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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 turned successful business leader, regarding the commercialization and challenges of bringing technological inventions to market while overseeing a company. This paper aims to discuss these issues.

The interviewee is Dr Gary Guthart, Chief Executive Officer (CEO) at Intuitive Surgical, Inc., and a member of the Board of Directors, both roles he has held since 2010. Guthart discusses his journey to becoming the CEO and also shares some of his lessons learned and challenges faced.

Guthart received a bachelor’s degree in engineering physics from California, Berkeley. He earned an MS and a PhD in engineering from the California Institute of Technology. Guthart’s first scientific experience came early in his career in a Human Factors Lab at NASA, supporting a team studying human performance assessment of pilots. Guthart was then part of the core team developing foundational technology for computer-enhanced surgery at SRI International. While at SRI, he also developed algorithms for vibration and acoustic control of large-scale systems. Guthart joined Intuitive Surgical as part of the first engineering team in 1996 as a Control Systems Analyst. He was promoted to Vice President of Engineering in 2002 and was appointed President and Chief Operating Officer in 2008.

Under Dr Gary Guthart’s leadership and his more than 25 years of medical technology, engineering, scientific and management experience, Intuitive Surgical, Inc., the world’s most successful medical robotics company, has grown to: more than 8,000 employees; nearly 6,000 da Vinci systems sold; more than 8.5 million procedures performed and an increase in stock (NASDAQ: ISRG) of more than 600%. Guthart is also on the Board of Directors for Illumina, Inc., and a member of the Board of Directors for the Silicon Leadership Group.

The following paper details a “Q&A interview” conducted by Joanne Pransky, Associate Editor of Industrial Robot Journal, to impart the combined technological, business and personal experience of a prominent, robotic industry engineer-turned successful business leader, regarding the commercialization and challenges of bringing technological inventions to the market while overseeing a company. The paper aims to discuss these issues.

The interviewee is Dr William “Red” Whittaker, Fredkin Research Professor of Robotics, Robotics Institute, Carnegie Mellon University (CMU); CEO of Astrobotic Technology; and President of Workhorse Technologies. Dr Whittaker provides answers to questions regarding the pioneering experiences of some of his technological wonders in land, sea, air, underwater, underground and space.

As a child, Dr Whittaker built things and made them work and dreamed about space and robots. He has since then turned his dreams, and those of the world, into realities. Dr Whittaker’s formal education includes a BS degree in civil engineering from Princeton and MS and PhD degrees in civil engineering from CMU. In response to designing a robot to cleanup radioactive material at the Three Mile Island nuclear plant, Dr Whittaker established the Field Robotics Center (FRC) in 1983. He is also the founder of the National Robotics Engineering Center, an operating unit within CMU’s Robotics Institute (RI), the world’s largest robotics research and development organization. Dr Whittaker has developed more than 60 robots, breaking new ground in autonomous vehicles, field robotics, space exploration, mining and agriculture. Dr Whittaker’s research addresses computer architectures for robots, modeling and planning for non-repetitive tasks, complex problems of objective sensing in random and dynamic environments and integration of complete robot systems. His current focus is Astrobotic Technology, a CMU spin-off firm that is developing space robotics technology to support planetary missions. Dr Whittaker is competing for the US$20m Google Lunar XPRIZE for privately landing a robot on the Moon.

