The evolution of communication technologies over the past 140 years has enabled ubiquitous connectivity with billions of sensors globally. However, today’s technologies still face fundamental obstacles, which prevent them from seamlessly extending to complex domains like the ocean, the human body, or supply chain environments. -------------------------------------------
When radios communicate with each other, the transmitter spreads its signal in all directions. Hence only a small fraction of what is transmitted hits the receiver. Radios with multiple antennas can beamform, i.e., direct their signal so more of it reaches the receiver. How precisely a radio can beamform depends fundamentally on its size; a larger radio with more antennas can direct its signal better than smaller radios. Unfortunately, practical constraints on mobile and IoT devices prevent us from making radios large.
Principal Investigator Donna Rhodes
Principal Investigator Shuguang Zhang
Principal Investigators Jonathan Gootenberg , Omar Abudayyeh
The AbuGoot lab combines natural biological discovery and molecular engineering to develop a suite of new tools for manipulation of DNA, RNA, and cellular states – the cellular engineering toolbox. These tools have the ability to push our understanding of complex systems, provide novel diagnostic insights, and enable new platforms of therapeutics. We are enthusiastic about applying these tools to multiple areas, including cellular fate, aging, and genetic disease.
Principal Investigator Jessica Sandland
Principal Investigator K Wittrup
Principal Investigator Tod Machover
Principal Investigator Timothy Grove
Principal Investigator Robert Cohen
Principal Investigator H Horvitz