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Course Description |
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Course Name |
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Remote Sensing and Renewable Energy Sources |
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Course Code |
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UA-521 |
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Course Type |
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Optional |
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Level of Course |
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Second Cycle |
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Year of Study |
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1 |
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Course Semester |
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Fall (16 Weeks) |
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ECTS |
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6 |
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Name of Lecturer(s) |
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Assoc.Prof.Dr. OZAN ŞENKAL |
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Learning Outcomes of the Course |
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to define the characteristics and laws of Remote sensing and renewable energy sources
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Mode of Delivery |
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Face-to-Face |
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Prerequisites and Co-Prerequisites |
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None |
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Recommended Optional Programme Components |
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None |
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Aim(s) of Course |
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to examine Properties and applications of remote sensing and Renewable Energy Sources |
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Course Contents |
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What is remote sensing? The electromagnetic spectrum, the atmosphere and the relationship between the detection, remote sensing techniques, satellite. Energy, by definition, the basic principles and history of the use of energy, energy types, energy and nature of fossil energy resources and atmospheric pollution, environmental problems caused by fossil energy sources, renewable energy sources, solar energy, definition, usage, and history of the basics of solar radiation, solar energy technologies, solar radiation calculator elements, principles of wind energy, wind energy conversion systems, geothermal energy and other renewable energy sources in developing the present and the future. |
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Language of Instruction |
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Turkish |
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Work Place |
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Laboratory |
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Course Outline /Schedule (Weekly) Planned Learning Activities |
| Week | Subject | Student's Preliminary Work | Learning Activities and Teaching Methods |
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1 |
What is remote sensing? |
Related subjects in the course text book |
Lecture, Drill and Practice |
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2 |
The electromagnetic spectrum, the atmosphere and the relationship between the detection, remote sensing techniques |
Related subjects in the course text book |
Lecture, Drill and Practice |
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3 |
Satellite |
Related subjects in the course text book |
Lecture, Drill and Practice |
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4 |
Energy, by definition, the basic principles and history of the use of energy |
Related subjects in the course text book |
Lecture, Drill and Practice |
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5 |
Energy types, energy and nature |
Related subjects in the course text book |
Lecture, Drill and Practice |
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6 |
Fossil energy resources and atmospheric pollution |
Related subjects in the course text book |
Lecture, Drill and Practice |
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7 |
Environmental problems caused by fossil energy sources |
Related subjects in the course text book |
Lecture, Drill and Practice |
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8 |
Mid-term Exams |
Preparing for the exam and rewieving of the topics |
Testing, Assignment, Project / Design |
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9 |
Renewable energy sources |
Related subjects in the course text book |
Lecture, Drill and Practice |
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10 |
Solar energy, definition, usage and history |
Related subjects in the course text book |
Lecture, Drill and Practice |
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11 |
The basics of solar radiation, solar energy technologies |
Related subjects in the course text book |
Lecture, Drill and Practice |
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12 |
Solar radiation calculator elements |
Related subjects in the course text book |
Lecture, Drill and Practice |
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13 |
Principles of wind energy |
Related subjects in the course text book |
Lecture, Drill and Practice |
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14 |
Wind energy conversion systems |
Related subjects in the course text book |
Lecture, Drill and Practice |
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15 |
Geothermal energy and other renewable energy sources in developing the present and the future |
Related subjects in the course text book |
Lecture, Drill and Practice |
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16/17 |
Final Assessments |
Preparing for the exam and rewieving of the topics |
Testing, Assignment, Project / Design |
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Required Course Resources |
| Resource Type | Resource Name |
| Recommended Course Material(s) |
Powerpoint presentations on the subject prepared
Course subjects on the Articles, Papers and Theses
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| Required Course Material(s) | |
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Assessment Methods and Assessment Criteria |
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Semester/Year Assessments |
Number |
Contribution Percentage |
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Mid-term Exams (Written, Oral, etc.) |
1 |
100 |
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Homeworks/Projects/Others |
0 |
0 |
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Total |
100 |
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Rate of Semester/Year Assessments to Success |
40 |
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Final Assessments
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100 |
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Rate of Final Assessments to Success
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60 |
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Total |
100 |
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| Contribution of the Course to Key Learning Outcomes |
| # | Key Learning Outcome | Contribution* |
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1 |
The students acquire knowledge on potential practical fields of use of remotely sensed data, and use their theoretical and practical knowledge for problem solution in the related professional disciplines. |
3 |
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2 |
The students identify, describe, formulate and solve problems in engineering, and for this purpose, they are able to select appropriate techniques and apply analytical methods and models. |
3 |
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3 |
The students generate information using remotely sensed data and GIS together with database management skills. |
2 |
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4 |
The students gain knowledge to use current data and methods for multi-disciplinary research. |
4 |
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5 |
The students gain technical competence and skills in using recent GIS and remote sensing software. |
2 |
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6 |
The students have basic information about data collection, management, and analysis through integrating GIS and remote sensing, and are able to solve engineering problems using modern tools and technologies. |
2 |
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7 |
The students develop an understanding of sustainable resource management and planning to meet human needs by taking ecological factors into consideration in light of the current research data. |
3 |
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8 |
The students acquire the necessary knowledge and skills to understand a system, a system component or process for planning purposes, using modern techniques and methods. |
3 |
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9 |
At the end of the programme, the students acquire advanced knowledge on remote sensing and GIS theory. |
4 |
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10 |
The students gain knowledge on remote sensing technologies, sensors and platforms and remotely sensed data. |
4 |
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11 |
The students gain knowledge on temporal, radiometrici, spatial and spectral characteristics of remotely sensed data, as well as optic and active remote sensing systems and their interpretation. |
4 |
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12 |
The students develop the necessary skills for selecting and using appropriate techniques and tools for engineering practices, using information technologies effectively, and collecting, analysing and interpreting data. |
4 |
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13 |
The students gain the necessary skills to access information, review the literature, use databases and other sources of information, as well as lifelong learning awareness and the skills to follow scientific and technological developments for personal improvement. |
4 |
| * Contribution levels are between 0 (not) and 5 (maximum). |
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| Student Workload - ECTS |
| Works | Number | Time (Hour) | Total Workload (Hour) |
| Course Related Works |
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Class Time (Exam weeks are excluded) |
14 |
3 |
42 |
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Out of Class Study (Preliminary Work, Practice) |
14 |
4 |
56 |
| Assesment Related Works |
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Homeworks, Projects, Others |
0 |
0 |
0 |
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Mid-term Exams (Written, Oral, etc.) |
1 |
20 |
20 |
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Final Exam |
1 |
25 |
25 |
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Total Workload: | 143 |
| Total Workload / 25 (h): | 5.72 |
| ECTS Credit: | 6 |
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