Course Detail
Course Description
| Course | Code | Semester | T+P (Hour) | Credit | ECTS |
|---|---|---|---|---|---|
| IT BASED DESIGN and MANAGEMENT II | KTP2215123 | Spring Semester | 2+2 | 3 | 4 |
| Course Program | Çarşamba 13:30-14:15 Çarşamba 14:30-15:15 Çarşamba 15:30-16:15 Çarşamba 16:30-17:15 Cumartesi 13:30-14:15 Cumartesi 14:30-15:15 Cumartesi 15:30-16:15 Cumartesi 16:30-17:15 |
| Prerequisites Courses | |
| Recommended Elective Courses |
| Language of Course | Turkish |
| Course Level | First Cycle (Bachelor's Degree) |
| Course Type | Required |
| Course Coordinator | Assist.Prof. Ahmet TUZ |
| Name of Lecturer(s) | Assist.Prof. Ahmet TUZ, Lect. Diler ÇİFTÇİ |
| Assistant(s) | |
| Aim | It is aimed to provide the theoretical and practical knowledge required to realize design, project planning and construction management issues in a digital environment. |
| Course Content | This course contains; Rhino Grasshopper: Parameter concept, Grasshopper interface introduction, introduction to point and line components, Introduction to components, Applied Revolve surface explanation Revit: The emergence, definition and development process of BIM concept The construction industry needs BIM? Why use BIM? What is BIM?, How does BIM change the construction industry?, Basic features of BIM technology Overview of BIM-based software, basic concepts related to BIM, ND BIM, conflict control, interoperability, virtual reality, energy simulations,Rhino Grasshopper: Parameter concept, Grasshopper interface introduction, introduction to point and line components, Introduction to components, Applied Revolve surface explanation Revit: The emergence, definition and development process of BIM concept The construction industry needs BIM? Why use BIM? What is BIM?, How does BIM change the construction industry?, Basic features of BIM technology Overview of BIM-based software, basic concepts related to BIM, ND BIM, conflict control, interoperability, virtual reality, energy simulations,"Rhino Grasshopper: Slider and point oriented application, Point creation methods-1 Revit: Introduction to Autodesk Revit interface and introduction of the program, Parametric modeling concept, "family" concept in Revit, modeling and detailing of architectural building elements 1: Wall, door, window","Rhino Grasshopper: Slider and point oriented application, Point creation methods-1 Revit: Introduction to Autodesk Revit interface and introduction of the program, Parametric modeling concept, "family" concept in Revit, modeling and detailing of architectural building elements 1: Wall, door, window",Rhino Grasshopper: Point creation methods-2, Curve creation methods-1 Revit: Modeling and detailing of architectural building elements 2: Stairs, stair parts, floors, Modeling and detailing of architectural building elements 3: Roofs, ceilings, ramps,Rhino Grasshopper: Point creation methods-2, Curve creation methods-1 Revit: Modeling and detailing of architectural building elements 2: Stairs, stair parts, floors, Modeling and detailing of architectural building elements 3: Roofs, ceilings, ramps,Rhinoceros: Overview Revit: Overview,Rhinoceros: Overview Revit: Overview,Rhino Grasshopper: Surface and solid creation methods-1, Surface and solid creation methods-2 Revit: Section box, sheet creation, shop drawing creation, detail drawing sheets creation, "BIM examples from around the world" group homework presentations,Rhino Grasshopper: Surface and solid creation methods-1, Surface and solid creation methods-2 Revit: Section box, sheet creation, shop drawing creation, detail drawing sheets creation, "BIM examples from around the world" group homework presentations,Rhino Grasshopper: Surface and solid creation methods-3, Creating Fractal geometries Revit: "BIM examples from around the world" group homework presentations, selection and assignment of materials to building elements, use of 2D, 3D cameras,Rhino Grasshopper: Surface and solid creation methods-3, Creating Fractal geometries Revit: "BIM examples from around the world" group homework presentations, selection and assignment of materials to building elements, use of 2D, 3D cameras,Rhino Grasshopper: Various applications with Kangaroo-1, Various applications with Kangaroo-2, Interactive modeling with Firefly Revit: Term project evaluation 1, parametric and unique modeling technique using "Revit family", Term project evaluation 1,Rhino Grasshopper: Various applications with Kangaroo-1, Various applications with Kangaroo-2, Interactive modeling with Firefly Revit: Term project evaluation 1, parametric and unique modeling technique using "Revit family", Term project evaluation 1. |
