KI for Design of Complex Systems Strategy for the KIDCS Study Group -The focus of fall semester 2007 1.Learn Design Thinking (DT)first! ■ Design thinking sets the right foundation for everything at KIDCS 2.Study DT-based design theories and methodologies KIDCS must understand scientific approaches to systems design 3.Develop DT-based new science-based design systems These design systems will be specially suited for system designs 4.Use DT-based design systems to do new systems design ■ KIDCS pursues systems design in areas,such as bio-engineering systems,new energy systems,material/structural systems,modular machinery systems,nano-mems systems,etc. 5.Assess the resulting complexity of new engineered systems The complexity of engineered systems should be carefully evaluated with real-world industrial applications to continuously improve the science-based design systems (see 3)and systems design (see 4). Fall 2007 C Stephen Lu KAIST Study Design Thinking to Make Design of Complex Systems SimpleStrategy for the KIDCS Study Group Strategy for the KIDCS Study Group 1. Learn Design Thinking (DT) first! The focus of fall semester 2007 „ Design thinking sets the right foundation for everything at KIDCS 2. Study DT-based design theories and methodologies „ KIDCS must understand scientific approaches to systems design KIDCS must understand scientific approaches to systems design 3. Develop DT-based new science-based design systems „ These design systems will be specially suited for system designs 4. Use DT-based design systems to do new systems design „ KIDCS pursues systems design in areas, such as bio-engineering systems, new ener gy systems, material/structural systems, modular machinery systems, nano-mems systems, etc. 5. Assess the resulting complexity of new engineered systems „ The complexity of engineered systems should be carefully evaluated Fall 2007 © Stephen Lu @ KAIST [ Study Design Thinking to Make Design of Complex Systems Simple ] 9 The complexity of engineered systems should be carefully evaluated with real-world industrial applications to continuously improve the science-based design systems (see 3) and systems design (see 4)