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Active Aircraft Pylon Noise Control System
Unmanned Aerial Systems Traffic Management
Method of Bonding Dissimilar Materials
Sonar Inspection Robot System
Applying the Dynamic Inertia Measurement Method to Full-Scale Aerospace Vehicles
Method and Apparatus for Measuring Surface Air Pressure
Fully Premixed, Low-Emission, High-Pressure, Multi-Fuel Burner
Self-Healing Wire Insulation
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Brain Computer Interface Helps Paralyzed Man Feel Again

Imagine being in an accident that leaves you unable to feel any sensation in your arms and fingers. Now imagine regaining that sensation, a decade later, through a mind-controlled robotic arm that is directly connected to your brain.

Posted in: News, Medical

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Advanced Technology in Medical Device Manufacturing

The development and use of new and novel materials and processes has allowed quantifiable increases in product performance and patient safety. Custom developed materials for medical device implants. Superfinished and engineered surfaces for medical implants. Additive manufacturing and personalized medical implants.

Posted in: Webinars, On-Demand Webinars, Medical

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2016 Create the Future Design Contest

The 2016 Create the Future Design Contest — sponsored by COMSOL, Mouser Electronics, and Tech Briefs Media Group (publishers of NASA Tech Briefs) — recognized innovation in product design in seven categories: Aerospace & Defense, Automotive/Transportation, Consumer Products, Electronics, Machinery/Automation/ Robotics, Med ical, and Sustainable Technologies. In this special section, you’ll meet the Grand Prize Winner, as well as the winners and Honorable Mentions in all seven categories, chosen from over 1,100 new product ideas submitted from a record 71 countries. To view all of the entries online, visit www.createthefuturecontest.com.

Posted in: Articles, Aerospace, Automotive, Defense, Electronics, Energy, Renewable Energy, Alternative Fuels, Green Design & Manufacturing, Medical, Patient Monitoring, Machinery & Automation, Robotics

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2016 Create the Future Design Contest: Machinery/Automation/Robotics Category Winner

SHAPE MEMORY ALLOY BASED SAFETY LATCH Nicholas W. Pinto, Suresh Gopalakrishnan, Chandra S. Namuduri, Nancy L. Johnson, and Mark Vann General Motors, Warren, MIGeneral Motors has invented a device that indicates when an unsafe level of energy remains in an electrical panel box after the main power has been disconnected. Possible sources of this energy may be incorrect wiring, external device add-ons, and the presence of residual charge from capacitors. The device works by engaging a safety latch mechanism built with shape memory alloy (SMA) technology along with an audio or visual alarm.

Posted in: Articles, Manufacturing & Prototyping, Implants & Prosthetics, Medical, Machinery & Automation, Robotics

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2016 Create the Future Design Contest: Medical Category Winner

CONTINUOUS WEARABLE BLOOD PRESSURE MONITOR Sean Connell, Kyle Miller, Jay Pandit, and Jung-En Wu Bold Diagnostics, Evanston, IL “My team is honored to be recognized out of such a competitive field. We are truly passionate about bringing our mobile health monitoring solution to market, and feel that recognition from the Tech Briefs competition will propel our efforts.” Bold Diagnostics has developed a blood pressure monitoring system that is comfortable for patients and seamlessly integrates into their everyday lives. The low-cost monitor includes a set of wearable wristbands that uses optical biosensors to continuously measure blood pressure, and a smartphone application that uploads a report into the patient’s medical record for clinician review. The solution provides accurate measurements with greater frequency, enabling doctors to positively impact clinical outcomes with proper blood pressure management.

Posted in: Articles, Medical, Patient Monitoring

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2016 Create the Future Design Contest: Consumer Products Category Winner

MIFOLD Jon Sumroy, Carfoldio, Ltd., Ra’anana, Israel “The award is a true accolade from design and engineering professionals. This means that, as well as solving a serious problem with a convenient, practical, and affordable solution, we have solved the problem in a well designed and engineered way. The credibility of the contest, and the respect and professionalism of the organizers and judges, will enhance our ability to market the Grab-and-Go Booster Seat worldwide. This will help us keep more children safer in more journeys, more of the time.” The mifold Grab-and-Go booster seat for children aged 4-12 is more than ten times smaller than a regular booster seat and just as safe. A regular booster seat works by lifting a child up to the position of an adult. mifold does the opposite, securing the seatbelt in the correct position on the hips and shoulder by holding the seatbelt down at three points.

Posted in: Articles, Automotive, Consumer Product Manufacturing, Imaging, Medical

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Making Great Strides: Gaming Camera Improves MS Gait Assessment

Even university researchers play Xbox from time to time. Not all mechanical engineers, however, have the idea to use the popular gaming console’s camera to assist doctors in clinical applications.

Posted in: Application Briefs, Cameras, Diagnostics, Medical, Patient Monitoring

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