Dr Whittaker coined the term “field robotics” to describe his research that centers on robots in unconstrained, uncontrived settings, typically outdoors and in the full range of operational and environmental conditions: robotics in the “natural” world. The Field Robotics Center has been one of the most successful initiatives within the entire robotics industry. As the Father of Field Robotics, Dr Whittaker has pioneered locomotion technologies, navigation and route-planning methods and advanced sensing systems. He has directed over US$100m worth of research programs and spearheaded several world-class robotic explorations and operations with significant outreach, education and technology commercializations. His ground vehicles have driven thousands of autonomous miles. Dr Whittaker won DARPA’s US$2m Urban Challenge. His Humvees finished second and third in the 2005 DARPA’s Grand race Challenge desert race. Other robot projects have included: Dante II, a walking robot that explored an active volcano; Nomad, which searched for meteorites in Antarctica; and Tugbot, which surveyed a 1,800-acre area of Nevada for buried hazards. Dr Whittaker is a member of the National Academy of Engineering. He is a fellow of the American Association for Artificial Intelligence and served on the National Academy of Sciences Space Studies Board. Dr Whittaker received the Alan Newell Medal for Research Excellence. He received Carnegie Mellon’s Teare Award for Teaching Excellence. He received the Joseph Engelberger Award for Outstanding Achievement in Robotics, the Advancement of Artificial Intelligence’s inaugural Feigenbaum Prize for his contributions to machine intelligence, the Institute of Electrical and Electronics Engineers Simon Ramo Medal, the American Society of Civil Engineers Columbia Medal, the Antarctic Service Medal and the American Spirit Honor Medal. Science Digest named Dr Whittaker one of the top 100 US innovators for his work in robotics. He has been recognized by Aviation Week & Space Technology and Design News magazines for outstanding achievement. Fortune named him a “Hero of US Manufacturing”. Dr Whittaker has advised 26 PhD students, has 16 patents and has authored over 200 publications. Dr Whittaker’s vision is to drive nanobiologics technology to fulfillment and create nanorobotic agents for enterprise on Earth and beyond (Figure 1).

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-turned successful innovator and entrepreneur regarding turning his lifelong dream into an invention and commercialized product. This paper aims to discuss these issues.

Harry Kloor is a successful serial entrepreneur, scientist, technologist, educator, policy advisor, author and Hollywood filmmaker. He is the CEO and co-founder of Beyond Imagination, a company that has developed a suite of exponential technology solutions that deploys artificial intelligence (AI), AR, robotics, machine learning and human–computer interaction technology to enhance and revolutionize the world’s workforce. The company early in 2021 completed BEOMNI 1.0, the world’s first fully functional humanoid robotic system with an AI evolving brain, enabling remote work at a high level of fidelity to be done from around the globe. Kloor describes how he transformed his childhood dream into his brainchild and tangible reality.

Kloor was born a groundbreaker who did not take no for an answer. He was born partially crippled with his legs facing backwards. The doctors said that he would spend his life in braces and would never be able to run. His parents told him not to let those ideas limit him and by the age of seven he ran for the first time and went on to become a martial arts master. Kloor’s childhood dream was to create ways to leave his body and inhabit a robotic body so that he could physically be free from his limited mobility. Kloor built his first computer at the age of seven and invented his first product at the age of eight. Kloor's inspiration to study science came largely from science fiction and his 20,000-plus collection of comic books. Knowing the nature of exponential growth, he spent the next 40 years building the expertise, relationships, networks and experience in all areas of exponential technology. Kloor obtained a BA from Southern Oregon State College, an MEd from Southern Oregon University and two simultaneous PhDs, one in chemistry and one in physics, from Purdue University. Kloor co-founded the company Universal Consultants, where he served as chief science consultant, providing guidance to clients in the development of new technological products, patents and policy positions. Kloor was the founder of Stem CC Inc. – a stem cell company that was sold in 2018 to Celularity, one of the world’s most cutting edge clinical-stage cell therapeutics company. Kloor is also the founder and president of Jupiter 9 Productions and is a credited film writer, director and producer. Since his graduation from Purdue University, he has written for Star Trek: Voyager and was the story editor for Gene Roddenberry’s Earth: Final Conflict, a series he co-created/developed. Kloor helped create Taiwan’s animation industry, bringing Quantum Quest: A Cassini Space Odyssey, the first big animation film that starred major Hollywood stars, to Taiwan. Kloor also sits on the board of Brain Mapping and Therapeutics Society and serves as their Chief Scientific Advisor and Educational Outreach Coordinator.

Kloor is a “creative consultant and universal problem solver, with an emphasis in technology and education.” Kloor has worked with Dr Peter Diamandis since the first class of the International Space University in 1988. Kloor was one of the five founding team members of XPRIZE serving as its CSO until 2005 and was one of the founders of the Rocket Racing League. He was on the founding team of Singularity University and taught at Singularity’s first summer program. In 2016 he created the $10m Avatar XPRIZE, and in 2018 he co-created the Carbon Extraction XPRIZE which obtained the largest incentive prize in history, a $100m, funded by Elon Musk and the Musk Foundation. Kloor is the only person in world history to earn two PhDs simultaneously in two distinct academic disciplines. In recognition of this achievement, he was named ABC World News’ Person of the Week in August 1994. Kloor has received numerous awards, including The Golden Axon Award from the Society for Brain Mapping & Therapeutics. He has recently created the Kloor Cycle, a four-stage experiential autonomous learning process within Beomni’s “AI Brain,” adapted from Kolb’s Learning Cycles.

