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Matthew Balazs, Brian Holst, Andrew Wentworth, Mike Willis, and Mike Hatfield

The use of Unmanned Aerial Systems (UAS) or Unmanned Aerial Vehicles (UAV) has taken off in recent decades and are used for research, industrial, surveying, emergency response, risk management, real estate, and commercial purposes. They combine sophisticated flying platforms such as fixed-winged planes and copters with payloads of sensors that range from optical cameras to air quality sensors. New jobs dependent on UAS are burgeoning across a wide array of industries in addition to aerospace.

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The use of Unmanned Aerial Systems (UAS) or Unmanned Aerial Vehicles (UAV) has taken off in recent decades and are used for research, industrial, surveying, emergency response, risk management, real estate, and commercial purposes. They combine sophisticated flying platforms such as fixed-winged planes and copters with payloads of sensors that range from optical cameras to air quality sensors. New jobs dependent on UAS are burgeoning across a wide array of industries in addition to aerospace.

In this free, self-paced online course, you examine the types of platforms available to most consumers and industry users and will understand the principles and characteristics of how they fly.

The course comprises three modules, each lasting one week. The course kicks off with the basics of UAS including the history of the technology, principles of flight, and introduce the terminology used.

Next, you will learn about the components that are needed for the platform to function, such as the structure, electronics, propulsion, controls, navigation, and sensors.

The third section will examine the wide variety of sensors commonly integrated into an UAS and how they are used for a variety of applications. These include optical cameras, LiDAR, thermal, as well as less commonly used sensors like radar and air quality sensors. You will have an opportunity to build your own UAS through interactive activities. Finally, coursework focuses on what combination of platform and sensor(s) will work the best for your particular needs.

Ungraded knowledge tests and quizzes throughout the course and a hands-on UAS design activity provide the opportunity to apply the concepts in the course to your interests and context within a real-world scenario.

This course prepares you for a career beyond just a drone pilot and provides a fundamental understanding of the technology to allow your career to soar. Sign up today and gain new skills at your own pace!

What you'll learn

  • Understand the principles of flight safety
  • Learn the types of platform used in unmanned flight
  • Know what types of sensor can be used to record data on flights
  • Learn how UAS’s are being used in research, commercial, and industrial applications
  • Understand how to choose the right equipment for your needs
  • Learn the basics of unmanned aircraft systems and related terminology.
  • Differentiate between the types of UAS and their uses and identify various aircraft configurations.
  • Evaluate the benefits and drawbacks of particular characteristics of UAS to inform appropriate platform selection for use in various scenarios.
  • Calculate basic aircraft weight trends and aerodynamic properties.
  • Determine propulsion performance for specific UAS applications.
  • Analyze an aircraft and predict performance
  • Describe all fixed equipment needed to fly UAS
  • Define the difference between visible and NIR spectrum
  • Describe how the broader field of remote sensing is applied within the UAS industry
  • Identify and articulate the strengths and limitations of the different types of sensors that are available for a particular mission
  • Determine when an active sensor vs passive sensor is the most appropriate payload for a mission
  • List the fundamental considerations for sensor/payload selection based on integration parameters/constraints (e.g., platform limitations, mission goals, etc.)
  • Identify which data products, such as photogrammetry and 3D models, are commonly produced using optical sensors and GIS.

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Know what's good
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Introduces concepts that are crucial to understanding the use of Unmanned Aerial Systems across various industries
Provides the opportunity to apply knowledge through interactive activities, enhancing learning
Suitable for individuals seeking a foundation in unmanned aerial systems, their usage, and their applications
Builds a foundation for further exploration and development in the field of unmanned aerial systems
Provides ungraded assessments, but hands-on activities offer practical experience

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Unmanned Aerial Systems (UAS): Fundamentals with these activities:
Review math, physics, and computer programming
Reinforce the fundamentals of mathematics, physics, and programming concepts to prepare for in-depth understanding of UAS technology.
Browse courses on Math
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  • Review high school level algebra, trigonometry, and calculus.
  • Brush up on basic physics concepts such as kinematics, dynamics, and energy transformations.
  • Revisit programming fundamentals in a language like Python or C++.
Build a simple fixed-wing or multicopter UAS from a kit
Gain hands-on experience assembling and testing a basic UAS, fostering a deeper understanding of its components and principles of operation.
Show steps
  • Choose an appropriate kit based on your skill level and interests.
  • Follow the kit's instructions carefully for constructing the airframe, installing electronics, and configuring the flight controller.
  • Conduct pre-flight checks and test fly the UAS in a safe and controlled environment.
Create a presentation on the history and evolution of UAS
Develop a comprehensive understanding of the historical milestones and advancements in UAS technology, enhancing appreciation for its current capabilities and future potential.
Show steps
  • Research and gather information on the origins, key developments, and applications of UAS.
  • Organize the information into a logical flow and create visually appealing slides.
  • Practice delivering the presentation with clear and concise language.
One other activity
Expand to see all activities and additional details
Show all four activities
Follow online tutorials on advanced UAS topics
Explore specialized topics in UAS technology, such as sensor integration, data analysis, and regulatory compliance, to expand your knowledge and stay up-to-date with industry trends.
Show steps
  • Identify areas where you would like to enhance your knowledge.
  • Search for reputable online tutorials or courses that cover these topics.
  • Follow the tutorials diligently, taking notes and completing any assignments.

