Satellite Augmentation
Jordan is an ambitious Mechanical Engineering student attending The University of Florida. She has experience working on numerous projects with UF’s Formula-SAE Gator Motorsports team. This experience allowed her to learn about real-world engineering while designing with SolidWorks CAD and applying the manufacturing using machine tool equipment such as manual mills and lathes (great engineering comes from hands-on experiences!). While working with this team, Jordan found a passion for motorsports and decided to start a personal project. With the help of her Father, she found a 2006 Mazda MX-5, restored and converted into a track car. Jordan’s dreams lay in the stars, however. When she was 13 years old, Jordan visited NASA’s Kennedy Space Center and was awestruck. Since that day, she has dreamed of working as an engineer in the space industry.
Satellite Augmentation welcomes Jordan with high regard for her vision of the future of life science and innovations, which Jordan brings to our “out of the box thinking”. Jordan is a prime example of applied hands-on experience, dedication, and following her passion for space exploration, new developments, and seeing the innovations missed that are the core of great ideas! (KISS, Engineering 101, keep it simple stupid).
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Satellite Augmentation
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VISION We’re setting the Standard for how the World Maintains Satellites in Orbit “The best way to get to the future is to invent it” The SAM spacecraft is equipped with the tools, technologies, and techniques needed to extend satellites’ lifespans – even those not originally designed to be serviced. The technology demonstrates – the first of its kind in Earth’s expanding space orbits – will create a carefully curated suite of satellite servicing technologies. Capabilities include autonomous satellite rendezvous, refueling, and satellite repositioning. Once proven in space, SAM’s technologies will reduce or eliminate the need for replacing dormant satellites. OUR MISSION Defining the way we Service Satellites Since the advent of satellite technology in 1958 with Explorer I, the U.S. and other countries have sent thousands of satellites into orbit costing millions of dollars per satellite. Today, many of those satellites are still in orbit; most of which have a lifespan of fewer than five years; to retain existing levels of operational capability, new satellites must be developed and launched before existing satellites run out of fuel and begin disintegrating into our atmosphere and in many cases falling to earth at risk to populated areas. In general, a satellite’s life span is not driven by the capability but by the amount of fuel, the satellite has available to maneuver. Satellites require the ability to maneuver to achieve specific orbits or to move out of harm’s way if a possible collision is detected. Once the fuel has been exhausted, the countdown begins and the loss of a satellite, no matter how mission-critical it may be, is imminent. Satellite Augmentation has developed a revolutionary and novel approach to extending a satellite’s lifespan. The ability to re-energize a satellite in orbit, with little to no mission impact, will enable both the Government and the commercial space industry, with the ability to extend the life of their most critical space assets. The idea proposed by Satellite Augmentation offers a cost-effective, universal method, to accomplish the latter. Combined with our patented design, by utilizing industry standards, and commercial off-the-shelf components, this novel idea can quickly move into a proof-of-concept stage and be followed with a viable concept that can be transitioned to the end-user.