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 engineer-turned successful business leader, regarding the commercialization and challenges of bringing technological inventions to market while overseeing a company. The paper aims to discuss these issues.

The interviewee is Dr Rob Buckingham, Director at UK Atomic Energy Authority (UKAEA) and Robotics Pioneer. Dr Buckingham is an innovator of snake-arm robotics for confined and hazardous environments. In this interview, Dr Buckingham shares some of his 30+ year personal and business experiences of working in industry, academia, co-founding and directing a robotics company and heading up a new UK government-funded organization for remote handling.

Dr Buckingham received his BSc and his MEng in the Special Engineering Programme at Brunel University in London. The program’s objective was to train engineers for the industry by developing problem-solving abilities and decision-making skills of students, which Buckingham accomplished while being sponsored by the UKAEA and as a National Engineering Scholar. After obtaining his PhD in robotics at the University of Bristol, Buckingham, he remained at Bristol for two years as a lecturer in mechanical engineering. In 1997, he co-founded OC Robotics, a private company that designs snake-arm robots specifically to operate in confined spaces. Buckingham directed OC until 2014, when he returned to where he began his early career, UKAEA Culham, this time as a Director and Head of the new Remote Applications in Challenging Environments (RACE) Centre. Under Buckingham’s leadership, RACE is involved in exploring many areas of remote operations, including inspection, maintenance and decommissioning and will be instrumental in developing new remote tools and techniques for academia and industry.

With the unique experience of studying at a university’s distinctive engineering program while working as a young engineer for the UKAEA who sponsored him, Dr Buckingham found his lifelong passion and career in robotics for remote handling. He was one of the creators of the emerging field of snake-arm robotics. He is now applying his innovative, commercial technologies and strategies from working in the nuclear, aerospace, construction and petrochemicals sectors to the industry of nuclear fusion. Dr Buckingham was awarded The Royal Academy of Engineering Silver Medal in 2009. In the same year, his company OC Robotics won the Queen’s Award for Enterprise in the category of Innovation. Buckingham is also a Fellow of the UK Institute of Engineering Technology, a Fellow of the Royal Academy of Engineering and a visiting professor at the Bristol Robotics Laboratory. He was co-chair of the Robotics and Autonomous Systems (RAS) Special Interest Group Steering Group during the preparation of the influential UK RAS strategy, which has since been adopted by UK Government.

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 business leader, regarding the commercialization and challenges of bringing technological inventions to market while overseeing a company. This paper aims to discuss these issues.

The interviewee is Melonee Wise, an entrepreneur and veteran robot designer. In this interview, Wise candidly discusses her career journey, including the successes and lessons learned in the transitioning from an engineer to the CEO of two robotic start-up companies in just six years.

Melonee Wise had a love for building mechanical things since childhood. At the age of eight, she built and programmed a plotter out of Legos. Wise received BS degrees in mechanical engineering and physics engineering, and an MS degree in mechanical engineering from University of Illinois at Urbana-Champaign. While in school, Wise spent her summers interning at Alcoa, DaimlerChrysler and Honeywell Aerospace. She was able to parlay her passion of building robots when she had the opportunity to work on the DARPA Urban Challenge through her university. From there, Wise joined the start-up Willow Garage as a Senior Engineer in 2007. In 2013, she left her position as Manager of Robot Development at Willow to co-found Unbounded Robotics. When Unbounded unexpectedly shut down 18 months later, Ms Wise gave birth to Fetch Robotics, a manufacturer of autonomous and affordable robots for the warehouse and logistics industries.

