Information Package / Course Catalogue
| Architecture | |||||
| Bachelor | Length of the Programme: 4 | Number of Credits: 240 | TR-NQF-HE: Level 6 | QF-EHEA: First Cycle | EQF: Level 6 |
ECTS Course Information Package
| School/Faculty/Institute | Faculty of Arts, Design and Architecture | ||||
| Course Code | ARC 452 | ||||
| Course Title in English | Space in Extended Reality | ||||
| Course Title in Turkish | Artırılmış Gerçeklikte Mekan | ||||
| Language of Instruction | |||||
| Type of Course | Ters-yüz öğrenme | ||||
| Level of Course | İleri | ||||
| Semester | Spring | ||||
| Contact Hours per Week |
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| Estimated Student Workload | 126 hours per semester | ||||
| Number of Credits | 5 ECTS | ||||
| Grading Mode | Standard Letter Grade | ||||
| Pre-requisites |
ARC 202 - Architectural Design IV | INT 202 - Interior Design II |
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| Co-requisites | None | ||||
| Expected Prior Knowledge | 4 semesters of design studio | ||||
| Registration Restrictions | Only Undergraduate Students | ||||
| Overall Educational Objective | To learn to use digital medium not only as a representation tool but also as an architectural design tool for creating virtual environments and experiences. | ||||
| Course Description | The course focuses on game and software logics. A software structure will be designed as a collective work with physical models, and then they will be converted. For this purpose we will use Unity engine and Playmaker plugin to convert hands on mockups to the digital world. The course also focus on essentials of level design. Finally the game demos will be created with the context of digital world. |
Course Learning Outcomes and CompetencesUpon successful completion of the course, the learner is expected to be able to:1) understand the power of the game engines in architecture; 2) design and represent the virtual environments; 3) design a game/software/program structure; 4) create virtual spaces in computer context. |
| Program Learning Outcomes/Course Learning Outcomes | 1 | 2 | 3 | 4 |
|---|---|---|---|---|
| 1) Ability to read, write and speak effectively in Turkish and English, equivalent to a B2 European Language Passport Level in English. | ||||
| 2) Ability to question and interpret ideas considering diverse points of view; gather and use data, develop concepts related to people, places and the environment, and make individual decisions. | ||||
| 3) Ability to use appropriate graphical methods including freehand and digital drawing techniques, (ECDL advanced) in order to develop ideas in addition to communicate the process of design. | ||||
| 4) Ability to use fundamental principles of architectural design considering the place, climate, people, society as factors, and simultaneously express present principles in relevant precedents. | ||||
| 5) Understanding of architectural principles belonging to global and local cultures shaped by the climatic, technological, socioeconomic, cultural factors, in addition to principles of historic preservation while developing architectural and urban design projects. | ||||
| 6) Understanding the theories and methods used to describe the relationship between human behavior and physical environment; and concurrently understanding different needs, values, behavioral norms, social and spatial patterns of different cultures. | ||||
| 7) Ability to apply various stages of design processes considering the client and user needs, which include space and equipment requirements besides site conditions and relevant laws and standards. | ||||
| 8) Understanding the role of applied research in determining function, form and systems and their impact on human conditions and behavior. | ||||
| 9) Understanding of the basic principles of static and dynamic structural behavior that withstand gravity and lateral forces, in addition to the evolution and applications of structural systems. | ||||
| 10) Ability to apply the principles of sustainability in architectural and urban design projects that aim to preserve the natural and historic resources and provide healthful environments. | ||||
| 11) Ability to apply the fundamental principles of building and safety systems such as mechanical, electrical, fire prevention, vertical circulation additionally to principles of accessibility into the design of buildings. | ||||
| 12) Understanding the basic principles in the selection of materials, products, components and assemblies, based on their characteristics together with their performance, including their environmental impact and reuse possibilities. | ||||
| 13) Ability to produce a comprehensive architectural project from the schematic design phase to design development phase, while integrating structural systems, life safety and sustainability principles. | ||||
| 14) Understanding the principles of environmental systems such as energy preservation, active and passive heating and cooling systems, air quality, solar orientation, day lighting and artificial illumination, and acoustics; in addition to the use of appropriate performance assessment tools. | ||||
| 15) Ability to choose appropriate materials, products and components in the implementation of design building envelope systems. | ||||
| 16) Ability to understand the principles and concepts of different fields in multidisciplinary design processes and the ability to work in collaboration with others as a member of the design team. | ||||
| 17) Understanding the responsibility of the architect to organize and lead design and construction processes considering the environmental, social and aesthetic issues of the society. | ||||
| 18) Understanding the legal to responsibilities of the architect of the architect effecting the design and construction of a building such as public health and safety; accessibility, preservation, building codes and regulations as well as user rights. | ||||
| 19) Ability to understand the ethical issues involved in the design and construction of buildings and provide services for the benefit of the society. In addition to the ability to act with social responsibility in global and local scales that contribute to the well being of the society. | ||||
| 20) Understanding the methods for competing for commissions, selecting consultants and assembling teams, recommending project delivery methods, which involve financial management and business planning, time management, risk management, mediation and arbitration. |
Relation to Program Outcomes and Competences
| N None | S Supportive | H Highly Related |
| Program Outcomes and Competences | Level | Assessed by | |
