MY PROJECTS
My portfolio showcases a handful of my most recent projects. Take a look to get a sense of my skills, experience and approach. To learn more about a specific project, feel free to contact me directly.
OWL-EYE ESPY DRONE
senior design project
Owl-Eye sets out to develop a durable, cost-efficient drone for use in mapping hazardous areas. An RGBD camera will allow our drone to wirelessly stream RGB and depth video data to a handheld device. Once it’s received, the camera data, along with other telemetry, will be used to build a 3d representation of the drone’s surroundings. This data will be viewable in real time, allowing for the operators to quickly respond to a recorded incident without fears of the unknown.
SAE 2020 ADVANCE CLASS
Aerial Robotics Team
The purpose of the advanced class division is to construct a large size bomber-type aircraft and a small size Colonist Delivery Vehicle (CDA). The Bomber and CDA are designed and fabricated to achieve the goals set by the competition rulebook. The large bomber aircraft will carry releasable payloads, an FPV camera, and altitude-logging capable equipment. The CDA will be capable of a glide ratio of four and safely reach its destination without tripping the shock sensors onboard.
SAE 2019 ADVANCE CLASS
Aerial Robotics Team
This year serves as the first year that the Kennesaw State University Aerial Robotics Competition Team (KSUARCT) will be competing in the Society of Automotive Engineering (SAE) Aero Design East Division in the advance class category. The purpose of the advance class division is to construct a large size bomber-type aircraft and a small size Colonist Delivery Vehicle (CDA). The Bomber and CDA were designed and fabricated to achieve all of the goals set forth in the competition rulebook.
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SAE 2018 REGULAR CLASS
Aerial Robotics Team
This year, the KSU Aerial Robotics Team designed an aircraft capable of meeting the requirements of carrying as much of a payload of passengers (tennis balls) and luggage (payload weights) as possible within the predetermined design constraints. The design approach for the aircraft this year features a unique design implementing tandem wings with a single, large rudder, and box fuselage design. The tandem wing has the main benefit of allowing for the same amount of lift of one large wing, but less of a moment as the wing area is separated among two wings.