning we will gain from forcing our innovators out of their comfort zones to embrace some new and valuable skills.鈥
Meet the cohort:
Company:
Founders: , James Read
School: (ECE)
Objective: To develop energy-efficient, radiation-tolerant artificial intelligence processors using a persistent type of ferroelectric memory. The startup aims to improve applications requiring high power efficiency, such as battery-powered devices and space-based systems.
Why Q-i: 鈥The advantage of Q-i is in helping technical founders turn their research into products that solve customers鈥 problems,鈥 noted James Read. 鈥淔or us, that means talking with potential customers and hearing their pain points directly from the source. Now we鈥檙e use that information to build a convincing narrative around our startup鈥檚 value for stakeholders and investors.鈥
Company: SkyCT
Founders: Matthew Strong
School: ECE
Objective: To provide up-to-date mapping of the electrical properties of the upper atmosphere, with applications to GPS-free navigation, long-range communication, and satellite and launch vehicle viability. The startup uses the radio energy released by lightning strikes to create this map.
Why Q-i: 鈥淭his weird region about 50 miles up from Earth鈥檚 surface is both really hard to track and measure, and also impacts a surprising array of applications,鈥 said Cohen. 鈥淚t鈥檚 sometimes called the `ignorosphere鈥 because of how difficult it is to measure, and it鈥檚 time we change that.鈥
Company: Penumbra Autonomy
Founders: ,
School: (AE)
Objective: To commercialize algorithms that help spacecraft maneuver when they have limited information on their environment. The algorithms use state-of-the-art computer vision and localization techniques. This could benefit manufacturing, assembly, and refueling in orbit, as well as enable monitoring, situational awareness, and debris removal.
Why Q-i: 鈥淭he program offers a conduit to entrepreneurship opportunities and spinoff companies in the space domain by providing guidance and commercialization 鈥榢now-how,鈥欌 said Panagiotis Tsiotras.
Company: TerraMorph
Founders: , Sadhana Kumar, Vincent Griffo, Sachin Kelkar
School: AE
Objective: To create an autonomous rover platform with adaptive, reconfigurable mobility. The rover will implement software and sensing algorithms to automatically detect terrain type and improve traction and energy usage. This could be used on the moon or Mars, or even terrestrial search and rescue.
Why Q-i: 鈥淭erraMorph was developed to address fundamental challenges in mobility and autonomy across uncertain terrain, but successfully translating that work into impact requires creative guidance, critical feedback, and experienced perspectives beyond the lab,鈥 said Yashwanth Kumar Nakka. 鈥淨-i鈥檚 culture of leading by example and fostering strong, ethical teams aligns closely with how we want to build TerraMorph: iteratively, thoughtfully, and with a focus on real-world deployment.鈥
Company:
Founders: , Mike Yan
School:
Objective: To deliver real-time manufacturing supply chain visibility for the space and national security industries. OpenWerks technology aims to dramatically reduce current sourcing cycles from eight months down to weeks by connecting corporate buyers directly with verified supplier manufacturing capability and capacity data.
Why Q-i: 鈥淔rom the very beginning, principals at VentureLab and Q-i offered a clear pathway to translate academic research into a viable business,鈥 said Mike Yan. 鈥淭heir reputation for guiding 麻豆区 Tech startups through both business and technology derisking, combined with their comprehensive ecosystem of programs and coaches, made them the natural partner for our entrepreneurial journey.鈥
Company:
Founders:
School:
Objective: To manufacture quantum hardware in 麻豆区. 8Seven8 aims to put high-precision atomic clocks and gyroscopes on a chip for applications ranging from aircraft navigation to industrial automation.
Why Q-i: 鈥淭hey have mentored me and my students through the commercialization process, providing opportunities such as the Space Fellows Cohort,鈥 Chandra Raman said. 鈥淥ne of my former students, Alexandra Crawford, gained valuable business experience through a Q-i entrepreneur鈥檚 assistantship, and is now working at 8Seven8 full-time. They have also guided me through the process of obtaining funding through the 麻豆区 Research Alliance for our commercialization effort.鈥
