Prof. Kyungsik Shin ㅣ Conference 5 Smart Manufacturing Innovation and Business
Business Comes from the Power of Big Data.
Date and Place
April 3 (Fri.) 2020 | 13:30 ~ 14:30 | KINTEX 1, 3F, Grand Ballroom
The use of high technology is diversifying in the era of the fourth industrial revolution. Big data is fast reaching us! Its use is endless. Now that innovation in manufacturing is important, let's explore ways to put big data into practice with a fundamental understanding of manufacturing innovation.
- 2019~ Outside Director at KB Kookmin Card
- Honorary President at The Korean Association for Intelligent Information Systems - President at The Korean Association for Intelligent Information Systems
- Director at Electronic Trade Association of Korea
- Director at The Korean Association for Intelligent Information Systems
- Director at The Korean Knowledge Business Association
- Innovation Advisory Committee at Korea Smes And Startups Agency
Soonyeol Lee Head of Hyundai Robotics Division ㅣ Conference 5 Smart Manufacturing Innovation and Business
Applying AI-based Robotics Technology for Autonomous Factories.
Date and Place
April 3 (Fri.) 2020 | 10:50~11:30 | KINTEX 1, 3F, Grand Ballroom
Smart factories using AI technology will evolve into autonomous factories that respond immediately to minor changes in customer orders, work environments, materials, and plant conditions. The following introduces the evolution and application of cognitive technology and data-based intelligent robot technology.
- Former President, Fieldbus Foundation Korea Marketing Association
- Former Member, The Industrial-Academic Network Forum, The Korea Institute for Industrial Technology Promotion
- Former Executive Director, Rockwell Automation Korea
- Former Chairman, ODVA TAG Korea
Thomas Schmid Siemens Korea, Head of Digital Industries ㅣ Conference 3 Smart Manufacturing Innovation and the Future of the Manufacturing Industry
The Direction of Manufacturing Innovation with Digitalization
Date and Place
April 1(Wed.) 2020 | 10:50~11:30 | KINTEX 1, 3F, Grand Ballroom
Currently, many countries around the world are seeking the digitalizing of manufacturing into smart manufacturing innovation ways.
The importance of digitalization is growing even more as the manufacturing industry places an emphasis on customer-focused thinking centered on smart factory and real-time communication with customers as a result of the change in understanding in manufacturing.
The following talks about how manufacturing should innovate with the help of digitalization in the 4th Industrial Revolution Era.
- 1962 Born in Lauingen, Germany
- Technical University of Munich (Dipl. - Ing. Univ, Electrical Engineering)
- 2020Head of Digital Industries in Siemens Ltd. Seoul
- 2018Senior Vice President and Head of Sales Consulting Digital Factory Sales in Siemens AG
- 2012Senior Vice President Projects in Siemens AG
- 2011Senior Vice President and Head of Industry Sales in Siemens Ltd. China
- 2010Senior Vice President and Head of Industry Product & System Sales in Siemens Ltd. China
- 2008 Senior Vice President and member of the General Management Team in Industry IA & DT Divisions
- 2004 Senior Vice President and Head of Sales Region Automation & Drives in Siemens AG
- 2002 Senior Vice President and Corporate Officer in Yaskawa Siemens Automation & Drives Corp.
- 1988 Joined in Siemens AG, worked as a project manager and filled in several management position
Prof. Jaebok Song ㅣ Conference 5 Smart Manufacturing Innovation and Business
Technology and Industry Trends Collaborative Robots
Date and Place
April 3 (Fri.) 2020 | 10:10~10:50 | KINTEX 1, 3F, Grand Ballroom
Collaborative robots are safe for workers and robots to collaborate in a shared space and perform various tasks through intuitive teaching without complex programming. Therefore, they can be easily used in small-medium businesses and service industries where space is small and there is no robot expert. This lecture examines the current technology of the collaborative robots and their applications to industrial sites. In addition, it introduces a technology that can greatly increase the payload of a robot or reduce the use of energy by using mechanical counterbalancing techniques.
