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メディア授業とは,メディアを利用して遠隔方式により実施する授業の授業時数が,総授業時数の半数を超える授業をいいます。
メディア授業により取得した単位は,卒業要件として修得すべき単位のうち60単位を超えないものとされています。
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In the “Advanced Technology Roadmapping” course, students will systematically learn the basics and applications of “technology road mapping,” a method for visualizing and sharing the medium- to the long-term direction and plan for research and development and technological development in organizations and projects. To make it easier to understand, even for those without specialist knowledge of innovation theory or business strategy theory, the practical process of creating a technology roadmap will be learned through theoretical background and practical exercises in a workshop format. In addition, by having researchers from diverse specialist fields such as science, engineering, and agriculture form teams and examine roadmaps from an interdisciplinary perspective, this course will provide an opportunity to gain hints for creating sustainable innovation.
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・Acquire advanced expertise in technology road mapping
Systematically understand the theoretical background, construction methods, and application methods of technology road maps.
Through analysis of previous research and cutting-edge case studies, gain a deep understanding of the relationship between road mapping and technology strategy/R&D management and acquire knowledge that can be applied to your field of expertise.
・Improve future vision and strategy planning skills by utilizing interdisciplinary and comprehensive thinking
Develop the ability to discern medium- to long-term technological directions from a comprehensive perspective by combining knowledge from multiple fields, such as science and technology, business strategy, and social trends.
Acquire the skills to plan scenarios integrating technological trends, customer needs, and industrial ecosystems and envision and propose the future flexibly and creatively, even in a rapidly changing environment.
・Practical skills for formulating technology roadmaps that contribute to meeting social needs and creating innovation
Develop practical skills for formulating technology roadmaps considering the SDGs, regional issues, and industrial solutions.
Acquire methodologies for accelerating innovation creation by prioritizing research and development themes and drawing up a path to commercialization while reflecting the diverse perspectives of related stakeholders (companies, universities, governments, local communities, etc.).
(1) Knowledge and understanding
・Systematically understand the basic concepts of technology roadmaps (purpose, structure, historical background) and major frameworks (T-Plan, 3-tier model, etc.).
・Understand the basic methods of market and social needs analysis and technology analysis (patent analysis, TRL, etc.) and how they can be used in roadmapping.
・Understand the concepts of road mapping operation, updating, and evaluation processes and explain their role in innovation creation and strategy formulation.
(2) Thinking and decision-making perspective
・Can logically conceive of the direction of medium- to long-term technological development and R&D while integrating knowledge from one's expertise and other fields.
・Can make decisions to formulate the optimal roadmap, considering stakeholders' interests and social changes surrounding research themes and technologies.
・Can consider and evaluate roadmaps' feasibility and social significance from various perspectives, considering diverse factors such as risk, resources, and intellectual property.
(3) From the perspective of interest and motivation
・Have an active interest not only in your research field but also in research trends and social issues in other fields, and have the motivation to explore the possibility of interdisciplinary collaboration.
・Use technology roadmaps to enhance your inquiring mind as you try to draw up scenarios that contribute to the creation of sustainable innovation.
・Broaden your perspective to include social implementation and industry-academia-government collaboration, and engage in your studies with an awareness of the need and significance of returning your results to society.
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The objective of this class, “Technology Road Mapping,” is to systematically study the theory and practice of road mapping to construct technology strategies and clarify the direction of research and development. The class begins with an understanding of the basic concepts of technology road mapping. Through the methods and framework of road mapping and examples of its use in actual companies and research institutions, students will learn the process of future forecasting and strategy formulation for technological development.
In the first half of the class (the first through the sixth sessions), students will learn about the concept, history, and role of technology roadmaps and understand the basic process and framework of roadmapping. By learning the methods of analyzing market and social needs (market approach) and analyzing technology and R&D (technology approach), and by considering the importance of collaboration with stakeholders, students will acquire the basic perspectives necessary for roadmap development. In this phase, participants will reexamine the relationship between their research field and society/markets and recognize the potential use of technology roadmaps.
Next, in the middle stage (7th to 9th sessions), practical roadmap-building exercises will take center stage. Through group work, participants will set up a problem theme, analyze the current situation, organize market and technology trends, identify stakeholders, and then create a roadmap framework. Furthermore, the participants will learn how to realistically operationalize the roadmap by formulating a concrete technology development plan and research project schedule, and conducting resource and risk analysis. In this phase, students will develop a strategic perspective to enhance research feasibility and gain practical experience in the planning process.
In the latter half of the class (10th-12th), the students will learn more advanced roadmapping application techniques, such as the linkage between innovation creation and roadmap operation, integration with intellectual property strategy, and future forecasting using mathematical models and digital tools, under the theme of practical application of roadmaps. This will foster the ability to formulate roadmaps, utilize them appropriately, and update them regularly for sustainable use.
Finally, from the 13th to the 15th session, the participants will review and improve the roadmaps they have created by presenting the results of their group work. Through the presentations, participants will hone their skills to convey the structure and content of the roadmap to a third party in an easy-to-understand manner and brush up their skills by incorporating ideas from other fields. In the final session, students will review the entire class and discuss applying the roadmap to their future research and careers to establish practical operational skills in technical roadmapping.
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第1回
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Introduction - What is technology roadmapping?
