| Science and Technology Start-up | |
|---|---|
| Title | Description |
| Understanding of Intellectual Property Rights | ▪ This course covers the characteristics, components, and concepts of technology, the process of technology planning, and the importance of securing intellectual property rights (IP). Students will learn about the critical issues step-by-step by creating technology planning documents. |
| Strategic Management | ▪ This course covers the fundamental concepts and tools of strategic management, covering corporate-wide strategic planning, business strategy, and external relationships. It equips companies facing diverse internal and external environments with the skills to formulate and execute practical management strategies. |
| Start-up and Entrepreneurship | ▪ This course aims to provide a foundational understanding of entrepreneurial spirit and explore the concept through real-world examples. ▪ This course focuses on establishing a vision and mission, building effective teamwork and interpersonal relationships, and mastering techniques for fostering innovation and creativity. It emphasizes internalizing fundamental leadership principles by examining successful and unsuccessful case studies. |
| Start-up Financial Accounting | ▪ This course is designed to help grasp the core concepts and procedures related to finance and accounting terminology. ▪ Using financial statements and income statements of start-up companies, you can analyze the company’s financial health, including its liquidity, stability, profitability, and activity. |
| Theory and Practice of Technology Transfer Contracts | ▪ This course equips you with fundamental legal knowledge concerning basic terms and theories related to technology transfer agreements. |
| Startup and Corporations Legal Affairs | ▪ This course focuses on practical legal knowledge essential for aspiring entrepreneurs and working professionals in startup. Learn through real-world examples. |
| Exploring Needs and commercialization of Science and Technology | ▪ This class encourages students to identify unique aspects of everyday objects and situations. By recognizing user inconveniences and proposing solutions, students initiate an entrepreneurial mindset. ▪ Understand the Four-Step Need-Finding Process, which includes Observation, Empathy, Ideation, and Implementation, and delve into Design Thinking Methodology. Foster creative problem-solving by iterating between divergent and convergent thinking to shift perspectives and acquire this mindset. |
| Business Models for commercialization of Science and Technology | ▪ Based on understanding the factors and techniques for structuring business models, you will craft a business canvas for your entrepreneurial concept, acquiring relevant knowledge and application skills. ▪ Gain a deep understanding and hands-on experience in the specific elements of a business model. This practical course focuses on concretizing your business model. |
| Marketing for Science and Technology start-up | ▪ Gain the skills to transform start-up ideas into reality and introduce them to the market, covering the entire process and more. ▪ Learn how to identify your target market, conduct customer research, establish a business model and pricing strategy, and explore customer acquisition methods and sales processes. |
| Case Studies in Science and Technology start-up | ▪ Gain a comprehensive grasp of Smart Business founded on digital transformation and delve into the concepts of MVP development. ▪ This course involves hands-on practice in generating start-up ideas using smart technology. |
| Practical Exercises on Science and Technology start-up Ideas | ▪ Explore the keys to success for tech start-ups through an in-depth analysis of science and technology–based entrepreneurial cases in the Fourth Industrial Revolution and digital transformation. ▪ Enhance your knowledge of strategies for boosting technology start-ups’ success rate by acquiring venture start-up expertise. |
| Theory of Venture and Entrepreneurship | ▪ This practical course focuses on identifying local issues for expanding social ventures to realize societal values. It involves the development of entrepreneurial ideas and items based on these issues to enhance social value. ▪ Understand the characteristics of businesses dedicated to enhancing social value, such as social enterprises, social ventures, and local creators. Based on this comprehension, formulate strategies to activate technology-based social ventures. |
| Science and Technology Commercialization | |
|---|---|
| Title | Description |
| Technology and Finance | ▪ Gain a solid understanding of financial fundamentals and the principles of capital markets, equipping yourself with the practical knowledge needed for entrepreneurial funding. Learn about investment, loans, contributions, guarantees, and complex financial activities essential throughout tech development and commercialization stages. ▪ This course covers various forms of capital acquisition, including policy finance, venture capital, angel investments, and crowdfunding. ▪ Gain an understanding of business evaluation and investment practices, as well as the analysis of domestic and international cases in the field of technology finance. With this knowledge as a foundation, you will be equipped to apply practical financial acquisition strategies in technology commercialization. |
| Understanding Advanced Science Technology | ▪ This course comprehensively analyzes the latest developments in advanced science and technology. It focuses on an in-depth examination of recent major research achievements. |
| Project Management Strategies | ▪ Explore global corporations that drive research and development based on cutting-edge science and technology. Learn the essential principles for systematically organizing and managing research and development in science and technology. |
| Operations of Technology commercialization | ▪ Learn about essential theories related to the commercialization of technology with a specialized faculty comprising local community experts. This course focuses on the fundamentals of the commercialization of technology, finance, intellectual property rights, distribution, and marketing. |
