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The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
From left, Mandy He, Anna Huang, and Aditya Guin, students of Mark Brehob, the Kurt Metzger Collegiate Lecturer and Lecturer Iv in Electrical Engineering and Computer Science, display their work at the College of Engineering Design Expo in the Bob and Betty Beyster Building on the North Campus of the University of Michigan in Ann Arbor, on Thursday, November 30, 2023. He and Huang are both undergraduates in Computer Engineering, Guin is a Computer Science and Engineering Masters student.
Over the Board Online Chess is a product that allows users to play chess with online opponents over Lichess (an online chess website) while sitting at a physical chess board. When the user makes their move on the board, it is streamed over Lichess to their opponent. When the opponent makes a move, their moves are played out automatically on the physical chess board. This product is helpful for those that enjoy the laxity and flexibility of online chess, but prefer having a physical board and clock in front of them. An array of Hall effect sensors under the board detect user moves and an electromagnet on an XY plotter make the opponent moves. The product comes with an integrated clock that displays both player's times, a scoreboard that displays game state, and buttons that allow the user to make a game, accept/offer draws, and resign to enhance the merged experience of online and over the board chess. There is also a mobile app that lets the user pair with the board to setup WiFi connection, Lichess login, and game configurations such as color preference and time control.
The project was a collaboration between Anna Huang, Rajin Nagpal, Braeden Mahnke, and Mandy He.
Photo: Brenda Ahearn/University of Michigan, College of Engineering, Communications and Marketing
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
Electrical engineering student Dominic Mirabile is a THON captain and an Engineering Leadership Development student. (Photo credit: Curtis Chan)
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.
The C-UASC competition is designed to stimulate interest in Unmanned Aerial Systems (UAS) and to engage students in a challenging mission. The competition requires students to design, integrate, and demonstrate a UAS capable of autonomous flight and navigation and execution of a specific set of tasks. The vehicles may be fixed-wing, quadcopter, or other aero drones but not lighter-than-air vehicles.