BS, Dept. of Mechanical Eng., Seoul National Univ. (1983)
Ph.D., Dept. of Mechanical Eng., MIT (1992)
Professor, School of Mechanical Eng., Korea Univ. (1993~)
Director, Intelligent Robotics Research Center, Korea Univ. (2004 – 2015)
Editor-in-Chief, IJCAS (SCIE Journal) (2011 – 2013)
Member, Nat‘l Academy of Engineering of Korea (2013~)
President, Korea Robotics Society (2014)
President, Korean Society of Mechanical Engineers (2020) Awards
Presidential Citation of Korea Robot Awards (2016)
Best Paper Award by Korean Fed. of Sci. & Tech. Society (2010, 2014)
Top 10 Mechanical Technologies of the Year (2017)
Academic Award by Korea Robotics Society (2018)
Industrial Technology of the Month by MOTIE (2018)
In time for the 4th industrial revolution, Directions for tooling system and molding system (Manufacturing intelligence / Automation)
2015 Winner of the Jang Young-shil Award
(Air Conditioning function components applied with the chemical ultrafine spray injection technology)
2016 ~ 2017 Head of LG Electronics' Molding Technology Development Office
2018 ~ 2019 Director of LG Electronics' Molding Technology Center
Hankoo Park Director ㅣ Conference 4 4th Industrial Revolution and Global Manufacturing Innovation
Smart Factory that We Encounter
Date and Place
April 2 (Thu.) 2020 | 11:00~12:10 | KINTEX 1, 3F, Grand Ballroom
There are many backgrounds in how Smart Factory
emerges in society. It needed a new manufacturing system to prevent the various environmental changes such as global financial crisis / low growth, slowing consumption due to high unemployment, and lack of skilled workers due to aging. With the development of high technology, Smart Factory has begun to spread, and it has long been a prerequisite for manufacturing innovation in Korea’s manufacturing industry. Smart Factory has undergone some changes and we will be able to see what Smart Factory will look like in the future.
- Former President, Korean Industry 4.0 Association
- Former CEO, Smart M&F Group
- Former Director POSCO ICT
Paradigm shift in mold making through smart management and smart manufacturing.Providing future direction of mold factory with automatic mold design, unified & integrated data management, free- polishing, automatic welding, and digital inspection system for data-based manufacturing conversion from manual work.
1. Graduate Hanyang Univ.(1989)
2. Enter the Hyundai Motor Company (1989)
3. Team leader of Body Part Engineering Team (2014)
4. Group Leader of HYUNDAI TOOL ENGINEERING (2015~)
Electronics, South Korea
March 1983 - June 1985, Obligatory Service in the Korean Army
The rise of the manufacturing platform companies has been the hot and soon will be hottest issue in the manufacturing industry. This talk will cover why manufacturing platform is so important for Korean manufacturing industry and which global players are the most prominent in the market.
Mr. San Ko studied mathematics and cognitive science for his B.S and M.S degree respectively in Seoul National University. While working at the SAIT(Samsung Advanced Institute of Technology) as a researcher in AI, he was selected as one of the first two astronauts by KARI(Korea Aerospace Research Institute) and trained in Russia. After that, Mr. San Ko pursued further study in HKS(Harvard Kennedy School of Government) and came back to Korea to found TIDE Institute - an NPO helping startups and entrepreneurs. In 2014, Mr. San Ko founded ATEAM Ventures which provides on-line manufacturing platform – ‘Creatable’ in South Korea.
Masahiko Mori CEO ㅣ Conference 4 4th Industrial Revolution and Global Manufacturing Innovation
How the Global Manufacturing Corporations are
Innovating in the Era of Fourth Industrial Revolution
Date and Place
April 2 (Thu.) 2020 | 10:10~11:00 | KINTEX 1, 3F, Grand Ballroom
The fourth industrial revolution demands innovation in
manufacturing. The innovation arisen from robot cooperation to the smart factory will foresee a huge change in manufacturing. Then‘HOW’are the global manufacturing corporations coping with this innovation? The following discusses the cases of innovation in the global manufacturing corporations and how we need to deal with it.
- Masahiko Mori CEO
- Japan Machine Tool Builders Association, Vice-President
- Kyoto University Innovation Capital, President
- Graduate School of Advanced Leadership Studies, Kyoto University, Professor
Introducing Digital Transformation Journey of Doosan to design customer experiences with the best digital talent.
Won-Joon Hyoung is leading Doosan’s groupwide Digital Transformation as a CDO and a CIO. He is also head of Doosan Information & Communications BU.