| Dersin Öğrenme Kazanımları | Teaching Methods | Assessment Methods |
| 1. Uses design methods in a digital environment | 16, 37, 8, 9 | A, E, F |
| 2. Gains digital representation skills in design | 16, 37, 8, 9 | A, E, F |
| 3. Simulates the predicted behavior of various design systems | 16, 37, 8, 9 | A, E, F |
| 4. Uses digital technologies in production | 16, 37, 8, 9 | A, E, F |
| Teaching Methods: | 16: Question - Answer Technique, 37: Computer-Internet Supported Instruction, 8: Flipped Classroom Learning, 9: Lecture Method |
| Assessment Methods: | A: Traditional Written Exam, E: Homework, F: Project Task |
Course Outline
| Order | Subjects | Preliminary Work |
|---|---|---|
| 1 | Rhino Grasshopper: Parameter concept, Grasshopper interface introduction, introduction to point and line components, Introduction to components, Applied Revolve surface explanation Revit: The emergence, definition and development process of BIM concept The construction industry needs BIM? Why use BIM? What is BIM?, How does BIM change the construction industry?, Basic features of BIM technology Overview of BIM-based software, basic concepts related to BIM, ND BIM, conflict control, interoperability, virtual reality, energy simulations | |
| 2 | Rhino Grasshopper: Parameter concept, Grasshopper interface introduction, introduction to point and line components, Introduction to components, Applied Revolve surface explanation Revit: The emergence, definition and development process of BIM concept The construction industry needs BIM? Why use BIM? What is BIM?, How does BIM change the construction industry?, Basic features of BIM technology Overview of BIM-based software, basic concepts related to BIM, ND BIM, conflict control, interoperability, virtual reality, energy simulations | |
| 3 | "Rhino Grasshopper: Slider and point oriented application, Point creation methods-1 Revit: Introduction to Autodesk Revit interface and introduction of the program, Parametric modeling concept, "family" concept in Revit, modeling and detailing of architectural building elements 1: Wall, door, window" | |
| 4 | "Rhino Grasshopper: Slider and point oriented application, Point creation methods-1 Revit: Introduction to Autodesk Revit interface and introduction of the program, Parametric modeling concept, "family" concept in Revit, modeling and detailing of architectural building elements 1: Wall, door, window" | |
| 5 | Rhino Grasshopper: Point creation methods-2, Curve creation methods-1 Revit: Modeling and detailing of architectural building elements 2: Stairs, stair parts, floors, Modeling and detailing of architectural building elements 3: Roofs, ceilings, ramps | |
| 6 | Rhino Grasshopper: Point creation methods-2, Curve creation methods-1 Revit: Modeling and detailing of architectural building elements 2: Stairs, stair parts, floors, Modeling and detailing of architectural building elements 3: Roofs, ceilings, ramps | |
| 7 | Rhinoceros: Overview Revit: Overview | |
| 8 | Rhinoceros: Overview Revit: Overview | |
| 9 | Rhino Grasshopper: Surface and solid creation methods-1, Surface and solid creation methods-2 Revit: Section box, sheet creation, shop drawing creation, detail drawing sheets creation, "BIM examples from around the world" group homework presentations | |
| 10 | Rhino Grasshopper: Surface and solid creation methods-1, Surface and solid creation methods-2 Revit: Section box, sheet creation, shop drawing creation, detail drawing sheets creation, "BIM examples from around the world" group homework presentations | |
| 11 | Rhino Grasshopper: Surface and solid creation methods-3, Creating Fractal geometries Revit: "BIM examples from around the world" group homework presentations, selection and assignment of materials to building elements, use of 2D, 3D cameras | |
| 12 | Rhino Grasshopper: Surface and solid creation methods-3, Creating Fractal geometries Revit: "BIM examples from around the world" group homework presentations, selection and assignment of materials to building elements, use of 2D, 3D cameras | |
| 13 | Rhino Grasshopper: Various applications with Kangaroo-1, Various applications with Kangaroo-2, Interactive modeling with Firefly Revit: Term project evaluation 1, parametric and unique modeling technique using "Revit family", Term project evaluation 1 | |
