Come see an airplane prototype from the UMBC multidisciplinary capstone team on display at URCAD on April 16th in the UC Ballroom!
UMBC Multidisciplinary Capstone: Design and Development of an Autonomous Fixed-Wing UAV for Long-Range Payload Delivery
Presenters: Turibius Rozario, Joseph DeFusco, Adam Miu, Alex Vennos, Sean Stahler, Abby Joseph, Connor Cox, Emily Kosloski
Mentor: Charles LaBerge
Abstract
A UMBC multidisciplinary capstone team is designing and constructing a fixed-wing UAV. The UAV will carry a 10 lb payload and fly a range of 10 nautical miles at a minimum airspeed of 35 mph. It will be capable of autonomous flight and avoiding hazards. This aircraft is built from 3D printed and hobby-level electronics and software. It will also be capable of transmitting video and maintaining the safety of operators and nearby property. Sub-teams consisting of Computer and Mechanical Engineers have worked collaboratively to complete these tasks. A conventional gasoline-powered airframe with a v-tail minimizes drag while maintaining structural integrity. Remote ID detection, front sensing LiDAR, bottom-mounted LiDAR, and an airspeed sensor are used for UAV and forward obstacle avoidance and autonomous landing. Real-time Kinematic (RTK) GPS is used for centimeter accuracy. Telemetry radios and long range ExpressLRS radio are used to maintain connectivity over long range. A proof-of-concept prototype with a low-cost flight controller has been constructed. Additional tuning, setup of full autonomy, and configuration of video transmission, including lessons learned from the first test flight are yet to be performed.
