The Unmanned Aircraft Systems Flight Operations program provides you with the knowledge and skills to become a successful drone pilot and work in industries such as agriculture, public safety and more. With hands-on training, cutting-edge technology and experienced faculty, you'll be equipped to navigate the skies with confidence. Enroll now and soar towards a promising career in unmanned aircraft systems.
Unmanned Aircraft Systems Flight Operations - B.S.
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Bachelor’s Degree in Unmanned Aircraft Systems Flight Operations
Kent State University’s Bachelor of Science degree in Unmanned Aircraft Systems Flight Operations is for students who aspire to become professional unmanned aircraft pilots (drone pilot). This program is focused on the safe operation of unmanned aircraft vehicles (UAV), the technical design of unmanned aerial systems (UAS), and regulations and policies related to Advanced Air Mobility (AAM), including safety, certification, communication, control, and performance.
Program Information for Unmanned Aircraft Systems Flight Operations - B.S.
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Program Description
Full Description
The Bachelor of Science degree in Unmanned Aircraft Systems Flight Operations is for students who aspire to become professional unmanned aircraft pilots (drone pilot). This program is focused on the safe operations of unmanned aircraft systems, regulations, the technology of autonomous systems and policies regarding the operations of unmanned aerial elements.
The mission of the Bachelor of Science degree in Unmanned Aircraft Systems Flight Operations is to cultivate a new generation of professionals equipped with the knowledge, skills and technological awareness to excel in the dynamic field of unmanned aviation, and provide students with a comprehensive education that combines cutting-edge technological expertise with a deep understanding of the regulatory, operational and safety considerations essential to the responsible and effective use of unmanned aircraft systems (UAS) and advanced air mobility (AAM).
Students may apply early to the M.S. degree in Aviation Management and Logistics and double count 9 credit hours of graduate courses toward both degree programs. See the Combined Bachelor's/Master's Degree Program policy in the University Catalog for more information.
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Admissions
for Unmanned Aircraft Systems Flight Operations - B.S.
Admission Requirements
The university affirmatively strives to provide educational opportunities and access to students with varied backgrounds, those with special talents and adult students who graduated from high school three or more years ago.
First-Year Students on the Kent Campus: First-year admission policy on the Kent Campus is selective. Admission decisions are based upon cumulative grade point average, strength of high school college preparatory curriculum and grade trends. Students not admissible to the Kent Campus may be administratively referred to one of the seven regional campuses to begin their college coursework. For more information, visit the admissions website for first-year students.
First-Year Students on the Regional Campuses: First-year admission to Kent State’s campuses at Ashtabula, East Liverpool, Geauga, Salem, Stark, Trumbull and Tuscarawas, as well as the Twinsburg Academic Center, is open to anyone with a high school diploma or its equivalent. For more information on admissions, contact the Regional Campuses admissions offices.
International Students: All international students must provide proof of English language proficiency (unless they meet specific exceptions) by earning a minimum 525 TOEFL score (71 on the Internet-based version), minimum 75 MELAB score, minimum 6.0 IELTS score or minimum 48 PTE Academic score, or by completing the ELS level 112 Intensive Program. For more information, visit the admissions website for international students.
Transfer Students: Students who have attended any other educational institution after graduating from high school must apply as undergraduate transfer students. For more information, visit the admissions website for transfer students.
Former Students: Former Kent State students or graduates who have not attended another college or university since Kent State may complete the reenrollment or reinstatement form on the University Registrar’s website.
Admission policies for undergraduate students may be found in the University Catalog's Academic Policies.
Some programs may require that students meet certain requirements before progressing through the program. For programs with progression requirements, the information is shown on the program's Coursework tab.
Transfer students must have a minimum 2.250 overall GPA in all college-level coursework for admission to the Unmanned Aircraft Systems Flight Operations major.
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Learning Outcomes
Program Learning Outcomes
Graduates of this program will be able to:
- Demonstrate a comprehensive understanding of unmanned aircraft systems, including their design, operation and maintenance.
- Demonstrate the ability to effectively plan, execute and manage UAS missions for a variety of applications, ensuring optimal performance, data accuracy and safety.
- Interpret and apply current and future regulations related to airspace, privacy, safety and data protection.
- Demonstrate and employ critical thinking and problem solving techniques when unexpected issues arise to make informed decisions, adapt strategies and ensure the successful completion of missions while prioritizing safety and mission goals.
The educational objectives of the program are the following:
- Exhibit the qualities of excellence, integrity, leadership, management and professionalism within their area of professional specialization in aviation.
- Demonstrate a professional commitment to safety and contribute to the safety culture within their area of professional specialization in aviation.
- Demonstrate the ability to improve aerospace for generations to come through experiential learning, creativity and innovation within their area of professional specialization in aviation.
- Manifest the college’s core values in the areas of collaboration, compassion, inclusiveness, innovation, integrity, respect and perseverance within their area of professional specialization in aviation.