| 1) | Ability to read, write and speak effectively in Turkish and English, equivalent to a B2 European Language Passport Level in English. | H | |
| 2) | Ability to question and interpret ideas considering diverse points of view; gather and use data, develop concepts related to people, places and the environment, and make individual decisions. | H | |
| 3) | Ability to use appropriate graphical methods including freehand and digital drawing techniques, (ECDL advanced) in order to develop ideas in addition to communicate the process of design. | S | |
| 4) | Ability to use fundamental principles of architectural design considering the place, climate, people, society as factors, and simultaneously express present principles in relevant precedents. | S | |
| 5) | Understanding of architectural principles belonging to global and local cultures shaped by the climatic, technological, socioeconomic, cultural factors, in addition to principles of historic preservation while developing architectural and urban design projects. | H | |
| 6) | Understanding the theories and methods used to describe the relationship between human behavior and physical environment; and concurrently understanding different needs, values, behavioral norms, social and spatial patterns of different cultures. | H | |
| 7) | Ability to apply various stages of design processes considering the client and user needs, which include space and equipment requirements besides site conditions and relevant laws and standards. | S | |
| 8) | Understanding the role of applied research in determining function, form and systems and their impact on human conditions and behavior. | S | |
| 9) | Understanding of the basic principles of static and dynamic structural behavior that withstand gravity and lateral forces, in addition to the evolution and applications of structural systems. | S | |
| 10) | Ability to apply the principles of sustainability in architectural and urban design projects that aim to preserve the natural and historic resources and provide healthful environments. | S | |
| 11) | Ability to apply the fundamental principles of building and safety systems such as mechanical, electrical, fire prevention, vertical circulation additionally to principles of accessibility into the design of buildings. | S | |
| 12) | Understanding the basic principles in the selection of materials, products, components and assemblies, based on their characteristics together with their performance, including their environmental impact and reuse possibilities. | S | |
| 13) | Ability to produce a comprehensive architectural project from the schematic design phase to design development phase, while integrating structural systems, life safety and sustainability principles. | S | |
| 14) | Understanding the principles of environmental systems such as energy preservation, active and passive heating and cooling systems, air quality, solar orientation, day lighting and artificial illumination, and acoustics; in addition to the use of appropriate performance assessment tools. | S | |
| 15) | Ability to choose appropriate materials, products and components in the implementation of design building envelope systems. | S | |
| 16) | Ability to understand the principles and concepts of different fields in multidisciplinary design processes and the ability to work in collaboration with others as a member of the design team. | S | |
| 17) | Understanding the responsibility of the architect to organize and lead design and construction processes considering the environmental, social and aesthetic issues of the society. | S | |
| 18) | Understanding the legal to responsibilities of the architect of the architect effecting the design and construction of a building such as public health and safety; accessibility, preservation, building codes and regulations as well as user rights. | S | |
| 19) | Ability to understand the ethical issues involved in the design and construction of buildings and provide services for the benefit of the society. In addition to the ability to act with social responsibility in global and local scales that contribute to the well being of the society. | S | |
| 20) | Understanding the methods for competing for commissions, selecting consultants and assembling teams, recommending project delivery methods, which involve financial management and business planning, time management, risk management, mediation and arbitration. | S |
| Prepared by and Date | SEVİNCE BAYRAK GÖKTAŞ , October 2024 |
| Course Coordinator | AKTS1 |
| Semester | Spring |
| Name of Instructor | Asst. Prof. Dr. SEVİNCE BAYRAK GÖKTAŞ |
Course Contents
| Week | Subject |
| 1) | Introduction, Software |
| 2) | Software: Discussing statements and methods |
| 3) | Introduction to Unity |
| 4) | Unity with C# or Playmaker : first game |
| 5) | Unity with C# or Playmaker : improving game |
| 6) | Content creation tools: Sketchup, Rhino |
| 7) | Midterm Evaluation on Unity |
| 8) | Create ideas for the final project |
| 9) | Group Work: Presentation of final project |
| 10) | Desk crit and technical support |
| 11) | Desk crit and technical support |
| 12) | Desk crit and technical support |
| 13) | Desk crit and technical support |
| 14) | Final Presentations and demos |
| 15) | Final Examination Period |
| 16) | Final Examination Period |
| Required/Recommended Readings | Recommended Reading: http://8kindsoffun.com Jesse Schell, The Art of Game Design Edward Casey, The Fate of Place: A Philosophical History | |||||||||||||||
| Teaching Methods | Lectures, in-class discussions, assignments | |||||||||||||||
| Homework and Projects | 3 Assignments and a Final Submission | |||||||||||||||
| Laboratory Work | - | |||||||||||||||
| Computer Use | Yes | |||||||||||||||
| Other Activities | - | |||||||||||||||
| Assessment Methods |
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| Course Administration |
goktass@mef.edu.tr - Attending both submissions including the Final Submission are crucial elements in the final grade. Late submissions will not be accepted. 70% attendance are compulsory for a successful outcome. Academic Dishonesty and Plagiarism: YÖK Disciplinary Regulation. |
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ECTS Student Workload Estimation
| Activity | No/Weeks | Hours | Calculation | ||||
| No/Weeks per Semester | Preparing for the Activity | Spent in the Activity Itself | Completing the Activity Requirements | ||||
| Course Hours | 14 | 1 | 3 | 1 | 70 | ||
| Homework Assignments | 14 | 4 | 56 | ||||
| Total Workload | 126 | ||||||
| Total Workload/25 | 5.0 | ||||||
| ECTS | 5 | ||||||