Electrical engineering student Dominic Mirabile is a THON captain and an Engineering Leadership Development student. (Photo credit: Curtis Chan)

Ch1: Second voltage regulator output, Ch2: First voltage regulator output, Ch3: bridge rectifier output, Ch4: switching signal (no differential probe)

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.

TEDxYouth@Dayton 2020 | Take 5

Photo: Emerie Lukas Photography & Media Design

Talk: youtu.be/3R3VbzjPc4g

TEDxYouth@Dayton 2020 | Take 5

Photo: Emerie Lukas Photography & Media Design

Talk: youtu.be/3R3VbzjPc4g

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.

wileyasia.wordpress.com/2012/08/03/electrical-engineering...

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.

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.