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Educational Outcomes From The Openorbiter Small Spacecraft Development Program, Jeremy Straub
Educational Outcomes From The Openorbiter Small Spacecraft Development Program, Jeremy Straub
Jeremy Straub
The OpenOrbiter program [1] is developing a low-cost framework for the creation of space-craft by researchers and educators worldwide [8]. In addition to the technical objectives, ed-ucational assessment [2, 3] has also been a key focus. Students working on development of the spacecraft [4] were asked what types of benefits they sought from their participation [5]. The assessment of the attainment of these benefits is ongoing, in conjunction with continued development in pursuit of the crea-tion of a set of designs that can be used to build a spacecraft with a cost of under $5,000 [13] .
Increasing National Space Engineering Productivity And Educational Opportunities Via Intrepreneurship, Entrepreneurship And Innovation, Jeremy Straub
Increasing National Space Engineering Productivity And Educational Opportunities Via Intrepreneurship, Entrepreneurship And Innovation, Jeremy Straub
Jeremy Straub
Research and educational efforts related to space engineering or requiring access to space face significant startup costs. The cost of developing a 1-U (10 cm × 10 cm × 11 cm) CubeSat from scratch can be approximately $250,000. Those buying a kit must pay amortized vendor development costs on a per-mission basis, creating a lower per-mission barrier. Kit users are also constrained by being unable to make changes to vendor subsystems without incurring substantial redevelopment costs or vendor charges. The Open Prototype for Educational NanoSats (OPEN) is changing this by providing freely available design documents for a 1-U CubeSat class …
Openorbiter: Analysis Of A Student-Run Space Program, Jeremy Straub
Openorbiter: Analysis Of A Student-Run Space Program, Jeremy Straub
Jeremy Straub
Students at the University of North Dakota, as part of faculty-mentored teams in a student-lead program, are working to broaden participation in humanity's exploration of space. The OpenOrbiter Small Spacecraft Development Initiative (OSSDI) is demonstrating two complementary paradigm-changers. First, the initiative facilitates student involvement in all aspects of a space program, without the preconceptions present in established space activities. Second, it is demonstrating a low-cost framework for small spacecraft development. These combined activities are poised to demonstrate a new way forward for space exploration: combined, they allow risk-taking exuberance and a cost of entry that makes risk-taking exuberance acceptable, even …
An Open Prototype For Educational Nanosats: Increasing National Space Engineering Productivity Via A Low-Cost Platform, Jeremy Straub
An Open Prototype For Educational Nanosats: Increasing National Space Engineering Productivity Via A Low-Cost Platform, Jeremy Straub
Jeremy Straub
The Open Prototype for Educational NanoSats (OPEN) is poised to allow a dramatic increase in the number of students, worldwide, that have the opportunity to participate in hands-on spacecraft development. It is designed to facilitate the formation of CubeSat development programs via providing a publically-available set of spacecraft design documents, implementation and testing plans. These documents should allow the creation of a 1-U CubeSat with a parts budget of approximately $ 5,000. This allows spacecraft development to be incorporated in regular curriculum and supported from teaching (as opposed to research) funds.
The Openorbiter Program: Intrepreneurship, Entrepreneurship And Innovation, Jeremy Straub
The Openorbiter Program: Intrepreneurship, Entrepreneurship And Innovation, Jeremy Straub
Jeremy Straub
The University of North Dakota’s OpenOrbiter program is providing an interdisciplinary learning experience for students from numerous STEM and non-STEM fields. OpenOrbiter allows student participants to experience not just the engineering and other technical aspects of the space program, it also involves students from diverse, non-STEM fields (including communications, entrepreneurship, management, visual arts, public policy and English). Traditional STEM fields such as mathematics, physics, electrical engineering, mechanical engineering, computer science and technology are also well represented. Students from specially programs at the University of North Dakota including atmospheric sciences, Earth System Sciences and Policy, aviation, Space Studies and Air Traffic …