ECTS - Architectural Photography

Architectural Photography (ART293) Course Detail

Course Name Course Code Season Lecture Hours Application Hours Lab Hours Credit ECTS
Architectural Photography ART293 Fall and Spring 3 0 0 3 4
Pre-requisite Course(s)
N/A
Course Language Turkish
Course Type Elective Courses
Course Level Bachelor’s Degree (First Cycle)
Mode of Delivery Face To Face
Learning and Teaching Strategies Lecture, Demonstration, Drill and Practice.
Course Coordinator
Course Lecturer(s)
Course Assistants
Course Objectives • Learning and using technical and compositional information about architectural photography • Taking better architectural photographs on her/his professional and also social life
Course Learning Outcomes The students who succeeded in this course;
  • - Explains architectural photography
  • - Knows ethics and copyright in architectural photography
  • - Knows historical and contemporary photographers and their works on architectural photography
  • - Knows cameras, lenses and auxiliary equipments in architectural photography
  • - Uses proper lighting (natural and artificial) to take good architectural photographs
  • - Learns to compose an architectural photograph
  • - Learns to overcome challenges in architectural photography
  • - Learns to edit architectural photographs
Course Content Architectural dynamics in art of photography; photography techniques that are compatible with structures; equipment knowledge and usage techniques.

Weekly Subjects and Releated Preparation Studies

Week Subjects Preparation
1 Introduction, essential information about the course context, course outline, references, and assesment methods
2 Definition of photography, photographer, architectural photography, and architectural photographer. Architectural photography and different types of photography.
3 Ethics and copyright in photography and architectural photography. History of architectural photography.
4 The purpose of architectural photography. Shooting methods in architectural photography. Ex-ante controls.
5 Cameras in architectural photography.
6 Lenses and the importance of focal length of lenses in architectural photography.
7 Midterm Exam
8 Perspective Control. Auxiliary equipments in architectural photography.
9 Proper lighting (natural and artificial) in architectural photography.
10 Composition rules in architectural photography
11 Depth of field in architectural photography. Shooting interior and exterior spaces.
12 Overcoming challenges in architectural photography.
13 Creative photography techniques in architectural photography.
14 Panoramic architectural photography. Photographing an architecture model. Editing techniques in architectural photography.
15 Reviewing the term.
16 Final Exam

Sources

Other Sources 1. Kanburoğlu. Ö. (2016).Tüm Yönleriyle Mimari Fotoğraf. İstanbul: Say Yayınları.

Evaluation System

Requirements Number Percentage of Grade
Attendance/Participation - -
Laboratory - -
Application - -
Field Work - -
Special Course Internship - -
Quizzes/Studio Critics - -
Homework Assignments 3 15
Presentation 1 10
Project - -
Report - -
Seminar - -
Midterms Exams/Midterms Jury 1 25
Final Exam/Final Jury 1 50
Toplam 6 100
Percentage of Semester Work 50
Percentage of Final Work 50
Total 100

Course Category

Core Courses X
Major Area Courses
Supportive Courses
Media and Managment Skills Courses
Transferable Skill Courses

The Relation Between Course Learning Competencies and Program Qualifications

# Program Qualifications / Competencies Level of Contribution
1 2 3 4 5
1 Adequate knowledge in mathematics, science and subjects specific to the software engineering discipline; the ability to apply theoretical and practical knowledge of these areas to complex engineering problems.
2 The ability to identify, define, formulate and solve complex engineering problems; selecting and applying proper analysis and modeling techniques for this purpose.
3 The ability to design a complex system, process, device or product under realistic constraints and conditions to meet specific requirements; the ability to apply modern design methods for this purpose.
4 The ability to develop, select and utilize modern techniques and tools essential for the analysis and determination of complex problems in software engineering applications; the ability to utilize information technologies effectively.
5 The ability to gather data, analyze and interpret results for the investigation of complex engineering problems or research topics specific to the software engineering discipline.
6 The ability to work effectively in inter/inner disciplinary teams; ability to work individually.
7 Effective oral and written communication skills in Turkish; the ability to write effective reports and comprehend written reports, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions.
8 The knowledge of at least one foreign language; the ability to write effective reports and comprehend written reports, to prepare design and production reports, to make effective presentations, to give and receive clear and understandable instructions.
9 Recognition of the need for lifelong learning; the ability to access information and follow recent developments in science and technology with continuous self-development X
10 The ability to behave according to ethical principles, awareness of professional and ethical responsibility.
11 Knowledge of the standards utilized in software engineering applications.
12 Knowledge on business practices such as project management, risk management and change management.
13 Awareness about entrepreneurship, and innovation.
14 Knowledge on sustainable development.
15 Knowledge of the effects of software engineering applications on the universal and social dimensions of health, environment, and safety.
16 Awareness of the legal consequences of engineering solutions.
17 An ability to apply algorithmic principles, mathematical foundations, and computer science theory in the modeling and design of computer-based systems with the trade-offs involved in design choices.
18 The ability to apply engineering approach to the development of software systems by analyzing, designing, implementing, verifying, validating and maintaining software systems.

ECTS/Workload Table

Activities Number Duration (Hours) Total Workload
Course Hours (Including Exam Week: 16 x Total Hours) 16 3 48
Laboratory
Application
Special Course Internship
Field Work
Study Hours Out of Class 6 2 12
Presentation/Seminar Prepration 1 7 7
Project
Report
Homework Assignments 3 5 15
Quizzes/Studio Critics
Prepration of Midterm Exams/Midterm Jury 1 8 8
Prepration of Final Exams/Final Jury 1 10 10
Total Workload 100