Dr. Hyoung was highly recognized for his contribution to the spread of Design Thinking in Korea and excellent leadership and business performance while serving as CEO & president of SAP Korea for approximately 10 years since 2008. Prior to joining SAP, Hyoung led successful business innovation of a leading global company, as President of i2 Technologies, Inc., Korea and Greater Asia-Pacific Region, for 5 years.
Chair prof. Jin-Hyung Kim ㅣ Conference 3 Smart Manufacturing Innovation and the Future of the Manufacturing Industry
How does ‘Innovation’ Work in Smart Era?
Date and Place
April 1(Wed.) 2020 | 10:10~10:50 | KINTEX 1, 3F, Grand Ballroom
In the 4th Industrial Revolution, smart technology is more likely to advance in a situation where the machine replaces or help humans. With the accelerating development of artificial intelligence among the technologies, the following deals with how AI can influence the manufacturing and how the innovation of manufacturing can be achieved through this.
- Professor Emeritus, KAIST
- Ph.D., Aritificial Intelligence field in Computer science, UCLA
- Former President, Artificial Intelligence Institute
- Former Director, Software Policy & Research Institute
This keynote speech will present the strategic direction of the Smart Manufacturing Innovation based on the digital transformation and will also discuss the application of the digital twin in the context of CPS(cyber physical system).
Present) Distinguished Professor, Korea Univ. / Chairman, Korea ICT Convergence Network / Senior Member, National Academy of Engineering of Korea
Former) SME Minister of Korea / Member, National Economic Advisory Council / Professor, Seoul National Univ. / Managing Director, Office of Strategic R&D Planning & Ministry of Knowledge Economy / President & CEO, Hyundai Autonet / President & CEO, Bontec / Asia Pacific President, GE Thermometrics
Today's production with customized and specialized machine tools is often unable to achieve this requirement. As a result, autonomous systems that provide more flexible automation and more production freedom, while still maintaining high productivity and robustness regardless of lot size, are needed. Autonomous machine tools have the ability control the production themselves. In addition, the machine tools are able to adapt to unforeseen changes during the process. The basis for this are intelligent components with sensory and actuator capabilities.
Prof. Berend Denkena is Head of the Institute of Production Engineering and Machine Tools at the Leibniz Universität Hannover. After obtaining doctorate at the Faculty of Mechanical Engineering at University of Hannover in 1992, he worked as a design engineer and head of various development groups for Thyssen Production Systems in both Germany and the United States. From 1996 to 2001, he was Head of Engineering and Turning Machine Development at Gildemeister Drehmaschinen in Bielefeld. Since 2001, he has been full professor of Production Engineering and Machine Tools and director of the Institute of Production Engineering and Machine Tools at Leibniz University Hannover.
The aim of digital machining research is to develop mathematical models of metal cutting operations, machine tool vibrations and control. The science-based digital models allow the virtual design, testing, optimization, monitoring and control of machine tools and machining operations. The model predicts the cutting forces, torque and power consumed in machining parts by considering CNC system dynamics, material properties, cutter geometry, structural flexibilities, and cutting conditions along the tool path. The simulation system predicts chatter-free cutting conditions within the work volume of the machine tool or detects the presence of chatter vibrations along the tool path. An in-house developed virtual and real-time CNC system allows the design and analysis of any five-axis machine tool controller. Current research includes digital twin approach, where virtual simulation and real-time machine tool monitoring are integrated to achieve intelligent, self-adjusting smart machine tools.
Professor Altintas worked as a machine tool and manufacturing process development engineer in industry before joining The University of British Columbia in 1986. He conducts research on metal cutting, machine tool vibrations, control and digital machining. He has published about 200 archival journal and 100 conference articles with over 27,300 citations with h index of 87 (Google Scholar), and a widely used “Manufacturing Automation: Principals of Metal Cutting Mechanics, Machine Tool Vibrations and CNC Design. His research laboratory created advanced machining process simulation (CUTPRO), virtual part machining process simulation (MACHPRO) and open-modular 5 axis CNC system (Virtual CNC), which are used by over 300 companies and research centers in the field of machining and machine tools worldwide.
