Vince Wilczynski
Published: 2015-12-01
Total Pages: 248
Get eBook
Similar to the information revolution that created instant access to data as a result of advancements in computers and digital communication, society is approaching a parallel development in the physical world: the arrival of the modern industrial revolution. The barriers to conceiving, producing, and controlling physical objects have been significantly reduced due to advancements in design software and manufacturing equipment. Traditionally these capabilities have been restricted to academic and industry research labs, but recent technology developments have extended these abilities to a much larger population. An increased interest in rapidly creating physical objects has resulted from developments in three key technologies: design software, manufacturing equipment, and integrated control systems. Intuitive computer-aided design (CAD) software programs enable users to quickly master the basic functions needed to design sophisticated mechanical systems. Once designed, physical devices can be manufactured with a variety of traditional and modern machines including three-dimensional (3D) printers, laser and plasma cutters, and computer controlled mills, lathes, and routers. Sensors that measure nearly any physical parameter can be easily integrated with microprocessor-based systems to monitor and control machine functions. Advancing from a sketch to a functioning object is a process in which more and more people, from a variety of backgrounds, are now participating. This book explores the technologies associated with modern and traditional methods for design, manufacturing, and control of robotic systems. Case studies illustrate methodologies that have been applied to design, manufacture, and control robotic systems designed for the 2015 FIRST® Robotics Competition (FRC®), the world's largest team-based program to interest high school students in pursuing careers in science, engineering, and technology. FIRST (For Inspiration and Recognition of Science and Technology) was founded in 1989 by inventor Dean Kamen to inspire young people's interest and participation in science and technology. Based in Manchester, N.H., the 501(c)(3) not-for-profit public charity inspires young people to be science and technology leaders by engaging them in exciting mentor-based programs that build science, technology, math, and engineering (STEM) skills; inspire innovation; and foster well-rounded life capabilities including self-confidence, communication, and leadership.