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Briefly reviews previous literature by the author before presenting an original 12 step system integration protocol designed to ensure the success of companies or countries in their efforts to develop and market new products. Looks at the issues from different strategic levels such as corporate, international, military and economic. Presents 31 case studies, including the success of Japan in microchips to the failure of Xerox to sell its invention of the Alto personal computer 3 years before Apple: from the success in DNA and Superconductor research to the success of Sunbeam in inventing and marketing food processors: and from the daring invention and production of atomic energy for survival to the successes of sewing machine inventor Howe in co‐operating on patents to compete in markets. Includes 306 questions and answers in order to qualify concepts introduced.

The following article is a “Q&A interview” conducted by Joanne Pransky of Industrial Robot Journal as a method to impart the combined technological, business and personal experience of a prominent, robotic industry PhD and innovator regarding his pioneering efforts. The paper aims to discuss these issues.

The interviewee is Dr Nabil Simaan, Professor of Mechanical Engineering, Computer Science and Otolaryngology at Vanderbilt University. He is also director of Vanderbilt’s Advanced Robotics and Mechanism Applications Research Laboratory. In this interview, Simaan shares his unique perspective and approaches on his journey of trying to solve real-world problems in the medical robotics area.

Simaan received his BSc, MSc and PhD in mechanical engineering from the Technion – Israel Institute of Technology. He served as Postdoctoral Research Scientist in Computer Science at Johns Hopkins University. In 2005, he joined Columbia University, New York, NY, as an Assistant Professor of Mechanical Engineering until 2010, when he joined Vanderbilt. His current applied research interests include synthesis of novel robotic systems for surgical assistance in confined spaces with applications to minimally invasive surgery of the throat, natural orifice surgery, cochlear implant surgery and dexterous bimanual microsurgery. Theoretical aspects of his research include robot design and kinematics.

Dr Simaan is a leading pioneer on designing robotic systems and mechanisms for medical applications. Examples include technologies for snake robots licensed to Intuitive Surgical; technologies for micro-surgery of the retina, which led to the formation of AURIS Surgical Robotics; the insertable robotic effector platform (IREP) single-port surgery robot that served as the research prototype behind the Titan Medical Inc. Sport (Single Port Orifice Robotic Technology). Simaan received the NSF Career award for young investigators to design new algorithms and robots for safe interaction with the anatomy. He has served as the Editor for IEEE International Conference on Robotics and Automation, Associate Editor for IEEE Transactions on Robotics, Editorial Board Member of Robotica, Area Chair for Robotics Science and Systems and corresponding Co-chair for the IEEE Technical Committee on Surgical Robotics. In January 2020, he was bestowed the award of Institute of Electrical and Electronics Engineers (IEEE) Fellow for Robotics Advancements. At the end of 2020, he was named a top voice in health-care robotics by technology discovery platform InsightMonk and market intelligence firm BIS Research. Simaan holds 15 patents. A producer of human capital, his education goal is to achieve the best possible outcome with every student he works with.

The purpose of this paper is a “Q&A interview” conducted by Joanne Pransky of Industrial Robot Journal as a method to impart the combined technological, business and personal experience of a prominent, robotic industry engineer-turned-entrepreneur regarding the evolution, commercialization and challenges of bringing a technological invention to market.

The interviewee is Mitchell Weiss, Chief Technology Officer (CTO) for Seegrid Corporation, a manufacturer of stereo vision-guided robots and vehicle control systems. As an accomplished executive of automation and robotics companies, Weiss shares his experiences and industry knowledge, including his first full-time job out of college at Unimation, the world’s first robot company.

Weiss received a Bachelor of Science from MIT and a Graduate Certificate in Intellectual Property (IP) from Northeastern University, has taught at Penn State and the University of Pennsylvania and has lectured at MIT. He has served as the Chief Operating Officer at Seegrid Corp.; CTO at Brooks Automation; CTO and Vice President of PRI Automation; President of ProgramMation, Inc.; and Chief Engineer and Co-Founder at United States Robots, Inc.

Weiss holds 24 patents, is an expert witness in IP litigation, is Vice Chair of ASTM F45 Driverless Automatic Guided Industrial Vehicles and is a member of ANSI/ITSDF B56.5 Safety Standard for Driverless, Automatic Guided Industrial Vehicles and Automated Functions of Manned Industrial Vehicles. He is also one of the co-authors of the 1986 McGraw-Hill book Industrial Robotics: Technology, Programming, and Applications. Weiss has led his high-technology robotic and automation companies to be successful in the installation of worldwide automation systems in semiconductor manufacturing, electronics manufacturing, automotive and warehousing and distribution. His technical achievements in product design, development and production combined with his business expertise in fund-raising, initial public offering and mergers & acquisitions provide companies with a unique, forward-thinking technology roadmap.

The following paper is a “Q&A interview” conducted by Joanne Pransky of Industrial Robot journal as a method to impart the combined technological, business and personal experience of a prominent, robotic industry engineer-turned successful innovator and leader, regarding the challenges of bringing technological discoveries to fruition. The paper aims to discuss these issues.