| Case Studies in commercialization of Advanced Scientific Technology | ▪ Delve into the commercialization of cutting-edge industrial technology that will drive the future. Through this course, you will investigate concrete measures for commercialization. ▪ Sharing examples from diverse fields of cutting-edge science and technology can stimulate technological advancements in corporate research institutions and offer insights into the direction of commercialization. |
| Case Studies in commercialization of Mechanical Materials and Components | ▪ The field of advanced mechanical materials delves into the convergence of advanced materials engineering and polymer engineering, focusing on commercialization |
| Case Studies in commercialization of Nano Technology Convergence | ▪ The field of nano technology convergence for technology commercialization extensively explores the fundamental theories of technology transfer and step-by-step commercialization for technologies developed in universities, research institutions, and local communities. ▪ Learn how to connect research and development outcomes to commercialization by studying practical technology commercialization techniques. Gain insights by exploring the principles, processes, and real-world examples of assessing the value of corporate technologies. |
| Case Studies in commercialization of Biomedical Technology | ▪ The field of Biomedical Technology Commercialization aims to nurture highly skilled professionals capable of practical problem-solving throughout the entire process of technology trends, business environment, market dynamics, and management. |
| Case Studies in commercialization of Renewable Energy | ▪ Hydrogen and renewable energy as solutions to climate change (global warming) is a worldwide trend in environmentally friendly energy. This course provides a comprehensive overview of hydrogen and renewable energy and covers the latest technological advancements. |
| Methodology for Technology commercialization Research | ▪ This course delves into the theories of statistical analysis. Use this knowledge to analyze actual data, interpret the results, and develop skills to draw policy implications based on your analysis. ▪ This class covers the fundamental statistics required for data analysis. |
| Strategies for Attracting Investment in commercialization of Science and Technology | ▪ Learn how to craft investment proposals from an investor’s perspective to enhance fundraising. This curriculum covers capital acquisition education, including investor relations (IR) pitching training and hands-on funding application. |
| Science and Technology Policy | |
|---|---|
| Title | Description |
| Research and Development of Scientific Technology | ▪ Through this subject, students learn the knowledge system of the principles, methods, strategies, and processes of research and development related to science and technology. |
| History and Society of Science and Technology | ▪ Shedding light on one of the vital paradigms that have shaped modern society—science—this course also delves into the role of science and technology in today’s world. ▪ This course delves into the role of science and technology in various fields, including culture, culinary arts, housing, health care, and communication. In addition, it explores the scientific mindset driving cutting-edge technologies. |
| Science and Technology Innovation Theory | ▪ Acquire fundamental knowledge for scientific and technological innovation research and learn the critical approaches to conducting such research. ▪ This course explores various perspectives and current trends essential for science and technology innovation research. |
| Planning and evaluation for Science Technology Policy | ▪ This course provides an overview of the national research and development (R&D) project planning and selection evaluation system. We will examine critical issues and challenges associated with each system, offering effective improvement strategies. |
| Science and Technology Administrative Systems | ▪ Science and technology policies are planned, executed, and evaluated through networks of various administrative systems. ▪ This subject explores the support and decision-making functions within the science and technology administrative system from an organizational perspective. ▪ Explore the evolution of South Korea’s science and technology administrative system to understand the historical context of science and technology policies and ponder future development paths. |
| Science and Technology Communication | ▪ This class covers the fundamental concepts and key theories of science communication. ▪ Rapid advancements in information technology have reshaped science and technology knowledge. We examine the process of its formation, as well as how it is shared and communicated with the public. ▪ This course explores the public understanding of science through interactive engagement, emphasizing proactivity over one-way knowledge communication. |
| Special Topics in Policies for Various Fields of Science and Technology | ▪ Comprehend diverse policy innovations, orientations, and associated meanings in science and technology. ▪ Gain a comprehensive understanding of theoretical knowledge encompassing research and development projects in various fields of science and technology, including their progress, achievements, and trends. |
| Case Studies in Science and Technology Innovation | ▪ Gain practical knowledge and hands-on experience in science and technology policy through case studies. Learn the latest insights and expertise from experts in science and technology policy development and implementation. ▪ Through examining national policies related to science and technology, this course explores the issues and critical points. Furthermore, it delves into the direction and strategies for formulating future medium-to-long-term national policies. |
| Regional Innovation Theory | ▪ Understand the origins and components of regional innovation systems. Based on this understanding, you will learn about the significance of regional innovation systems and their theoretical foundations. ▪ This course delves into cases of regional innovation systems in Korea and worldwide, providing an analysis of strategies for building future regional innovation systems. |