| 14 | Rhino Grasshopper: Various applications with Kangaroo-1, Various applications with Kangaroo-2, Interactive modeling with Firefly Revit: Term project evaluation 1, parametric and unique modeling technique using "Revit family", Term project evaluation 1 |
| Resources |
| Türkmenoğlu Berkan, Saliha; Rhinoceros 4 ile Modelleme. BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors, Chuck Eastman, Paul Teicholz, Rafael Sacks, Kathleen Liston (2011-second edition) The Impact of Building Information Modelling, Ray Crotty (2011) BIM Project execution planning, John Messner (2008) Mastering Revit Revit Suite McGraw-Hill, 2008. Building Information Modelling (BIM). Transforming Design and Construction to Achieve Greater Industry Productivity. McGraw-Hill, 2009. The Business Value Of BIM. Getting Building InformationModeling to the Bottom Line. BIM Content Development: Standards, Strategies, and Best Practices, Robert S. Weygant (2011) https://redshift.autodesk.com/ https://academy.autodesk.com/curriculum http://bimnewworld.blogspot.com.tr/ http://www.bimjournal.com/ http://www.asce.org/ http://www.riba.co.uk/ • http://www.buildingsmart.org |
Course Contribution to Program Qualifications
| Course Contribution to Program Qualifications | |||||||
| No | Program Qualification | Contribution Level | |||||
| 1 | 2 | 3 | 4 | 5 | |||
| 1 | For urban design / landscape design and planning activities and research, able to comprehend and analyze multidimensional forms of knowledge, including theoretical and professional knowledge in a national and global context, and develop new ideas with a holistic and interdisciplinary approach to various urban design problems. | ||||||
| 2 | In urban design, landscape planning, design and management processes, through recognizing materials and technologies aimed at preserving the balance of human-culture-natural and built environment; have the knowledge based on sustainability of environmental systems. | ||||||
| 3 | Able to find ideas by presenting expert knowledge of ethical values, project management, legal rights and responsibilities and regulations in related field. | ||||||
| 4 | Acquires information about the natural, cultural and historical development processes of cities and landscapes and establishes connections between this information with a professional approach. | ||||||
| 5 | Have ability to make connections between the field of urban design/ landscape architecture and sustainable development principles, and has the necessary knowledge and understanding on current global issues such as climate crisis, urban/disaster resilience. | ||||||
| 6 | Has the ability to identify and analyze problems in the fields of city, landscape, design and planning, synthesize them with appropriate methods and techniques, and develop multiple alternative design solutions. | ||||||
| 7 | Has the ability to synthesize information from all other disciplines related to the field of city, landscape, architecture and planning, to work interactively with all related fields, to establish interdisciplinary work teams and to manage these teams. | ||||||
| 8 | In producing sustainable solutions to events, facts, situations and problems in the field of urban design and landscape architecture; Can carry out project and implementation processes in planning, design, conservation and management studies that take into account ecological systems and are based on preserving the balance of human-culture-nature and built environment. | ||||||
| 9 | Has the ability to take individual and joint responsibilities in multidisciplinary, interdisciplinary and transdisciplinary studies covering the field of urban design and landscape architecture. | ||||||
| 10 | Ability to create innovative ideas and scenarios and develop concepts by using theoretical knowledge and visual communication technologies related to the field in multidisciplinary studies; to design and visualize application projects with his knowledge of materials, structure and construction technology. | X | |||||
| 11 | Have the ability of dialectical understanding to the several knowledge types related to city, landscape, nature and design, and a conduct research to update the knowledge, and plans learning processes. | X | |||||
| 12 | Enriches the knowledge and equipment by adding current knowledge and technologies related to the field and all forms of knowledge based on human-space interaction to his own knowledge with the awareness of lifelong learning. | X | |||||
