For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| RES5033 | Sustainability Performance Assessment | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| The objective performance assessment of sustainable/low-carbon/green buildings is important. The class introduces the performance assessment theories and principles. Analyses of present approaches (LEED, Energy Star, ASHRAE-IESNA) are presented. Tools and case studies of building/facilities energy performance, sustainability, low-carbon buildings are presented. | |||||||||
| RES5034 | Seminar on BIM | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| Various issues for the Next New Normal era are covered with focus on topics related to BIM(Building Information Modeling) and Smart Construction. Expert invitation seminars as well as students presentation and discussions are the main stream of this class. | |||||||||
| RES5035 | BIM Applications | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| The objective of this class is to understand and practice various BIM uses throughout the project life-cycle. Students learn and practice BIM data construction and application followed by smart technology incorporation methods during the design and construction phases. In addition, research topics on BIM are extracted and discussed through the class. | |||||||||
| RES5036 | BIM-based Construction Planning and Control | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| This class teaches methods to build a construction plan and 4D simulation for Smart City, facilities, or buildings using BIM(Building Information Model). Through hands-on experience on BIM tools of 4D CAD as well as building construction plans, students are going to have a basic knowledge for construction plans required for smart city or facility construction. Students in this class should have basic knowledge for BIM authoring tools, such as ArchiCAD or Revit. | |||||||||
| RES5038 | Smart Transportation | 3 | 6 | Major | Master/Doctor | Global Smart City | Korean | Yes | |
| The smart city uses digital technology or information technology(ICT) to reduce resource consumption and cost, to enhance quality of urban service. Students learn smart transportation with the purpose to reduce road congestion and improve safety is composed of element technology of smart city. This class introduce new technology for smart transportation such as Intelligent Transport Systems, Big data, Electric Vehicle, Driveless car and Complexity theory etc. and lecture basic principle and theory of smart transportation to make more advanced services. Students can understand smart transportation and acquire current research trend and future works of it after finishing this course. | |||||||||
| RES5039 | Smart and Resilient City | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| In the framework of this multidisciplinary course students will get familiar with the concepts of urban sustainability, resilience and livability. Theoretical knowledge will be achieved and applied in the analysis of given urban areas in Korea regarding sustainability, resilience and livability criteria. The analysis includes built-up areas, landscapes and infrastructure systems. Students will determine measures and design plans for sustainable, resilient and livable urban redevelopments based on strength, weaknesses, opportunities and threads of the specific analyzed urban areas. The student’s multidisciplinary urban redevelopment concepts will be assigned to feasible redevelopment periods and designated lifetimes. The course consists of multidisciplinary lectures, individual research and analysis, multidisciplinary group workshops, and the individual academic writing of a summary report. This course includes theoretical studies and the integration of the DGNB (German Association for Sustainable Building) basic knowledge on Sustainable Planning and Building, and trainings for the degree DGNB Registered Professional. | |||||||||
| RES5040 | Smart and Sustainable Campus Research | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| Students will study Sustainable Urban Development principles to meet the UN 2030 Sustainable Development goals by transforming existing urban environments. Course participants will apply the findings in the revision and editing of research and design results that focus on the sustainable and resilient transformation of the SungKyunKwan University (SKKU) Natural Sciences Campus, including its buildings, open spaces, and infrastructures. The editing of the existing materials includes preparing a master plan and the quantitative and qualitative analysis of improvements before and after campus transformation according to specific sustainability aspects and related criteria. Sustainability aspects are associated with topics, architecture, mobility, landscape, green, water, energy, and materials. | |||||||||
| RES5043 | Directed Study for Master Thesis I | 3 | 6 | Major | Master | Global Smart City | Korean | Yes | |
| This is the first in a two-course master's thesis prep series. Students are shown to how to develop an idea through sessions where faculty discuss their own research process (including social factors, historical/archival, design exploration, master planning, theoretical, and scientific fieldwork approaches). Students develop a conceptual framework for their thesis, literature review, and detailed work plan. | |||||||||
| RES5044 | Directed Study for Master Thesis II | 3 | 6 | Major | Master | Global Smart City | Korean | Yes | |
| This is the second course in the doctoral thesis prep series. The course is designed to help students organize and mobilize preparation by setting deadlines and offering technical assistance. Primary activities include a presentation to faculty of thesis progress; preparation of a detailed outline and draft chapters; and tutorials on writing. The final result should be a preliminary thesis or equivalent work with sufficient format. | |||||||||
| RES5045 | Intelligent Building Energy Management | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| This course provides intelligent building energy management technologies using artificial intelligence and data fusion techniques to improve urban building energy efficiency. It is based on the basics of building energy engineering and building operation. | |||||||||
| RES5046 | Environmental Water Chemistry | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| By providing the general theory of chemistry required in the field of environmental science or environmental engineering, it aims to cultivate general academic knowledge required to understand environmental phenomena and environmental systems. | |||||||||
| RES5047 | Biological Wastewater Treatment | 3 | 6 | Major | Master/Doctor | Global Smart City | Korean | Yes | |
| Engineering knowledge for biological water treatment is acquired through basic theories of microbiology and applications such as biological models and water treatment system design regarding water purification or biological treatment of wastewater. | |||||||||
| RES5048 | Satellite Remote Sensing based Water-related Disaster Analysis | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| This class is designed to analyze the impact of water-related disasters on the city. In order to observe and analyze the relationship and impacts between the watershed and the surrounding cities, satellite based remote sensing data are used. To analyze the various cases of water disasters in the past, various observation data of related factors are controled. Furthermore, by analyzing the patterns of disasters caused by climate change, students learn to design safer urban environments. | |||||||||
| RES5049 | Problem Based Learning in Construction | 3 | 6 | Major | Master/Doctor | Global Smart City | - | No | |
| In this course, students will meet research problems individually and learn how to solve the problems by meeting and discussions with professors. During the meeting, students will develop their research issues and present their each time line results. The ares of this course is about Planning, Construction Management, Green of Smartcity. | |||||||||
| RES5053 | Waste-to-Energy | 3 | 6 | Major | Master/Doctor | Global Smart City | Korean | Yes | |
| A tremendous amount of waste (e.g., plastic waste, organic waste) has become a serious global environmental problem. Waste-to-energy is the process of generating energy in the form of electricity and/or heat from the primary treatment of waste, or the processing of waste into a fuel source. This field is widely investigated in many conuntries because it is considered an effective strategy for simultaneously achieving waste treatment and carbon neutrality. To study principles and theories of various processes for transformation of various kinds of waste into energy. | |||||||||