Professor Altintas is the fellow of Royal Society of Canada, CIRP, ASME, SME, CAE, EC, Tokyo University, P&WC, AvH and ISNM. He received Pratt & Whitney Canada’s (P&WC) university partnership (1997), APEG BC’s Meritorious (2002), APEG BC R.H. McLachlan (2010), UBC Killam Teaching Prize (2011), Gold Medal of Engineers Canada (2011), SME Albert M. Sergent Award (2012), NSERC Synergy Award, ASME Blackall best journal paper award, the scientific award of Turkey in Science and Engineering (2013), Georg Schlesinger Production Engineering Award (Berlin, 2016), and ASME William T. Ennor Manufacturing Technology Award (USA, 2016). He holds an Honorary Doctorate Degrees from Stuttgart University (2009) and Budapest University of Technology (2013), and holds Honorary Professor titles from BEIHANG University in Beijing and University Chair Professor from National Chung Hsing University-Taiwan. He was the past president of CIRP (International Academy of Production Engineering Researchers) for term 2016 – 2017. He is designated as the Distinguished University Scholar of Engineering at the University of British Columbia (2017). He currently directs NSERC CANRIMT Machining Research Network across Canada, and holds the NSERC – P&WC – Sandvik Coromant Industrial Research Chair Professorship to develop next generation Digital Machining Twin Technology.
Artificial intelligence (AI) techniques have been successfully applied in various social and consumer applications, such as voice and image recognitions, social media, advertisement, etc. However, AI techniques have seen limited adoption in industry, primarily due to the difficulty in obtaining adequate sets of training data that are required by various machine learning or neural networks. This presentation will discuss the challenges of adopting AI techniques to industrial applications, and propose a concept of industrial AI (augmented intelligence). Furthermore, experienced operators or engineers accumulated significant knowledge or experience over their professional career. The value behind historical maintenance records should also not be overlooked. Additionally, when sensory data and algorithms are combined with the engineering models, human experience or expert knowledge, and historical records, a new paradigm of industrial AI (iAI) becomes a powerful solution to many industrial problems. Selected applications will be presented to demonstrate the value of this new iAI.
Dr. Jun Ni is the Shien-Ming (Sam) Wu Collegiate Professor of Manufacturing Science and Professor of Mechanical Engineering at the University of Michigan, USA. He served as the founding Dean of the University of Michigan – Shanghai Jiao Tong University Joint Institute located in Shanghai, China since 2006.
Professor Ni has been invited to serve as a guest/advisory professor at many institutions, including Shanghai Jiao Tong University, Tsinghua University, Xi’an Jiao Tong University, Huazhong University of Science and Technology, Dalian University of Technology, and 10 other institutions. He served in the International Expert Advisory Board of the Ministry of Science and Technology of PRC to consult for the strategic planning in advanced manufacturing.
The Digital Transformation is changing the whole world. Market is changing and the entire eco-system is also changing. The speed is faster than ever. Many companies are suffering from the revolutionary transformation. Some people say that this is the 4th industrial revolution. And, the new era is coming due to the advance of digital technology such as AI, Robot, Driverless car, Iot etc. But they are not here yet.
The presentation shows why the entire world is changing. The revolution started from the smart phone. The new human, so called Phono Sapiens, is the one who lead the revolutionary change. Phono Sapiens, who uses smart phone as a part of their organ, is now setting a new standard for human life.
Phono sapiens live on the digital platform. So, every business model is moving toward digital platform. 10 world leading companies have changed their costumer into phono sapiens. and more than 5000 Billion dollars are invested into digital transformation. The B2C market has been attacked by the revolution. It's now coming to manufacturing industry. The presentation will show you the importance of digital platform, big data analysis, AI and how to adapt the digital transformation into your company.
- Business Model Designer
- Professor of Mechanical Engineering, Service Design Inst. at Sungkyunkwan Univ.
- Director of Human Centered Service Convergence Design Project Team (BK21 +) at Sungkyunkwan University
- Director of SMARDI, Smart Design & Research Institute
- Advisory Committee Member of Innovation Growth Headquarters at Ministry of Economy and Finance
- Non-Standing Director of E-mart
- Consultant of Special Committee for 4th Industrial Revolution at National Assembly
- (Former)Advisory professor of E-mart24 Convenience Research Institute
- (Former) Advisor of Samsung electronics DMC R&D Center
- (Former) Member of Joint Committee for New Industry at Ministry of Trade, Industry and Energy
- (Former) Member of Promotion Committee for ICT Internationalization Project at Ministry of Science, ICT and Future Planning
- (Former) Safety Committee of Nuclear Safety and Security Commission
- (Former) Head of Steering Group for Wearable Smart Device at Ministry of Trade, Industry and Energy