Monitoring Crop Fields with Zero-Power Sensors

Matteo Rinaldi and Zhenyun Qian

ECE Professor Matteo Rinaldi and Research Assistant Professor Zhenyun Qian were awarded a patent for “Zero-power wireless chemical sensor for agricultural pests and disease monitoring.”

Abstract Source: USPTO

An ultra-miniaturized, low-cost, and maintenance-free chemical sensor is capable of continuously monitoring the concentration of specific volatile organic compound (VOC) vapors released from crop plants and green plants under distress from pests or disease. The sensor is based on micromechanical structures and relies on the mechanical actuation induced by the chemical interaction between the VOCs and materials in the microstructure to passively generate a wake-up bit when the concentration of VOCs exceeds a predetermined value. The sensor does not consume power while in standby mode (i.e., when certain VOC vapors are not present), and wirelessly communicates the location of impending outbreaks upon detection of a predetermined concentration of certain VOC vapors.

Related Faculty: Matteo Rinaldi, Zhenyun Qian

Related Departments:Electrical & Computer Engineering