| 13 | Has the ability to express his/her research, ideas and projects in the field of urban design and landscape architecture with all kinds of written, visual, digital, analogue media and communication tools required by the profession ;has the ability to use technical drawing standards and software tools to visualize urban landscape design projects and relate them to each other within a project as a whole. | X | |||||
| 14 | By using English effectively at the European Language Portfolio B1 General Level, follows the developments in the field and communicates effectively with the colleagues. | ||||||
| 15 | With the awareness of the public aspect of urban space and landscape, organizes and implements socially inclusive projects, collaborations and events. | ||||||
| 16 | Has the skills and awareness to collect, evaluate and interpret the necessary data at the level of professional expertise in order to contribute to urban design / urban development and renewal / definition, protection and design of landscapes to increase the quality of life of the society and public benefit. | ||||||
| 17 | Being aware that the actions of the landscape architect are beneficial in terms of human rights and society and that they produce social services, knowledge, sensitivity and awareness about social justice, quality culture, protection of natural and cultural values, environmental protection, occupational health and safety, legal frameworks and ethical principles specific to providing professional services. It has equipment. | ||||||
| 18 | Has the necessary knowledge and awareness about the pressures, problems and current trends on cities, rural areas, landscapes and nature at national and international levels. | ||||||
Assessment Methods
| Contribution Level | Absolute Evaluation | |
| Rate of Midterm Exam to Success | 50 | |
| Rate of Final Exam to Success | 50 | |
| Total | 100 | |
| ECTS / Workload Table | ||||||
| Activities | Number of | Duration(Hour) | Total Workload(Hour) | |||
| Course Hours | 14 | 4 | 56 | |||
| Guided Problem Solving | 14 | 1 | 14 | |||
| Resolution of Homework Problems and Submission as a Report | 14 | 1 | 14 | |||
| Term Project | 1 | 10 | 10 | |||
| Presentation of Project / Seminar | 0 | 0 | 0 | |||
| Quiz | 0 | 0 | 0 | |||
| Midterm Exam | 1 | 7 | 7 | |||
| General Exam | 1 | 14 | 14 | |||
| Performance Task, Maintenance Plan | 0 | 0 | 0 | |||
| Total Workload(Hour) | 115 | |||||
| Dersin AKTS Kredisi = Toplam İş Yükü (Saat)/30*=(115/30) | 4 | |||||
| ECTS of the course: 30 hours of work is counted as 1 ECTS credit. | ||||||
Detail Informations of the Course
Course Description
| Course | Code | Semester | T+P (Hour) | Credit | ECTS |
|---|---|---|---|---|---|
| IT BASED DESIGN and MANAGEMENT II | KTP2215123 | Spring Semester | 2+2 | 3 | 4 |
| Course Program | Çarşamba 13:30-14:15 Çarşamba 14:30-15:15 Çarşamba 15:30-16:15 Çarşamba 16:30-17:15 Cumartesi 13:30-14:15 Cumartesi 14:30-15:15 Cumartesi 15:30-16:15 Cumartesi 16:30-17:15 |
| Prerequisites Courses | |
| Recommended Elective Courses |
| Language of Course | Turkish |
| Course Level | First Cycle (Bachelor's Degree) |
| Course Type | Required |
| Course Coordinator | Assist.Prof. Ahmet TUZ |
| Name of Lecturer(s) | Assist.Prof. Ahmet TUZ, Lect. Diler ÇİFTÇİ |
| Assistant(s) | |
| Aim | It is aimed to provide the theoretical and practical knowledge required to realize design, project planning and construction management issues in a digital environment. |
| Course Content | This course contains; Rhino Grasshopper: Parameter concept, Grasshopper interface introduction, introduction to point and line components, Introduction to components, Applied Revolve surface explanation Revit: The emergence, definition and development process of BIM concept The construction industry needs BIM? Why use BIM? What is BIM?, How does BIM change the construction industry?, Basic features of BIM technology Overview of BIM-based software, basic concepts related to BIM, ND BIM, conflict control, interoperability, virtual reality, energy simulations,Rhino Grasshopper: Parameter concept, Grasshopper interface introduction, introduction to point and line components, Introduction to components, Applied Revolve surface explanation Revit: The emergence, definition and development process of BIM concept The construction industry needs BIM? Why use BIM? What is BIM?, How does BIM change the construction industry?, Basic features of BIM technology Overview of BIM-based software, basic