PROGRAMME LEARNING OUTCOMES |
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KNOWLEDGE |
Described in terms of theoretical and factual knowledge. |
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1
The knowledge of the basic principles of UAV technology, such as operating principles, aerodynamics, flight theory and aviation regulations. This knowledge gives students the ability to understand how UAV systems work and to master the technical details.
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2
It is the type of knowledge that includes practical uses of UAVs, application scenarios and real-world data. Students combine theoretical knowledge and practice by examining the applications of UAV technology in different fields such as agriculture, security, mapping, search and rescue.
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SKILLS |
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Described in terms of cognitive and practical skills. |
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1
It includes mental processes such as analytical thinking, problem solving, creativity, critical thinking and decision making. UAV operators must have the ability to make quick and effective decisions in the face of various scenarios, and these skills form an important part of the training process.
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2
Refers to the ability of students to use their theoretical knowledge effectively in practice. These skills include hands-on tasks such as flight preparation, usability testing, maintenance and repair operations, data collection and analysis. Students develop these skills through simulations and field applications and learn how to use UAVs effectively in real-world scenarios.
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OCCUPATIONAL |
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Autonomy & Responsibility |
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1
It means that students develop the ability to work on their own and fulfill their responsibilities when they take part in UAV operations. These skills are critical for their self-confidence and work discipline in individual projects.
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Learning to Learn |
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1
It focuses on developing students' skills in acquiring knowledge, adapting to new technologies and continuous learning. Since UAV technology is a rapidly evolving field, it is of great importance that students are empowered to acquire up-to-date knowledge and improve themselves.
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Communication & Social |
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1
The course provides students with the skills to communicate effectively, work in a team and collaborate. As UAV operations are often conducted in teams, students need to communicate effectively with other operators, engineers and stakeholders.
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Occupational and/or Vocational |
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1
Refers to a specific set of knowledge and skills related to UAV technology and operation. These competencies include in-depth knowledge in areas such as understanding the design of UAV systems, data analysis, mission planning, using flight management software and complying with regulatory requirements. Through these competencies, students acquire the specialized and technical knowledge required for various roles in the industry.
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PROGRAMME LEARNING OUTCOMES |
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1
The knowledge of the basic principles of UAV technology, such as operating principles, aerodynamics, flight theory and aviation regulations. This knowledge gives students the ability to understand how UAV systems work and to master the technical details.
|
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2
It is the type of knowledge that includes practical uses of UAVs, application scenarios and real-world data. Students combine theoretical knowledge and practice by examining the applications of UAV technology in different fields such as agriculture, security, mapping, search and rescue.
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3
It includes mental processes such as analytical thinking, problem solving, creativity, critical thinking and decision making. UAV operators must have the ability to make quick and effective decisions in the face of various scenarios, and these skills form an important part of the training process.
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4
Refers to the ability of students to use their theoretical knowledge effectively in practice. These skills include hands-on tasks such as flight preparation, usability testing, maintenance and repair operations, data collection and analysis. Students develop these skills through simulations and field applications and learn how to use UAVs effectively in real-world scenarios.
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5
It means that students develop the ability to work on their own and fulfill their responsibilities when they take part in UAV operations. These skills are critical for their self-confidence and work discipline in individual projects.
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6
It focuses on developing students' skills in acquiring knowledge, adapting to new technologies and continuous learning. Since UAV technology is a rapidly evolving field, it is of great importance that students are empowered to acquire up-to-date knowledge and improve themselves.
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7
The course provides students with the skills to communicate effectively, work in a team and collaborate. As UAV operations are often conducted in teams, students need to communicate effectively with other operators, engineers and stakeholders.
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8
Refers to a specific set of knowledge and skills related to UAV technology and operation. These competencies include in-depth knowledge in areas such as understanding the design of UAV systems, data analysis, mission planning, using flight management software and complying with regulatory requirements. Through these competencies, students acquire the specialized and technical knowledge required for various roles in the industry.
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KNOWLEDGE |
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Theoretical, Factual |
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Possess theoretical and practical knowledge supported by textbooks with updated information, practice equipments and other resource on basic level based on qualifications gained at secondary education level.
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The knowledge of the basic principles of UAV technology, such as operating principles, aerodynamics, flight theory and aviation regulations. This knowledge gives students the ability to understand how UAV systems work and to master the technical details.
It is the type of knowledge that includes practical uses of UAVs, application scenarios and real-world data. Students combine theoretical knowledge and practice by examining the applications of UAV technology in different fields such as agriculture, security, mapping, search and rescue.
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SKILLS |
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Cognitive, Practical |
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Gain the skills to use basic level theoretical and practical knowledge acquired within the field in the same field of a higher education level or in a field of same level.
Interpret and evaluate data, define problems, do analysis, produce solutions based on proof with using basic level knowledge and practices gained within the field.
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It includes mental processes such as analytical thinking, problem solving, creativity, critical thinking and decision making. UAV operators must have the ability to make quick and effective decisions in the face of various scenarios, and these skills form an important part of the training process.
Refers to the ability of students to use their theoretical knowledge effectively in practice. These skills include hands-on tasks such as flight preparation, usability testing, maintenance and repair operations, data collection and analysis. Students develop these skills through simulations and field applications and learn how to use UAVs effectively in real-world scenarios.
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PERSONAL & OCCUPATIONAL COMPETENCES IN TERMS OF EACH OF THE FOLLOWING GROUPS |
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Autonomy & Responsibility |
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Conduct studies at basic level within the field independently.
Take responsibility as a team member in order to solve unexpected complex problems faced in the implementations within the field.
Conduct activities towards the development of subordinates within a project.
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It means that students develop the ability to work on their own and fulfill their responsibilities when they take part in UAV operations. These skills are critical for their self-confidence and work discipline in individual projects.
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Learning to Learn |
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Evaluate the acquired knowledge and skills at basic level within the field with a critical approach, determine and respond to learning needs.
Direct the education received to a higher education level in the same field or to an occupation in the same level.
Gain awareness of lifelong learning.
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It focuses on developing students' skills in acquiring knowledge, adapting to new technologies and continuous learning. Since UAV technology is a rapidly evolving field, it is of great importance that students are empowered to acquire up-to-date knowledge and improve themselves.
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Communication & Social |
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Transfer the ideas based on the basic knowledge and skills acquired within the field through written and oral communication.
Share the ideas and solution proposals to problems about issues within the field with professionals and non-professionals.
Monitor the developments in the field and communicate with peers by using a foreign language at least at a level of European Language Portfolio A2 General Level.
Use informatics and communication technologies with at least a minimum level of European Computer Driving License Basic Level software knowledge.
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The course provides students with the skills to communicate effectively, work in a team and collaborate. As UAV operations are often conducted in teams, students need to communicate effectively with other operators, engineers and stakeholders.
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Occupational and/or Vocational |
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Possess social, scientific, cultural and ethic values on the stages of gathering, implementation and release of the results of data related to the field.
Possess sufficient consciousness about the issues of universality of social rights, social justice, quality, cultural values and also, environmental protection, worker's health and security.
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Refers to a specific set of knowledge and skills related to UAV technology and operation. These competencies include in-depth knowledge in areas such as understanding the design of UAV systems, data analysis, mission planning, using flight management software and complying with regulatory requirements. Through these competencies, students acquire the specialized and technical knowledge required for various roles in the industry.
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