Melonee Wise is an ambitious robot engineer-turned-entrepreneur in pursuit of fast-paced career and personal growth, and taking on unprecedented challenges. After interning at three large US manufacturing companies, Wise decided to pursue her PhD until the right company and opportunity came along. In 2007, she was asked by a Willow Garage co-founder to leave her PhD studies and join them as their second employee. Willow Garage, the creator of Robot Operating System (ROS) open source software and the PR2 hardware platforms, would go on to become one of the most significant robot incubators of the decade. Wise was one of the co-creators of TurtleBot, a consumer robotics product developed in nine months, and she helped with the design of the PR2 and ROS. Additionally, while at Willow Garage, Wise created the Intern Program, increasing the number of interns from one to over 60. Melonee Wise spun-off Unbounded Robotics in 2013 and headed Fetch Robotics in 2014. Wise and Fetch recently raised more than US$20 million in Series A funding. Wise holds the patent for a steering column lock assembly and has been honored with the prestigious awards: MIT Technology Review’s 35 Innovators under 35; The 2014 Business Insider’s 15 Most Important People Working in Robotics; and Robohub’s 2013 25 Women in Robotics you need to know about.

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 PhD-turned-entrepreneur regarding the evolution, commercialization and challenges of bringing a technological invention to market.

The interviewee is Dr Cory Kidd, an inventor, entrepreneur and leading practitioner in the field of human–robot interaction. Dr Kidd shares his 20-year journey of working at the intersection of healthcare and technology and how he applied innovative technologies toward solving large-scale consumer healthcare challenges.

Dr Kidd received his BS degree in Computer Science from the Georgia Institute of Technology and earned a National Science Foundation Graduate Research Fellow in Computer and Information Science & Engineering. Dr Kidd received his MS and PhD degrees at the MIT Media Lab in human–robot interaction. While there, he conducted studies that showed the psychological and clinical advantages of using a physical robot over screen-based interactions. While finishing his PhD in 2007, he founded his first company, Intuitive Automata, which created interactive coaches for weight loss. Though Intuitive Automata ceased operations in 2013, Dr Kidd harnessed his extensive knowledge of the healthcare business and the experiences from patient engagement and launched Catalia Health in 2014 with a new platform centered specifically around patient behavior change programs for chronic disease management.

Dr Kidd is a pioneer of social robotics and has developed groundbreaking technology for healthcare applications that combines artificial intelligence, psychology and medical best practices to deliver everyday care to patients who are managing chronic conditions. He holds patents, including one entitled Apparatus and Method for Assisting in Achieving Desired Behavior Patterns and in an Interactive Personal Health Promoting Robot. Dr Kidd was awarded the inaugural Wall Street Journal and Credit Suisse Technopreneur of the Year in 2010, which is meant to “honor the entry that best applies technology with the greatest potential for commercial success”. He is also the Director of Business Development for the nonprofit Silicon Valley Robotics and is an impact partner for Fresco Capital. He consults, mentors and serves as a Board Member and Advisor to several high-tech startups.

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 PhD-turned innovator and entrepreneur regarding his pioneering efforts. The paper aims to discuss these issues.

The interviewee is Dr Homayoon Kazerooni, Professor of Mechanical Engineering at the University of California (UC) Berkeley, pioneer and leading entrepreneur of robotic exoskeletons. He is a foremost expert in robotics, control sciences, exoskeletons, bioengineering and mechatronics design. Kazerooni shares in this interview details on his second start-up, US Bionics DBA suitX.

Kazerooni received his MS and PhD in Mechanical Engineering from the Massachusetts Institute of Technology (MIT). He has been a Professor at UC Berkeley for over 30 years. He also serves as the Director of the Berkeley Robotics and Human Engineering Laboratory “KAZ LAB.” The lab’s early research focused on enhancing human upper extremity strength, and Kazerooni led his team to successfully develop a new class of intelligent assist devices that are currently marketed worldwide and used by manual laborers in distribution centers and factories worldwide. Dr Kazerooni’s later work focused on the control of human–machine systems specific to human lower extremities. After developing BLEEX, ExoHiker and ExoClimber – three load-carrying exoskeletons – his team at Berkeley created Human Universal Load Carrier. It was the first energetically autonomous, orthotic, lower extremity exoskeleton that allowed its user to carry 100-pound weights in various terrains for an extended period, without becoming physically overwhelmed. The technology was initially licensed to Ekso Bionics and then Lockheed Martin. Kazerooni and his team also developed lower-extremity technology to aid persons who have experienced a stroke, spinal cord injuries or have health conditions that obligate them to use a wheelchair.

