Fundamentals of UAS components

Beginner

Upon completing this course, students will be able to: - Identify and Understand Unmanned Aerial System (UAS) Components: Recognize the various components of a UAS, including the frame, motors, propellers, battery, flight controller, and sensors; explain the functions of these components within the UAS. - Evaluate Propulsion Systems: Assess the types of motors and propellers used in UAS; explain how different configurations affect performance, stability, and flight duration. - Analyze Power Supply and Management: Describe the types of batteries used in UAS and their management systems; analyze how power supply impacts the weight, balance, and endurance of UAS operations. - Operate Flight Control Systems: Explain how flight controllers manage UAS stability and navigation; integrate and interpret sensor data for effective UAS operation. - Implement Communication and Telemetry Systems: Evaluate the technologies used for UAS communication and telemetry, including radio, Wi-Fi, and cellular connections; explain how these technologies affect control range and data transmission. - Select and Integrate Payloads: Select and integrate various payloads (e.g., cameras, sensors, cargo) based on the UAS’s purpose; consider factors like weight, power consumption, and data collection needs. - Apply Basic Maintenance and Troubleshooting: Develop skills in maintaining drone components for optimal performance; troubleshoot common issues related to hardware and software malfunctions.

None

- Introduction to UAS Anatomy: Overview of the basic structure of drones, including the frame, propulsion system, power source, and control system. - Propulsion System: Deep dive into motors, propellers, and electronic speed controllers (ESCs) and how they work together to control the movement and altitude of the UAS. - Power Source: Understanding battery technology used in UAS, including types of batteries (e.g., LiPo), battery management, and factors affecting flight time and performance. - Flight Controllers: Examination of the flight controllers, managing stability, navigation, and data from various sensors. - Sensors and Navigation: Overview of sensors commonly used in UAS, such as GPS, gyros, accelerometers, and barometers, and their roles in positioning and navigation. - Communication Systems: Understanding the technology behind remote control and telemetry, including radio frequency (RF) communication, First Person View (FPV) systems, and digital transmission technologies. - Payloads and Add-ons: Exploration of various payloads UAS can carry, including cameras, surveying equipment, and cargo, and their impact on UAS design and operation. - Software and Firmware: Introduction to the software that controls UAS, including firmware for flight controllers and applications for flight planning and data analysis. - Maintenance and Troubleshooting: Basic maintenance practices for keeping UAS operational and troubleshooting common issues related to UAS components. - Design Considerations: Factors influencing the design of drones, such as aerodynamics, weight distribution, and intended use (e.g., racing, photography, surveying).

- Tal, D. (2021). Drone Technology in Architecture, Engineering and Construction. John Wiley & Sons Inc. ISBN: 978-1119545880. - Casagrande, G., Szabó, G., & Sik, A. (Eds.). (2018). Small Flying Drones Applications for Geographic Observation. Springer. ISBN: 978-3-319-66576-4. https://doi.org/10.1007/97 - Barnhart, R. K., Hottman, S. B., Marshall, D. M., & Shappee, E. (2021). Introduction to Unmanned Aircraft Systems. CRC Press. ISBN: 1000326861, 9781000326864.

portfolio tests

Englisch

4

15

2.0

Presentation, group work, discussion, exercises,

1

1_6

Integrierte Lehrveranstaltung

Pflichtfach