The interviewee is Gurvinder S. Virk, an experienced internationally renowned technical expert in robotics, control, engineering and computer science who currently serves as the Technical Director for Innovative Technology & Science Limited (InnotecUK); Adjunct Professor for IIT Ropar, India; Guest Professor in Robotics and Autonomous Systems, KTH Royal Institute of Technology, Sweden; and Trustee and Treasurer, CLAWAR Association Ltd., UK (a UK-registered charity with the mission to advance robotics for the public benefit). In this interview, Prof Virk details his technical/commercialization/regulatory experience with international standing to advance robotics and control engineering globally to deliver mass market robot products.

Prof Virk received a first-class BSc in electronic and electrical engineering from the University of Manchester in 1977; a PhD in Control Theory, Imperial College, London, 1982; and a Diploma of Imperial College in 1982. He has served as Lecturer, Senior Lecturer and Professor of Control and Robotics and related fields since 1983 in UK, New Zealand, Germany and Sweden. He has been involved in several spin-out commercial ventures with CFM Consultants, Ambient Energy Systems Ltd., Portech Ltd., Endoenergy Systems Ltd., Endoenergy Sweden AB, CLAWAR Association Ltd. and EAS Ltd. (NZ).

Throughout his 35-year career, Prof Virk (CEng, FIET, FCIBSE, CMath, FIMA, MIEEE) has been a leader and scientific contributor in the fields of intelligent and advanced robotics, control systems theory and applications, assistive robots and mobile robotics, renewable energy systems for building applications and robot safety. He has produced over 350 refereed publications, filed four patents, supervised 16 successful PhD/MPhil students, created and led international research teams, registered several spin-out companies (and a UK-registered charity) and has led many international externally funded projects (total value of approximately €20m). His notable achievements include leading the creation of the first harmonized ISO safety standard (EN ISO 13482) for personal care robots and being invited to be President of the Evaluation Committee of the ARGOS Challenge to invent autonomous ATEX-certified robots for gas and oil production sites. In addition, Prof Virk has been awarded the Freedom of the City of London for services in promoting Information Technology (IT) in schools and is a Freeman of the Worshipful Company of Information Technology. His pioneering and patented research on assistive wearable exoskeletons will soon be available as affordable products for the elderly.

The purpose of this article is to present a “Q&A interview” conducted by Joanne Pransky of the Industrial Robot Journal as a method to impart the combined technological, business and personal experience of a prominent, robotic industry engineer-turned entrepreneur regarding the evolution, commercialization and challenges of bringing a technological invention to market.

The interviewee is Professor Moshe Shoham, Director of the Robotics Laboratory, Department of Mechanical Engineering, Technion, Israel Institute of Technology. Professor Shoham is also the Founder of Mazor Robotics Ltd. and the co-founder of Microbot Medical. As a pioneer of new and developing fields in medical robotics, Shoham describes his major advancements and innovative approaches.

Professor Moshe Shoham has BSc in Aeronautical Engineering, MSc and DSc in Mechanical Engineering from Technion, where he has been teaching for the past nearly 30 years, and is currently the Tamara and Harry Handelsman Academic Chair in the Faculty of Mechanical Engineering. The Technion is renowned for the ingenuity of its graduates, who comprise 70 per cent of Israel’s founders and managers of high-tech industries, making Israel the greatest concentration of high-tech start-up companies anywhere outside of Silicon Valley, California, USA. Along with Technion’s expert faculty, students and facilities, Professor Shoham founded Mazor Robotics in 2001 and co-founded Microbot Medical Ltd. in 2010.

Professor Shoham, a worldwide acclaimed authority in the field of robotics whose life work is dedicated to developing technologies that improve patient care, is the inventor of the first commercially available mechanical guidance system for spine surgery, the Mazor Robotics Renaissance™ Guidance System. He is also the visionary and creator of the unprecedented Microbot ViRob, an Autonomous Advancing Micro Robot, <1 mm in diameter, which has the ability to crawl within cavities/lumens, allowing physicians to target a disease site with exquisite precision. His latest work includes a revolutionary swimming Micro Robot and the new Mazor Renaissance® Brain Surgery. Professor Shoham holds 30 patents and more than a dozen awards, including the recent prestigious 2013 Thomas A. Edison Patent Award and the election into the National Academy of Engineering.

The purpose of this paper is to present a methodology for medical robot kinematics design developed using a knowledge‐management approach.

A classification of medical robots is proposed based on their kinematic characteristics and 76 robot specifications were collected in a catalogue. Then, having drawn a generic specifications sheet, rules were proposed to choose a structure from these specifications.

Findings are situated at several levels: the catalogue, the classification of robots with respect to their kinematic characteristics, a generic and specific specifications sheet, and an organigram to choose the most relevant structure from the specifications.

This structural synthesis represents a preliminary step in the design of medical robots which will be completed by an additional dimensional synthesis.

This work offers a new methodology for medical robots design distinct from what is usually done for medical or industrial robots design using intuition, expertise and non‐formal knowledge.