In 2005, Kazerooni founded Ekso Bionics, the very first exoskeleton company in America, which went on to become a publicly owned company in 2014. Ekso, currently marketed by Ekso Bionics, was designed jointly between Ekso Bionics and Berkeley for paraplegics and those with mobility disorders to stand and walk with little physical exertion. In 2011, Austin Whitney, a Berkeley student suffering from lower limb paralysis, walked for commencement in one of Kazerooni’s exoskeletons, “The Austin Exoskeleton Project,” named in honor of Whitney. Kazerooni went on in 2011, to found US Bionics, DBA suitX, a venture capital, industry and government-funded robotics exoskeleton company. suitX’s core technology is focused on the design and manufacturing of affordable industrial and medical exoskeletons to improve the lives of workers and people with gait impairment. suitX has received investment from Wistron (Taiwan), been awarded several US government awards and won two Saint-Gobain NOVA Innovation Awards. suitX has also won the US$1m top prize in the “UAE AI and Robotics for Good” Competition. Its novel health-care exoskeleton Phoenix has recently received FDA approval. Kazerooni has won numerous awards including Discover magazine’s Technological Innovation Award, the McKnight-Land Grant Professorship and has been a recipient of the outstanding ASME Investigator Award. His research was recognized as the most innovative technology of the year in New York Times Magazine. He has served in a variety of leadership roles in the mechanical engineering community and served as editor of two journals: ASME Journal of Dynamics Systems and Control and IEEE Transaction on Mechatronics. Kazerooni has published more than 200 articles to date, delivered over 130 plenary lectures internationally and is the inventors of over 100 patents.

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 PhD and innovator regarding his personal journey and the commercialization and challenges of bringing a technological invention to market. This paper aims to discuss these issues.

The interviewee is Dr Hod Lipson, James and Sally Scapa Professor of Innovation of Mechanical Engineering and Data Science at Columbia University. Lipson’s bio-inspired research led him to co-found four companies. In this interview, Dr Lipson shares some of his personal and business experiences of working in academia and industry.

Dr Lipson received his BSc in Mechanical Engineering from the Technion Israel Institute of Technology in 1989. He worked as a software developer and also served for the next five years as a Lieutenant Commander for the Israeli Navy. He then co-founded his first company, Tri-logical Technologies (an Israeli company) in 1994 before pursuing a PhD, which was awarded to him from the Technion Israel Institute of Technology in Mechanical Engineering in the fall of 1998. From 1998 to 2001, he did his postdoc research at Brandeis University, Computer Science Department, while also lecturing at MIT. Dr Lipson served as Professor of Mechanical & Aerospace Engineering and Computing & Information Science at Cornell University for 14 years and joined Columbia University as a Professor in Mechanical Engineering in 2015. From 2013 to 2015, he also served as Editor-in-Chief for the journal 3D Printing and Additive Manufacturing (3DP), published by Mary Ann Liebert Inc.

Dr Lipson’s broad spectrum and multi-decades of research has focused on self-aware and self-replicating robots. Dr Lipson directs the Creative Machines Lab which pioneers new ways for novel autonomous systems to design and make other machines, based on biological concepts. In total, his lab has graduated over 50 graduate students and over 20 PhD and Postdocs. Some of these students joined Lipson, in cofounding startups, while others went on to found their own companies. Lipson has coauthored over 300 publications that received over 20,000 citations. He has also coauthored the award-winning book Fabricated: The New World of 3D Printing and the book Driverless: Intelligent Cars and the Road Ahead. Forbes magazine named him one of the “World's Most Powerful Data Scientists”. His TED Talk on self-aware machines is one of the most viewed presentations on AI and robotics.

The purpose of this paper is to provide 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 his pioneering efforts in starting robotic companies and commercializing technological inventions. The paper aims to discuss these issues.

The interviewee is Jack Morrison, CEO and Co-Founder, Scythe Robotics. Morrison shares how he and his co-founders started this innovative company, the milestones and challenges he’s faced and his long-term goals.

