Stanford arm

In 1969, Scheinman invented the Stanford arm,^[2]: 4.5 an all-electric, 6-axis articulated robot designed to permit an arm solution in closed form.^[6][7] The three wrist axes intersect at a point, as prescribed by Pipers thesis. This allowed the robot to accurately follow arbitrary paths in space under computer control and widened the potential use of the robot to more sophisticated applications such as assembly and arc welding. The robot also had brakes on each axis, allowing it to be controlled with a time-shared computer. The design became his engineer's degree thesis.^[2]: 4.4

After completing his engineer's degree, Scheinman went to work for RacChem, designing automatic machines that would use RacChem's shrink plastic products.^[2]: 4.5 After about a year, Stanford asked him to come back as an employee of the AI lab and build the robot he had designed. He completed the first arm, the Gold arm, and was asked to build a second, the Blue arm, to allow experiments in arm coordination with vision. Other organizations wanted the arm, including SRI and Boston University, so Scheinman built kits for them that could be completed by a commercial machine shop.^[2]: 4.5

MIT arm

Around 1972, Scheinman was asked by MIT's Marvin Minsky to design a more compact arm. Minsky had funding from DARPA for a new robot and had visions of using it for remotely supervised surgery. Scheinman spent the summer at the MIT AI lab, designing a new arm that became the MIT Arm, completing the design back at Stanford. Like the Stanford arm, the new arm featured a wrist with all axes intersecting, allowing a closed-form arm solution, but now all the axes were revolute, unlike the Stanford arm which had a prismatic joint. The arm had a shell structure made of sheet metal, instead of beams, that contained all the wiring. It also used specially designed gear trains, in part to minimize backlash, and custom electric motors, rather than only off-the-shelf components.^[2]: 4.5

In 1973, Scheinman started Vicarm Inc. to manufacture his robot arms, hiring Brian Carlisle and Bruce Shimano, who later helped found Adept Robotics. Vicarm got orders for copies of the Stanford arm and MIT arm from various research organizations, including universities, General Motors, the National Bureau of Standards, AT&T, and the Naval Research Laboratory. The company soon offered a controller for the robots, using a Digital Equipment Corporation LSI-11, with 6502 microprocessors controlling the servos for each joint, including the end effector. They also developed a language, VAL, for controlling the robot.^[2]: 4.6

PUMA and Unimation

While studying at Stanford, Scheinman was awarded a fellowship sponsored by George Devol, the inventor of the Unimate, the first industrial robot. Scheinman traveled with Devol and Joe Engelberger to Unimation and several of its customers, observing robot applications, including loading and unloading machines, handling material, and early attempts to do spot welding. These early robots were hydraulic and programmed by teaching the robot a series of individual points that the robot would repeat each cycle. Some path control could be achieved by defining many intermediated points, but true path following was not possible.

The Vicarm and its controller were small enough to be portable and Scheinman brought one to Unimation and set it up on Engelberger's desk, demonstrating the true path control that Unimation's robots could not achieve. He also brought an arm to an early robot trade show at the University of Illinois but was told it was a toy and could not be in the show, so he set it up on the front steps with an extension for power, attracting many researchers who understood its programmability advantage. Engelberger then invited him to bring the robot into his Unimation booth at the show.^[2]: 4.7 Scheinman was then approached by General Motors (GM) who wanted a bigger version of his arm for a robotic assembly concept they were developing but were concerned about his small company's ability to supply them, encouraging Scheinman to find a larger partner.^[2]: 4.7 In 1977, Scheinman sold his design to Unimation, who further developed it, with support from GM, as the Programmable Universal Machine for Assembly (PUMA).^[2]: 4.9 He served for a couple of years as General Manager of Unimation's West Coast division.

Automatix

In 1979, Scheinman was approached by Philippe Villers, then at Computervision, to join a new robotics and machine vision company he was forming as co-founder and vice-president. Automatix, which started operations in January 1980, was based in Massachusetts, but Scheinman ran its west coast office,^[2]: 4.8 where he developed RobotWorld, an automation system based on the concept that robots should operate in their own workspace, where there would be no potential conflicts with humans. It consisted of cooperating small modules suspended from a 2-D linear motor that formed the roof of the workspace. The West Coast office also supported other Automatix product development by designing components such as robot wrists. In the early 1990s, Automatix decided to stop selling robots because the application engineering required for each robot installation could exceed the cost of the robot itself by a factor of three or four and wasn't profitable. The RobotWorld product line was sold to Yaskawa,^[8] which offered them for biological lab automation and small part assembly.^[9] Scheinman worked for Yaskawa as a consultant for several years, and seven to eight hundred RobotWorld-based systems were sold.^[2]: 4.8