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Coursework
On This Page
Program Requirements
Major Requirements
Course List Code Title Credit Hours Major Requirements (courses count in major GPA) AERN 15000 INTRODUCTION TO AERONAUTICS 3 AERN 15745 NON-PILOT ELEMENTS OF FLIGHT THEORY 3 AERN 25100 INTRODUCTION TO AVIATION MANAGEMENT 3 AERN 25250 ELEMENTS OF AVIATION WEATHER 3 AERN 25350 FUNDAMENTALS OF AIR TRAFFIC CONTROL 2 AERN 25351 FUNDAMENTALS OF AIR TRAFFIC CONTROL LABORATORY 1 AERN 25800 INTRODUCTION TO UNMANNED AIRCRAFT SYSTEMS 3 AERN 30000 PROFESSIONAL DEVELOPMENT IN AERONAUTICS 1 AERN 35020 AIRCRAFT PROPULSION SYSTEMS 3 AERN 35040 AIRCRAFT SYSTEMS I 3 AERN 35250 UNMANNED AIRCRAFT SYSTEMS LAW AND REGULATIONS 2 AERN 35650 NON-PILOT INSTRUMENT FLIGHT THEORY 3 AERN 35810 UNMANNED AIRCRAFT SYSTEMS 3 AERN 35830 UNMANNED AIRCRAFT SYSTEMS SENSING AND SENSOR SYSTEMS 3 AERN 35840 UNMANNED AIRCRAFT SYSTEMS COMMAND, CONTROL AND COMMUNICATIONS 3 AERN 35892 SMALL UNMANNED AIRCRAFT SYSTEMS FLIGHT PRACTICUM (ELR) 2 AERN 45030 AIRCRAFT SYSTEMS II 3 AERN 45130 PHYSIOLOGY AND HUMAN FACTORS OF FLIGHT 3 AERN 45135 AVIATION SAFETY THEORY 3 AERN 45150 APPLIED FLIGHT DYNAMICS I 3 AERN 45250 AVIATION LAW 3 AERN 45791 AVIATION SECURITY AND POLICY SEMINAR (WIC) 1 3 AERN 45800 UNMANNED AIRCRAFT SYSTEMS FLIGHT OPERATIONS THEORY 4 AERN 45892 UNMANNED AIRCRAFT SYSTEMS FLIGHT PRACTICUM (ELR) 2 ENGR 45151 APPLIED FLIGHT DYNAMICS II 3 Aeronautics (AERN) Electives 6 Additional Requirements (courses do not count in major GPA) COMM 15000 INTRODUCTION TO HUMAN COMMUNICATION (KADL) 3 MATH 11010 ALGEBRA FOR CALCULUS (KMCR) 3 MATH 11022 TRIGONOMETRY (KMCR) 3 PHY 13001 GENERAL COLLEGE PHYSICS I (KBS) 4 PHY 13012 COLLEGE PHYSICS II (KBS) 2 PHY 13021 GENERAL COLLEGE PHYSICS LABORATORY I (KBS) (KLAB) 1 PHY 13022 GENERAL COLLEGE PHYSICS LABORATORY II (KBS) (KLAB) 1 UC 10001 FLASHES 101 1 Kent Core Composition 6 Kent Core Humanities and Fine Arts (minimum one course from each) 9 Kent Core Social Sciences (must be from two disciplines) 6 General Electives (total credit hours depends on earning 120 credit hours, including 39 upper-division credit hours) 7 Minimum Total Credit Hours: 120 - 1
A minimum C grade must be earned to fulfill the writing-intensive requirement.
Graduation Requirements
Graduation Requirements Summary Minimum Major GPA Minimum Overall GPA 2.500 2.000 -
Roadmap
Roadmap
This roadmap is a recommended semester-by-semester plan of study for this major. However, courses designated as critical (!) must be completed in the semester listed to ensure a timely graduation.