concepts related to BIM, ND BIM, conflict control, interoperability, virtual reality, energy simulations,"Rhino Grasshopper: Slider and point oriented application, Point creation methods-1 Revit: Introduction to Autodesk Revit interface and introduction of the program, Parametric modeling concept, "family" concept in Revit, modeling and detailing of architectural building elements 1: Wall, door, window","Rhino Grasshopper: Slider and point oriented application, Point creation methods-1 Revit: Introduction to Autodesk Revit interface and introduction of the program, Parametric modeling concept, "family" concept in Revit, modeling and detailing of architectural building elements 1: Wall, door, window",Rhino Grasshopper: Point creation methods-2, Curve creation methods-1 Revit: Modeling and detailing of architectural building elements 2: Stairs, stair parts, floors, Modeling and detailing of architectural building elements 3: Roofs, ceilings, ramps,Rhino Grasshopper: Point creation methods-2, Curve creation methods-1 Revit: Modeling and detailing of architectural building elements 2: Stairs, stair parts, floors, Modeling and detailing of architectural building elements 3: Roofs, ceilings, ramps,Rhinoceros: Overview Revit: Overview,Rhinoceros: Overview Revit: Overview,Rhino Grasshopper: Surface and solid creation methods-1, Surface and solid creation methods-2 Revit: Section box, sheet creation, shop drawing creation, detail drawing sheets creation, "BIM examples from around the world" group homework presentations,Rhino Grasshopper: Surface and solid creation methods-1, Surface and solid creation methods-2 Revit: Section box, sheet creation, shop drawing creation, detail drawing sheets creation, "BIM examples from around the world" group homework presentations,Rhino Grasshopper: Surface and solid creation methods-3, Creating Fractal geometries Revit: "BIM examples from around the world" group homework presentations, selection and assignment of materials to building elements, use of 2D, 3D cameras,Rhino Grasshopper: Surface and solid creation methods-3, Creating Fractal geometries Revit: "BIM examples from around the world" group homework presentations, selection and assignment of materials to building elements, use of 2D, 3D cameras,Rhino Grasshopper: Various applications with Kangaroo-1, Various applications with Kangaroo-2, Interactive modeling with Firefly Revit: Term project evaluation 1, parametric and unique modeling technique using "Revit family", Term project evaluation 1,Rhino Grasshopper: Various applications with Kangaroo-1, Various applications with Kangaroo-2, Interactive modeling with Firefly Revit: Term project evaluation 1, parametric and unique modeling technique using "Revit family", Term project evaluation 1. |
| Dersin Öğrenme Kazanımları | Teaching Methods | Assessment Methods |
| 1. Uses design methods in a digital environment | 16, 37, 8, 9 | A, E, F |
| 2. Gains digital representation skills in design | 16, 37, 8, 9 | A, E, F |
| 3. Simulates the predicted behavior of various design systems | 16, 37, 8, 9 | A, E, F |
| 4. Uses digital technologies in production | 16, 37, 8, 9 | A, E, F |
| Teaching Methods: | 16: Question - Answer Technique, 37: Computer-Internet Supported Instruction, 8: Flipped Classroom Learning, 9: Lecture Method |
| Assessment Methods: | A: Traditional Written Exam, E: Homework, F: Project Task |
Course Outline
| Order | Subjects | Preliminary Work |
|---|---|---|
| 1 | Rhino Grasshopper: Parameter concept, Grasshopper interface introduction, introduction to point and line components, Introduction to components, Applied Revolve surface explanation Revit: The emergence, definition and development process of BIM concept The construction industry needs BIM? Why use BIM? What is BIM?, How does BIM change the construction industry?, Basic features of BIM technology Overview of BIM-based software, basic concepts related to BIM, ND BIM, conflict control, interoperability, virtual reality, energy simulations | |
| 2 | Rhino Grasshopper: Parameter concept, Grasshopper interface introduction, introduction to point and line components, Introduction to components, Applied Revolve surface explanation Revit: The emergence, definition and development process of BIM concept The construction industry needs BIM? Why use BIM? What is BIM?, How does BIM change the construction industry?, Basic features of BIM technology Overview of BIM-based software, basic concepts related to BIM, ND BIM, conflict control, interoperability, virtual reality, energy simulations | |