Morrison received Bachelor of Arts degrees in Computer Science and German from Bowdoin College. He attended The George Washington University as a PhD student in Computer Science but left to co-found Replica Labs, a producer of software that turns any mobile phone into a high-quality 3D scanner. Morrison served as Replica’s CTO until it was acquired by Occipital in 2016, where he stayed on as a computer vision engineer until co-founding Scythe Robotics in April 2018.

While mowing his lawn in Colorado, Jack Morrison had a sudden insight: what if he could apply the latest robotics technology he was so familiar with to the challenge of commercialized landscaping? In 2018, Morrison teamed up with Replica Labs co-founder Isaac Roberts and Occipital’s Davis Foster, to create Scythe Robotics, a company that builds autonomous robotics solutions for the $105bn commercial landscaping industry. In June 2021, Scythe Robotics emerged from stealth with over $18m in funding with its first commercial product: a transformational, all-electric, fully autonomous mower designed to keep crew productivity high while also increasing the quality of cut and worker safety. The machine features eight high dynamic range cameras and a suite of other sensors that enable it to operate safely in dynamic environments by identifying and responding to the presence of humans, animals and other potential obstacles. Simultaneously, the machine captures valuable property and mower performance data, which helps landscape contractors improve workflow, identify upsell opportunities, schedule more efficiently and manage labor costs. The all-electric powertrain is quiet, emissions-free and radically more reliable than gas-powered manual mowers. Scythe Robotics’ business model is based on Robot as a Service. Instead of buying machines outright, customers are billed by acres mowed. This massively reduces contractors’ expenses and eliminates substantial costs. Scythe Robotics is headquartered in Boulder, Colorado and has offices in Vero Beach, FL and Austin, TX. Scythe is the recipient of the 2020 ALCC (Associated Landscape Contractors CO) Innovation Winner and the 2021 Colorado OEDIT Advanced Industries Grantee.

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 successful innovator and leader regarding the challenges of bringing technological discoveries to fruition. This paper aims to discuss these issues.

The interviewee is Dr Robin R. Murphy, Raytheon Professor of Computer Science and Engineering, Texas A&M University; Co-lead, Emergency Informatics EDGE Innovation Network Center, Texas A&M, Director of the Humanitarian Robotics and AI Laboratory and Vice President of the Center for Robot-Assisted Search and Rescue (CRASAR) http://crasar.org. In this interview, Dr Murphy provides answers to questions regarding her pioneering experiences in rescue robotics.

As a child, Dr Murphy knew she wanted to be a mechanical engineer and obtained her BME degree from Georgia Institute of Technology (Georgia Tech). While working in industry after her BME, she fell in love with computer science and received an MS and PhD in Computer Science at Georgia Tech where she was a Rockwell International Doctoral Fellow. In the mid-1990s, while teaching at the Colorado School of Mines, she pioneered rescue robots after one of her graduate students returned from the Oklahoma City bombing and suggested that small rescue robots should be developed for future disasters. The National Science Foundation awarded Murphy and her students the first grant for search-and-rescue robots. She has since assisted in responses at more than 20 worldwide disasters, including Hurricane Katrina, the Crandall Canyon Mine collapse, the Tohoku Tsunami and the Fukushima Daiichi nuclear accident.

The response to the World Trade Center attacks after September 11, 2001 by Dr Murphy’s team from the University of South Florida (the only academic institution), along with four other teams brought together by CRASAR, marked the first recorded use of a rescue robot at a disaster site. In addition to being a founder in the field of rescue robots, she is also a founder in the field of human–robot interaction and the Roboticists Without Borders. She has written over 100 publications and three books: the best-selling textbook, Introduction to AI Robotics, Disaster Robotics and Robotics-Through-Science-Fiction: Artificial Intelligence Explained Six Classic Robot Short Stories. Dr Murphy has received approximately 20 national awards and honors including: the AUVSI’s Al Aube Outstanding Contributor Award, the Eugene L. Lawler Award for Humanitarian Contributions within Computer Science and Informatics, CMU Field Robotics Institute “Pioneer in Field Robotics” and TIME Magazine, Innovators in Artificial Intelligence. She is an IEEE Fellow.