James McLurkin | Robotics Expert

James McLurkin

Robotics Expert

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Houston, TX, United States

James McLurkin
Biography

"I don't remember a time when I wasn't building something."

As a child, James McLurkin was constantly building with LEGO bricks, cardboard boxes, or any other materials he could access. Today, McLurkin continues this tradition. Using Mother Nature as a model, his core research is developing distributed algorithms for multi-robot systems: the software for large swarms of autonomous robots. Inspired by the behavior of ants and bees, the SwarmBots perform individual tasks that collectively contribute to the goals of the group. They were originally created during his five-year post as Lead Research Scientist at iRobot, one of the world's leading robotics companies.

McLurkin holds a S.B. in electrical engineering with a minor in mechanical engineering from MIT (1995), a M.S. in electrical engineering from the University of California, Berkeley (1999), and a S.M. in computer science from MIT (2004). He is currently a Ph.D. candidate in computer science at the Massachusetts Institute of Technology Computer Science and Artificial Intelligence Laboratory (CSAIL). His first robot, Rover, was constructed in 1988, and was quickly followed by many other designs, including the Robotic Ants created at the MIT Artificial Intelligence Lab for his undergraduate thesis.

As an independent consultant, McLurkin has advised many engineering projects for clients such as Walt Disney Imagineering and Sensable Technologies. Since 1995, he has lectured at companies and universities such as the Smithsonian Museum, Harvard University, IBM, and Honda Research and Development. Additionally, he is dedicated to illustrating the fun and excitement in science and engineering, and has taught classes in high school and middle school programs from physics to robotics to civil engineering, in order to help excite a future generation of engineers.

McLurkin is a native of Long Island, NY, where his parents were very encouraging and began cultivating his inventiveness and engineering prowess at a young age. From Lego bricks to BMX bicycling to programming self-designed video games, he quickly became consumed by his passion for engineering. McLurkin recounts, "I remember when I was in the 7th grade and saw the MIT 2.70 Design Competition on a NOVA special. I thought, wow, that's the coolest thing on the planet." The program featured a behind-the-scenes look at students working in a machine shop, using huge tools to build robots. "I was amazed at the machines they were building and the intensity of the competition and I realized that's where I wanted to go to school."

In 2003, McLurkin received the Lemelson-MIT Student Prize, which is awarded to burgeoning MIT student inventors. Also in 2003, he was recognized by Time Magazine as one of five leading robotics engineers in their "Rise of the Machines" feature, and by Black Enterprise magazine as a "Best and Brightest Under 40." In 2002, he was featured in the Lemelson Center's nationwide interactive traveling exhibit, Invention at Play, which began at the Smithsonian's National Museum of American History in Washington, D.C.

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Dances with Robots
The Story of One Engineer, 112 Little Robots, and the Toys, Insects, and Star Wars Movies that Made it all Possible

The presentation starts with a lighthearted look at societyʹs views on robots, Hollywoodʹs portrayal of them, the current state of the art, and the future of the technology. Philosophical questions about the nature of intelligence are discussed, as they pose serious problems for the creation of artificially intelligent devices. The final conclusion? Robots are phenomenally stupid and we should be more concerned about the next asteroid strike than a robotic rebellion. In spite of this, robots are still useful, and swarms are the future of robotics. McLurkin motivates the need for swarms of robots, and explains the technology required to produce group behaviors on one hundred robots. Live robot demonstrations and video clips of the swarm in action punctuate the main points. The presentation concludes with an autobiographical sketch that traces the events, ideas, and toys that have influenced McLurkinʹs career. Starting with cardboard boxes and tape, moving through LEGO and video games, this high‐energy slide show concludes with a behind‐the‐scenes look at the construction of the iRobot Swarm.

Extreme Lesson Plans
Adventures in Technical Education

James McLurkinʹs teaching style can be summarized as follows:
ʺWhat can I bring to class that will be so interesting that they wonʹt even taste the science?ʺ

This classic technique of bait‐and‐switch teaching can be especially helpful when introducing technical concepts in science and mathematics. The trick lies is in finding the right demonstration, real world application, or story to motivate the theory. This presentation pulls from McLurkinʹs lectures in physics, engineering, and computer science. The highlights of the presentation are on‐stage demonstrations of BMX physics, a radio‐controlled helicopter, and a small swarm of 15 robots. This presentation also has a mini‐session of ʺSwarm Schoolʺ, to illustrate how complex concepts in distributed algorithms for multi‐robot systems can be explained to high school students.

Extreme Lesson Plans Workshop
Bringing More of You to Your Classroom

This workshop covers more of McLurkinʹs lesson plans in detail, featuring hovercraft piloting lessons, and a hands‐on robot programming exercise. The focus of the workshop will be to develop Extreme Lesson Plans for as many of the participants as possible. Participants are encouraged to bring small demos or other artifacts representing their hobbies or interests.

The End of the World and Other Misconceptions
The Truth About Robotics

A lighthearted look at societyʹs views on robots, Hollywoodʹs portrayal of them, the current state of the art, and the future of the technology. Famous movie robots are used as examples of dream systems. Biological systems provide examples of “robotic” systems that we are just beginning to understand, but cannot hope to duplicate. Philosophical questions about the nature of intelligence are discussed, as they pose serious problems for the creation of Artificial Intelligence. The end result: Robots are phenomenally stupid and we should be more concerned about the next asteroid strike than a robotic rebellion.

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James McLurkin

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