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Recently used at the U.S. presidential inauguration, Draper developed a web-based version of the United States Department of Defense's Tactical Awareness Kit called WebTAK. It was used to share situational awareness and coordinate across multiple agencies. The goal of WebTAK is to protect military and civilian populations from various threats occurring within the world today.
“Novel drug discovery efforts suffer from increasing costs and low probability of clinical trial success, largely due to a lack of predictive preclinical in vitro models and reliance on animal testing which often fails to accurately capture human response. Organ-on-chip technology has the potential to greatly aid the development of new therapies,” according to a research team led by Draper and Pfizer.
Draper has been selected for two U.S. Department of Defense contracts, totaling $14 million, to enhance the U.S.’s ability for volume production of advanced packaging solutions for computer chips embedded within defense systems.
Draper is excited to welcome Jennifer Santos, as the new principal director for strategic initiatives in our National Security and Space (NS&S) business.
At Draper we are proud to partner with Edge4Vets to be able to have the opportunity to assist veterans with the transition from military life to civilian jobs.
Draper was just awarded a patent for our electric motors! “Our e-motors use thin electrodes and electrets which reduce weight by 80% or more as compared to conventional motors,” Sabrina Mansur, our Automotive Business Development Manager.
NASA will test new “eyes” from Draper for its next lunar lander, thanks in part to NASA’s Flight Opportunities Program, or FOP.
What if wood could be grown in a lab? That’s the question at the center of a new study detailing how to create lab-grown wood indoors without soil or sunlight.
Take your career to the next step with Draper. We are hiring a Principal Hardware Communications Systems Design Engineer. Apply today: http://bit.ly/3aNb8L2
Researchers at Draper, Massachusetts Institute of Technology (MIT) and Woods Hole Oceanographic Institute (WHOI) have developed an acoustic remote sensing method for high-precision propeller rotation and speed estimation of unmanned underwater vehicles.
