Analyzes Heathkit's multi-sensor educational robot (Hero-l), which, unlike most industrial manipulators, is capable of moving using a set of wheels. Includes discussions of its mobility, arm manipulation, applications for controlling specific robot tasks, future research directions, and Hero-l limitations. (JN)

An instructional robotics laboratory that is unique in the United States was created in 1984 at the University of New Mexico. Descriptions of the laboratory, course work offered, student projects, and other areas are provided. (JN)

Describes the design and implementation of a simple robot manipulator. The manipulator has three degrees of freedom and is controlled by a general purpose microcomputer. The basis for the manipulator (which costs under $100) is a simple working model of a crane. (Author/JN)

A general laboratory course featuring microcomputer interfacing for data acquisition, process control and automation, and robotics was developed at Rensselaer Polytechnic Institute and is now available to all junior engineering students. The development and features of the course are described. (JN)

Because of the impetus on how to improve productivity in companies, the demand for graduating industrial engineers continues to be strong from a variety of sources. Starting salary offers for graduates have been averaging $26,784. Enrollments in industrial engineering programs are increasing (with 3,923 graduates in 1984). (JN)

Presents the listing for a TRS-80 Model III program which illustrates the first law of robotics (all robots must be programed so that none of their actions will be harmful to man). Also discusses the rational for and development of the program. (JN)

Discussion of the possibilities of introducing artificial intelligence (AI) into the undergraduate curriculum highlights the introduction of AI in an introduction to information processing course for business students at George Washington University. Topics discussed include robotics, expert systems prototyping in class, and the interdisciplinary…

Discusses why educators should not rush headlong into creating robotics curricula and suggests methods of establishing meaningful courses. Indicates that the solution to the problem of building a robotic curriculum is to incorporate the three major areas of robotics (design, operations, maintenance) into existing curricula where they best fit. (JN)

A four-hour Introduction to Robotics lecture and laboratory course is discussed. Features of the three robot types used in the course are described, as well as how they are used in instruction. A computer program listing and two sample team projects are included. (MNS)

A boom in industrial robotics has led numerous vocational institutions to launch extensive training programs in this specialty. ITT Educational Services offers two curriculum programs to train future manufacturing engineers. The firm's national director describes this model curriculum for meeting the needs of today's workforce. (JN)

Discussed are applications of robotics in the chemistry laboratory. Highlighted are issues of precision, accuracy, and system integration. Emphasized are the potential benefits of the use of robots to automate laboratory procedures. (CW)

Describes and outlines the general syllabus of a philosophy course entitled, "Minds and Robots." Lists the assigned readings and explains the issues addressed in the 14-week course. Essay questions that are used for the mid-term and final exams are also included. (ML)

Describes the features of TOPO, HERO, RB5X, and Tasman Turtle, personal robots used in elementary and secondary schools and colleges to introduce concepts of artificial intelligence, advanced high school and college computer science, and elementary level programming. Mechanical arms are also briefly mentioned. (MBR)

Describes the development of a robot whose mainframe is essentially transparent and walks on four legs. Discusses various gaits in four-legged motion. Reports on initial trials of a full-sized model without computer-control, including smoothness of motion and actual obstacle crossing features. (CW)

Compares and reviews currently available brands of steel construction sets that are useful to physics teachers for building demonstrations, prototypes of mechanisms, robotics, and remote control devices. (ZWH)