| 3 | "Rhino Grasshopper: Slider and point oriented application, Point creation methods-1 Revit: Introduction to Autodesk Revit interface and introduction of the program, Parametric modeling concept, "family" concept in Revit, modeling and detailing of architectural building elements 1: Wall, door, window" | |
| 4 | "Rhino Grasshopper: Slider and point oriented application, Point creation methods-1 Revit: Introduction to Autodesk Revit interface and introduction of the program, Parametric modeling concept, "family" concept in Revit, modeling and detailing of architectural building elements 1: Wall, door, window" | |
| 5 | Rhino Grasshopper: Point creation methods-2, Curve creation methods-1 Revit: Modeling and detailing of architectural building elements 2: Stairs, stair parts, floors, Modeling and detailing of architectural building elements 3: Roofs, ceilings, ramps | |
| 6 | Rhino Grasshopper: Point creation methods-2, Curve creation methods-1 Revit: Modeling and detailing of architectural building elements 2: Stairs, stair parts, floors, Modeling and detailing of architectural building elements 3: Roofs, ceilings, ramps | |
| 7 | Rhinoceros: Overview Revit: Overview | |
| 8 | Rhinoceros: Overview Revit: Overview | |
| 9 | Rhino Grasshopper: Surface and solid creation methods-1, Surface and solid creation methods-2 Revit: Section box, sheet creation, shop drawing creation, detail drawing sheets creation, "BIM examples from around the world" group homework presentations | |
| 10 | Rhino Grasshopper: Surface and solid creation methods-1, Surface and solid creation methods-2 Revit: Section box, sheet creation, shop drawing creation, detail drawing sheets creation, "BIM examples from around the world" group homework presentations | |
| 11 | Rhino Grasshopper: Surface and solid creation methods-3, Creating Fractal geometries Revit: "BIM examples from around the world" group homework presentations, selection and assignment of materials to building elements, use of 2D, 3D cameras | |
| 12 | Rhino Grasshopper: Surface and solid creation methods-3, Creating Fractal geometries Revit: "BIM examples from around the world" group homework presentations, selection and assignment of materials to building elements, use of 2D, 3D cameras | |
| 13 | Rhino Grasshopper: Various applications with Kangaroo-1, Various applications with Kangaroo-2, Interactive modeling with Firefly Revit: Term project evaluation 1, parametric and unique modeling technique using "Revit family", Term project evaluation 1 | |
| 14 | Rhino Grasshopper: Various applications with Kangaroo-1, Various applications with Kangaroo-2, Interactive modeling with Firefly Revit: Term project evaluation 1, parametric and unique modeling technique using "Revit family", Term project evaluation 1 |
| Resources |
| Türkmenoğlu Berkan, Saliha; Rhinoceros 4 ile Modelleme. BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors, Chuck Eastman, Paul Teicholz, Rafael Sacks, Kathleen Liston (2011-second edition) The Impact of Building Information Modelling, Ray Crotty (2011) BIM Project execution planning, John Messner (2008) Mastering Revit Revit Suite McGraw-Hill, 2008. Building Information Modelling (BIM). Transforming Design and Construction to Achieve Greater Industry Productivity. McGraw-Hill, 2009. The Business Value Of BIM. Getting Building InformationModeling to the Bottom Line. BIM Content Development: Standards, Strategies, and Best Practices, Robert S. Weygant (2011) https://redshift.autodesk.com/ https://academy.autodesk.com/curriculum http://bimnewworld.blogspot.com.tr/ http://www.bimjournal.com/ http://www.asce.org/ http://www.riba.co.uk/ • http://www.buildingsmart.org |
Course Contribution to Program Qualifications
| Course Contribution to Program Qualifications | |||||||
| No | Program Qualification | Contribution Level | |||||
| 1 | 2 | 3 | 4 | 5 | |||
| 1 | For urban design / landscape design and planning activities and research, able to comprehend and analyze multidimensional forms of knowledge, including theoretical and professional knowledge in a national and global context, and develop new ideas with a holistic and interdisciplinary approach to various urban design problems. | ||||||
| 2 | In urban design, landscape planning, design and management processes, through recognizing materials and technologies aimed at preserving the balance of human-culture-natural and built environment; have the knowledge based on sustainability of environmental systems. | ||||||
