Sensors Summaries
Altan, Ege ; Chakrabartty, Shantanu ; Chandak, Rishabh ; Mehta, Darshit ; Raman, Baranidharan ; Saha, Debajit ; Singamaneni, Srikanth ; Tadepalli, Sirimuvva ; Traner, Michael
T-019136
— Technology Description Prof. Barani Raman and colleagues have developed a robust, insect-based, non-invasive sensing system to detect explosives or other chemicals. This “artificial nose” technology includes methods to decode neural signals from the insect’s olfactory system and …
Self-powered, solid-state devices for remote sensing, timing and security of internet-of-things and other passive assetsChakrabartty, Shantanu ; Zhou, Liang
T-015908
— Technology Description Engineers in Prof. Shantanu Chakrabartty’s laboratory have developed a self-powered, CMOS-based, nano-scale “smart sensor” and timer system that uses quantum-tunneling for reliable, long-lasting memory or authentication. This technology is a floating gate …
Trackable pedicle screwsBrunner, Peter ; Genin, Guy ; Hacker, Carl ; Leuthardt, Eric ; Lowe, Halle ; Molina, Camilo ; Moran, Daniel ; Repka, Alicia ; Sandler, Jacob
T-019941
— Technology Description Researchers at Washington University in St. Louis have developed a system that uses lenticular arrays to better track pedicle screw placement during spinal fusion surgery. By enabling an accurate assessment of the screws’ locations, this system allows for computer-auto…
Miniature, high resolution multi-spectral imaging for label-free image guided surgery and other applicationsGarcia Hernandez, Nimrod Missael ; Gruev, Viktor
T-016872
— Technology Description Engineers in Prof. Viktor Gruev’s laboratory have developed a compact 27-band hyperspectral imaging system for high resolution, label-free, real-time imaging. This system can distinguish spectral signatures in image guided surgery (IGS) and other applications. The tech…
Low-Power, Fast Sensors for Infrastructure‐to‐Vehicle Communications in Autonomous DrivingAono, Kenji ; Chakrabartty, Shantanu ; Kondapalli, Sri Harsha ; Pochettino, Owen
T-019014
— Engineers in Prof. Shantanu Chakrabarty’s laboratory have developed an RFID embedded sensor system for infrastructure-to-vehicle (I2V) communications that uses near-zero standby energy and offers the robust performance of actively powered communications. This technology is designed to provide …
Low-Power, Fast Sensors for Infrastructure‐to‐Vehicle Communications in Autonomous DrivingAono, Kenji ; Chakrabartty, Shantanu ; Kondapalli, Sri Harsha ; Pochettino, Owen
T-019014
— Engineers in Prof. Shantanu Chakrabarty’s laboratory have developed an RFID embedded sensor system for infrastructure-to-vehicle (I2V) communications that uses near-zero standby energy and offers the robust performance of actively powered communications. This technology is designed to provide …
Miniature, high resolution multi-spectral imaging for label-free image guided surgery and other applicationsGarcia Hernandez, Nimrod Missael ; Gruev, Viktor
T-016872
— Technology Description Engineers in Prof. Viktor Gruev’s laboratory have developed a compact 27-band hyperspectral imaging system for high resolution, label-free, real-time imaging. This system can distinguish spectral signatures in image guided surgery (IGS) and other applications. The tech…