Career center

Learners who complete Unmanned Aerial Systems (UAS): Fundamentals will develop knowledge and skills that may be useful to these careers:
UAS Technician
UAS Technicians are the backbone of the unmanned aircraft industry. They are responsible for the safe and efficient operation of unmanned aircraft systems (UAS), ensuring that these systems are used in accordance with applicable regulations. This course provides a comprehensive overview of the principles of flight safety, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to work as a UAS Technician.
UAS Pilot
UAS Pilots are responsible for flying unmanned aircraft systems (UAS), also known as drones. They use UAS to collect data, perform inspections, and deliver goods. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Pilot.
UAS Marketing Manager
UAS Marketing Managers are responsible for developing and executing marketing campaigns for unmanned aircraft systems (UAS). They work with a variety of stakeholders to create awareness of UASs and to generate leads for sales. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Marketing Manager.
UAS Systems Engineer
UAS Systems Engineers are responsible for the design, development, and testing of unmanned aircraft systems (UAS). They work with a variety of stakeholders to ensure that UASs meet the needs of their users. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Systems Engineer.
UAS Data Analyst
UAS Data Analysts are responsible for collecting, analyzing, and interpreting data from unmanned aircraft systems (UAS). They use this data to make informed decisions about how to use UASs for various applications. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Data Analyst.
UAS Sales Engineer
UAS Sales Engineers are responsible for selling unmanned aircraft systems (UAS) to customers. They work with a variety of stakeholders to understand the needs of customers and to develop solutions that meet those needs. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Sales Engineer.
UAS Product Manager
UAS Product Managers are responsible for developing and managing the lifecycle of unmanned aircraft systems (UAS). They work with a variety of stakeholders to ensure that UASs meet the needs of their users. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Product Manager.
UAS Business Analyst
UAS Business Analysts are responsible for analyzing the business needs of organizations that use unmanned aircraft systems (UAS). They work with a variety of stakeholders to understand the needs of the organization and to develop solutions that meet those needs. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Business Analyst.
UAS Research Scientist
UAS Research Scientists are responsible for conducting research on unmanned aircraft systems (UAS). They work with a variety of stakeholders to develop new technologies and to improve the performance of existing UASs. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Research Scientist.
UAS Project Manager
UAS Project Managers are responsible for planning, executing, and closing unmanned aircraft systems (UAS) projects. They work with a variety of stakeholders to ensure that UAS projects are completed on time, within budget, and to the satisfaction of the customer. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Project Manager.
UAS Software Engineer
UAS Software Engineers are responsible for developing the software that controls unmanned aircraft systems (UAS). They work with a variety of stakeholders to ensure that UASs meet the needs of their users. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Software Engineer.
UAS Instructor
UAS Instructors are responsible for teaching others about unmanned aircraft systems (UAS). They work with a variety of students to help them learn about the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Instructor.
UAS Consultant
UAS Consultants are responsible for providing advice and guidance to organizations that use unmanned aircraft systems (UAS). They work with a variety of stakeholders to help organizations understand the benefits of UASs and to develop strategies for using UASs to achieve their business goals. This course provides a strong foundation in the principles of flight, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Consultant.
UAS Regulatory Specialist
UAS Regulatory Specialists are responsible for understanding and interpreting the regulations that govern the use of unmanned aircraft systems (UAS). They work with a variety of stakeholders to help organizations comply with these regulations. This course provides a strong foundation in the principles of flight safety, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Regulatory Specialist.
UAS Safety Manager
UAS Safety Managers are responsible for developing and implementing safety programs for organizations that use unmanned aircraft systems (UAS). They work with a variety of stakeholders to ensure that UASs are operated safely and in compliance with all applicable regulations. This course provides a strong foundation in the principles of flight safety, the types of platforms used in unmanned flight, and the types of sensors that can be used to record data on flights. This knowledge is essential for anyone who wants to become a UAS Safety Manager.

Reading list

We've selected six books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Unmanned Aerial Systems (UAS): Fundamentals.
Provides a comprehensive overview of the fundamentals of unmanned aircraft systems (UAS), including the principles of flight, aerodynamics, navigation, and control. It valuable reference for students, researchers, and practitioners in the field looking for an in-depth understanding of the subject.
Provides a concise introduction to the fundamentals of flight dynamics. It useful resource for students and practitioners who need to understand the basic principles of aircraft flight.
Covers the design and development of aerospace avionics systems. It useful reference for engineers and professionals working in the field.
Provides a comprehensive overview of the principles of aircraft flight mechanics. It useful reference for students and practitioners who need to understand the basic principles of aircraft flight.
Provides a comprehensive overview of the fundamentals of aircraft and rocket propulsion. It useful reference for students and practitioners who need to understand the basic principles of aircraft and rocket propulsion.
Provides a comprehensive overview of the principles of aircraft control and simulation. It useful reference for students and practitioners who need to understand the basic principles of aircraft control and simulation.

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