Plan of Study Grid Semester One Credits AERN 15000 INTRODUCTION TO AERONAUTICS 3 AERN 25800 INTRODUCTION TO UNMANNED AIRCRAFT SYSTEMS 3 MATH 11010 ALGEBRA FOR CALCULUS (KMCR) 3 UC 10001 FLASHES 101 1 Kent Core Requirement 3 Kent Core Requirement 3 Credit Hours 16 Semester Two AERN 15745 NON-PILOT ELEMENTS OF FLIGHT THEORY 3 AERN 25350 FUNDAMENTALS OF AIR TRAFFIC CONTROL 2 AERN 25351 FUNDAMENTALS OF AIR TRAFFIC CONTROL LABORATORY 1 MATH 11022 TRIGONOMETRY (KMCR) 3 Aeronautics (AERN) Elective 3 Kent Core Requirement 3 Credit Hours 15 Semester Three AERN 25100 INTRODUCTION TO AVIATION MANAGEMENT 3 AERN 25250 ELEMENTS OF AVIATION WEATHER 3 AERN 35810 UNMANNED AIRCRAFT SYSTEMS 3 Kent Core Requirement 3 Kent Core Requirement 3 Credit Hours 15 Semester Four AERN 35830 UNMANNED AIRCRAFT SYSTEMS SENSING AND SENSOR SYSTEMS 3 COMM 15000 INTRODUCTION TO HUMAN COMMUNICATION (KADL) 3 PHY 13001 GENERAL COLLEGE PHYSICS I (KBS) 4 PHY 13021 GENERAL COLLEGE PHYSICS LABORATORY I (KBS) (KLAB) 1 General Elective 3 Credit Hours 14 Semester Five AERN 30000 PROFESSIONAL DEVELOPMENT IN AERONAUTICS 1 AERN 35020 AIRCRAFT PROPULSION SYSTEMS 3 AERN 35892 SMALL UNMANNED AIRCRAFT SYSTEMS FLIGHT PRACTICUM (ELR) 2 PHY 13012 COLLEGE PHYSICS II (KBS) 2 PHY 13022 GENERAL COLLEGE PHYSICS LABORATORY II (KBS) (KLAB) 1 Aeronautics (AERN) Elective 3 Kent Core Requirement 3 Credit Hours 15 Semester Six AERN 35040 AIRCRAFT SYSTEMS I 3 AERN 35650 NON-PILOT INSTRUMENT FLIGHT THEORY 3 AERN 45150 APPLIED FLIGHT DYNAMICS I 3 AERN 45250 AVIATION LAW 3 Kent Core Requirement 3 Credit Hours 15 Semester Seven AERN 35840 UNMANNED AIRCRAFT SYSTEMS COMMAND, CONTROL AND COMMUNICATIONS 3 AERN 45030 AIRCRAFT SYSTEMS II 3 AERN 45130 PHYSIOLOGY AND HUMAN FACTORS OF FLIGHT 3 ENGR 45151 APPLIED FLIGHT DYNAMICS II 3 General Electives 4 Credit Hours 16 Semester Eight AERN 35250 UNMANNED AIRCRAFT SYSTEMS LAW AND REGULATIONS 2 AERN 45135 AVIATION SAFETY THEORY 3 AERN 45791 AVIATION SECURITY AND POLICY SEMINAR (WIC) 3 AERN 45800 UNMANNED AIRCRAFT SYSTEMS FLIGHT OPERATIONS THEORY 4 AERN 45892 UNMANNED AIRCRAFT SYSTEMS FLIGHT PRACTICUM (ELR) 2 Credit Hours 14 Minimum Total Credit Hours: 120 -
Program Delivery
- Delivery:
- In person
- Location:
- Kent Campus
- Delivery:
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Student Achievement Data
Program Educational Goals
With the guidance of both the Aviation Accreditation Board International (AABI) and the Federal Aviation Administration (FAA), Kent State University and the College of Aeronautics and Engineering assesses our program’s educational goals every two years. Our Program Educational Goals are as follows:
- Graduates will exhibit the qualities of excellence, integrity, leadership, management, and professionalism within their area of professional specialization in aviation.
- Graduates will demonstrate a professional commitment to safety and contribute to the safety culture within their area of professional specialization in aviation.
- Graduates will demonstrate the ability to improve aerospace for generations to come through experiential learning, creativity, and innovation within their area of professional specialization in aviation.
- Graduates will manifest the college’s core values in the areas of collaboration, compassion, inclusiveness, innovation, integrity, respect, and perseverance within their area of professional specialization in aviation.
Several methods to gather both direct and indirect assessment data over the course of each academic year are utilized. Data is gathered to improve student's learning and strengthen our relationships with industry. Some methods used include:
- Surveys (Graduating Senior, Alumni, and Employer Surveys)
- Capstone Projects
- Aeronautics Advisory Committee Feedback
- Degree Program Review
- Faculty Assessment and Discussion of Student Learning Outcomes
The assessment of our goals starts with the University’s vision to Promote academic excellence and enhance student learning through a culture of evidence-based decision-making. The valuable data we collect from our assessment activities is analyzed and discussed amongst our Faculty to ensure we are making value added improvements to our programs.
Program Enrollment and Graduation Data
Unmanned Aircraft Systems Flight Operations; Enrolled 2018 2019 2020 2021 2022 2023 - - 4 7 11 18 Unmanned Aircraft Systems Flight Operations; Graduated 2018 2019 2020 2021 2022 2023 - - - - - - Student Retention Rates Term Freshman Cohort Retention SO-JR JR-SR After 4 Yrs After 5 Yrs After 6 Yrs 2018 - - - - - - 2019 - - - - - 2020 1 100% 100% 100% 2021 2 100% 50% 2022 4 50% 2023 4
Approved Unmanned Aircraft Systems - Collegiate Training Initiative (UAS-CTI) School