ScoutCam, a leader in direct visualization technology, today announced that the National Aeronautics and Space Administration (NASA), has incorporated Medigus’ ScoutCam 8.0 HD, the world’s smallest HD camera and illumination solution, into its Visual Inspection Poseable Invertebrate Robot 2 (VIPIR2). VIPIR2, a robotic, multi-capability inspection tool being used as part of NASA’s Robotic Refueling Mission 3 (RRM3), was launched into space on December 5, 2018.
RRM3 builds on the first two phases of International Space Station technology demonstrations that tested tools, technologies, and techniques to refuel and repair satellites in orbit. NASA’s second phase of the Robotic Refueling Mission incorporated ScoutCam 1.2 at the end of a deployable video borescope to demonstrate camera inspection capabilities in May 2015 – making RRM3 the second project between NASA and Medigus. The collaboration is the result of an official tender bid with the United States government.
“Medigus is honored to support NASA on RRM3, which is crucial for advancing technologies that will allow replenishing vital supplies in space,” said Chris Rowland, Chief Executive Officer, Medigus. “We pride ourselves in our ability to offer custom-tailored optics and seamless integration, and believe our innovative technology will greatly contribute to this next phase of the mission.”
The ScoutCam 8.0 HD, custom designed for NASA, features one module consisting of both HD camera and illumination, and serves as the borescope camera on VIPIR2. The versatility of ScoutCam 8.0 HD is supported by attributes including its miniature size, remarkable image quality, state of the art customizable optics, waterproof materials and its adaptability in extreme temperatures.
Medigus is a medical device company specializing in developing minimally invasive endosurgical tools and highly innovative imaging solutions. Medigus is the pioneer developer of the MUSE™ system, an FDA cleared and CE marked endoscopic device to perform Transoral Fundoplication (TF) for the treatment of GERD (gastroesophageal reflux disease), one of the most common chronic conditions in the world. In 2016, the CMS established the Category I CPT® Code of 43210 for TF procedures, such as the ones performed with MUSE, which establishes reimbursement values for physicians and hospitals. Medigus makes persistent efforts to gain MUSE adoption in key markets around the world – it is available in world-leading healthcare institutions in the U.S., Europe and Israel. Medigus is also in the process of obtaining regulatory clearance in China. Medigus is traded on the Nasdaq Capital Market and the TASE (Tel-Aviv Stock Exchange Ltd.). To learn more about the company’s advanced technology, please visit www.medigus.com or www.RefluxHelp.com.
About the ScoutCam Portfolio
As an expert in micro-endoscopic devices, Medigus developed the ScoutCam portfolio, which consists of a variety of micro CMOS and CCD video cameras, and includes ScoutCam 1.2, which to the best of the company’s knowledge, is the smallest in the world. ScoutCam technology features optic and illumination solutions, micro sensors and high-end DSP video processors that can be tailored for both medical and industrial applications. Customization and seamless integration is at the forefront of the ScoutCam portfolio’s design. All ScoutCam cameras are manufactured at Medigus’ facilities, in a controlled environment, ISO 7 per the ISO 14644-1:2015 Standard and 13485:2016 for Quality Management System.
NASA’s Robotic Refueling Mission 3 (RRM3) builds on the first two phases of International Space Station technology demonstrations that tested tools, technologies and techniques to refuel and repair satellites in orbit. RRM3 will demonstrate innovative methods to store, transfer and freeze standard cryogenic fluid in space. The technologies are applicable to satellite servicing and to enabling long duration journeys to destinations like the Moon and Mars. The mission is currently scheduled to launch to the space station in 2018 aboard the SpaceX Commercial Resupply Services mission 16 and has a projected two-year lifespan. RRM3 is developed and operated by the Satellite Servicing Projects Division at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, and managed by the Technology Demonstration Missions program within NASA’s Space Technology Mission Directorate.