| 3 | Able to find ideas by presenting expert knowledge of ethical values, project management, legal rights and responsibilities and regulations in related field. | ||||||
| 4 | Acquires information about the natural, cultural and historical development processes of cities and landscapes and establishes connections between this information with a professional approach. | ||||||
| 5 | Have ability to make connections between the field of urban design/ landscape architecture and sustainable development principles, and has the necessary knowledge and understanding on current global issues such as climate crisis, urban/disaster resilience. | ||||||
| 6 | Has the ability to identify and analyze problems in the fields of city, landscape, design and planning, synthesize them with appropriate methods and techniques, and develop multiple alternative design solutions. | ||||||
| 7 | Has the ability to synthesize information from all other disciplines related to the field of city, landscape, architecture and planning, to work interactively with all related fields, to establish interdisciplinary work teams and to manage these teams. | ||||||
| 8 | In producing sustainable solutions to events, facts, situations and problems in the field of urban design and landscape architecture; Can carry out project and implementation processes in planning, design, conservation and management studies that take into account ecological systems and are based on preserving the balance of human-culture-nature and built environment. | ||||||
| 9 | Has the ability to take individual and joint responsibilities in multidisciplinary, interdisciplinary and transdisciplinary studies covering the field of urban design and landscape architecture. | ||||||
| 10 | Ability to create innovative ideas and scenarios and develop concepts by using theoretical knowledge and visual communication technologies related to the field in multidisciplinary studies; to design and visualize application projects with his knowledge of materials, structure and construction technology. | X | |||||
| 11 | Have the ability of dialectical understanding to the several knowledge types related to city, landscape, nature and design, and a conduct research to update the knowledge, and plans learning processes. | X | |||||
| 12 | Enriches the knowledge and equipment by adding current knowledge and technologies related to the field and all forms of knowledge based on human-space interaction to his own knowledge with the awareness of lifelong learning. | X | |||||
| 13 | Has the ability to express his/her research, ideas and projects in the field of urban design and landscape architecture with all kinds of written, visual, digital, analogue media and communication tools required by the profession ;has the ability to use technical drawing standards and software tools to visualize urban landscape design projects and relate them to each other within a project as a whole. | X | |||||
| 14 | By using English effectively at the European Language Portfolio B1 General Level, follows the developments in the field and communicates effectively with the colleagues. | ||||||
| 15 | With the awareness of the public aspect of urban space and landscape, organizes and implements socially inclusive projects, collaborations and events. | ||||||
| 16 | Has the skills and awareness to collect, evaluate and interpret the necessary data at the level of professional expertise in order to contribute to urban design / urban development and renewal / definition, protection and design of landscapes to increase the quality of life of the society and public benefit. | ||||||
| 17 | Being aware that the actions of the landscape architect are beneficial in terms of human rights and society and that they produce social services, knowledge, sensitivity and awareness about social justice, quality culture, protection of natural and cultural values, environmental protection, occupational health and safety, legal frameworks and ethical principles specific to providing professional services. It has equipment. | ||||||
| 18 | Has the necessary knowledge and awareness about the pressures, problems and current trends on cities, rural areas, landscapes and nature at national and international levels. | ||||||
Assessment Methods
| Contribution Level | Absolute Evaluation | |
| Rate of Midterm Exam to Success | 50 | |
| Rate of Final Exam to Success | 50 | |
| Total | 100 | |