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・ Explanation of the overall class format and evaluation method
・ Overview of technology roadmapping (definition, purpose, historical background, etc.)
・ Self-introductions and introductions to research fields by participants
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第2回
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Role and examples of roadmaps
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・ Introduction to domestic and international examples of roadmapping in companies and research institutions
・ Challenges and benefits of roadmapping, learning from successful and unsuccessful examples
・ The connection with innovation and business strategy theory (overview for beginners)
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第3回
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Basic roadmapping processes and frameworks
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・ Typical roadmapping processes (preparation → analysis → construction → execution → update)
・ Types and differences between product roadmaps, technology roadmaps, business roadmaps, etc.
・ Introduction to example frameworks (T-Plan, S-curve, 3-tier model, etc.)
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第4回
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Analysis of social needs (market approach)
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・ Methods for understanding market trends, analyzing customer needs, and identifying social issues
・ Basic methods for data analysis, literature research, and trend analysis
・ Future forecasting using a simplified version of scenario planning
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第5回
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Analysis of technology and R&D (technology approach)
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・ Basic concepts of technology evolution patterns, technology portfolio analysis, and patent analysis
・ Concepts of S-curves and TRL (Technology Readiness Level)
・ Methods for incorporating interdisciplinary perspectives and integrating different fields
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第6回
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Collaborative stakeholder analysis and roadmapping
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・ Identifying stakeholders and analysis methods (e.g. power interest matrix)
・ Importance of collaboration within and outside the university, and in industry-academia-government partnerships
・ How to develop a road map by involving stakeholders and coordinating their opinions
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第7回
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Road map construction exercise 1 - Theme setting and current situation analysis
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・ Group exercise (form teams with members from multiple specialist fields)
・ Setting the theme of the issue (each team considers the field and goals they will be dealing with)
・ Organizing market and technology trends, identifying stakeholders
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第8回
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Roadmap construction exercise 2 - Drawing the overall structure of the roadmap
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・ For the theme set by each team, formulating the framework of the roadmap (time axis, milestones, sub-goals, etc.)
・ Visualizing the roadmap using a 3-tier model (market, product, technology), etc.
・ Refining the content through mutual feedback
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第9回
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Roadmap Construction Exercise 3 - Detailed Planning and Resource/Risk Analysis
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・ Setting specific technology development plans and research project schedules
・ Identifying necessary resources (human resources, equipment, funding) and risks (technical risks, external environment risks, etc.)
・ Approaches to risk management and roadmap revision
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第10回
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Innovation Creation and Roadmap Implementation in Practice
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・ Fundamentals of innovation theory (disruptive innovation, open innovation, etc.)
・ Key points for using roadmaps when linking research results to social implementation
・ Case studies of industry-academia collaboration and startup support
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第11回
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Intellectual Property Strategy and Road mapping
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・ Fundamentals of intellectual property strategy (patents, licenses, know-how protection, etc.)
・ Importance of an intellectual property perspective in roadmapping
・ Case study: Using patent maps to enhance technology roadmaps
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第12回
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Future Prediction and Road mapping Using Mathematical Models and Digital Tools
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・ Case studies of technology trend prediction using system dynamics and AI
・ Introduction to digital tools and software used in roadmapping
・ Exploring technology trends using big data analysis and text mining
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第13回
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Group work presentation 1 - Roadmap creation presentation
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・ Each group will present the progress of their roadmap (15-20 minutes per group)
・ Feedback from other teams, advice from the instructors
・ Improving presentation skills, how to present and communicate roadmaps
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第14回
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Group work presentation 2 - Review of the completed roadmap
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・ Presentation of the final roadmaps, revised based on the feedback from the previous session
・ Peer evaluation and general discussion (research direction, social significance, feasibility, etc.)
・ Reviewing the overall picture and reconfirming the difficulties and effectiveness of technology roadmapping
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第15回
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Summary and future prospects
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・ Summary and review of all classes
・ Review of roadmapping methods and periodic updates, evaluation methods
・ Consideration of the potential for roadmapping to be used in each student's future research and career
・ Comments and Q&A from both students and teachers
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第16回
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Summary and future prospects
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・ Summary and review of all classes
・ Review of roadmapping methods and periodic updates, evaluation methods
・ Consideration of the potential for roadmapping to be used in each student's future research and career
・ Comments and Q&A from both students and teachers
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※AL(アクティブ・ラーニング)欄に関する注
・授業全体で、AL(アクティブ・ラーニング)が占める時間の割合を、それぞれの項目ごとに示しています。
・A〜Dのアルファベットは、以下の学修形態を指しています。
【A:グループワーク】、【B:ディスカッション・ディベート】、【C:フィールドワーク(実験・実習、演習を含む)】、【D:プレゼンテーション】
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A: 30% B: --% C: 30% D: 40%
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Evaluation will be based on the results of group work and a final assignment report.
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備考
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Lecture materials will be uploaded to the academic support system for each class.
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| (経済成長と雇用)包摂的かつ持続可能な経済成長及びすべての人々の完全かつ生産的な雇用と働きがいのある人間らしい雇用(ディーセント・ワーク)を促進する。 |
| (インフラ、産業化、イノベーション)強靱(レジリエント)なインフラ構築、包摂的かつ持続可能な産業化の促進及びイノベーションの推進を図る。 |
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Prof. Naoki Ohshima
nohshima@yamaguchi-u.ac.jp
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