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Timms, Michael J. – International Journal of Artificial Intelligence in Education, 2016
This paper proposes that the field of AIED is now mature enough to break away from being delivered mainly through computers and pads so that it can engage with students in new ways and help teachers to teach more effectively. Mostly, the intelligent systems that AIED has delivered so far have used computers and other devices that were essentially…
Descriptors: Artificial Intelligence, Educational Technology, Robotics, Intelligent Tutoring Systems
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Deal, Walter F., III; Hsiung, Steve C. – Technology Teacher, 2007
Robotics is a rich and exciting multidisciplinary area to study and learn about electronics and control technology. The interest in robotic devices and systems provides the technology teacher with an excellent opportunity to make many concrete connections between electronics, control technology, and computers and science, engineering, and…
Descriptors: Space Exploration, Electronics, Robotics, Technological Advancement
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Hanssen, Sarah – Community College Journal of Research and Practice, 2016
Today's students prioritize employment; they want to be sure that there will be work for them upon graduation. Film and media students, in particular, need a long list of computer software and film equipment skills on their resumes, especially newer technologies that professionals in the workforce have not yet mastered. Consider, in this regard,…
Descriptors: Technological Advancement, Skill Development, Educational Needs, Capacity Building
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Johnson, W. Lewis; Lester, James C. – International Journal of Artificial Intelligence in Education, 2016
Johnson et al. ("International Journal of Artificial Intelligence in Education," 11, 47-78, 2000) introduced and surveyed a new paradigm for interactive learning environments: animated pedagogical agents. The article argued for combining animated interface agent technologies with intelligent learning environments, yielding intelligent…
Descriptors: Teaching Methods, Intelligent Tutoring Systems, Outcomes of Education, Computer Assisted Instruction
Industrial Education, 1984
Discusses employment opportunities in robotics. (JOW)
Descriptors: Employment Opportunities, Job Applicants, Robotics, Technological Advancement
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Reed, Philip A. – Technology Teacher, 2003
Reviews developments in telemedicine and a number of related areas (telecommunications, virtual presence, informatics, artificial intelligence, robotics, materials science, and perceptual psychology). Provides learning activities for technology education. (SK)
Descriptors: Learning Activities, Medicine, Robotics, Technological Advancement
Patton, Madeline – American Association of Community Colleges (NJ1), 2008
This publication presents the following articles: (1) Advanced Technological Education (ATE) Develops Student Recruitment and Retention Strategies; (2) Marketer Advises Tech Educators Appeal to Teens' Emotions, Desires to Do Something Important; (3) Digital Bridge Academy Gets At-Risk Students on Paths to Knowledge-Based Careers; (4) Project…
Descriptors: Technology Education, STEM Education, Community Colleges, Human Capital
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Technology Teacher, 1990
Discusses the current status of robots and robotics and the direction robot technology is heading. (JOW)
Descriptors: Higher Education, Illustrations, Industrial Education, Robotics
Mulford, Carolyn – Vocational Education Journal, 1995
Describes robotics programs that can be used at the middle school, high school, and university. (JOW)
Descriptors: Elementary Secondary Education, Higher Education, Robotics, Technological Advancement
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Whitman, Jim – Bulletin of Science, Technology and Society, 2006
The convergence of several technological systems (especially nanotechnology, biotechnology, information technology, and robotics) has now been adopted as a strategic goal by several countries, most notably the United States and those of the European Union. The anticipated benefits and related fears of competitive disadvantage have brought together…
Descriptors: Governance, Risk, Biotechnology, Information Technology
Simkins, Michael – Technology & Learning, 2008
Robots that can learn new behaviors. Robots that can reproduce themselves. Science fiction? Not anymore. Roboticists at Cornell's Computational Synthesis Lab have developed just such engineered creatures that offer interesting implications for education. The team, headed by Hod Lipson, was intrigued by the question, "How can you get robots to be…
Descriptors: Robotics, Research and Development, Technological Advancement, Scientific Research
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Albus, James S. – Futurist, 1984
Spectacular advances in microcomputers are forging new technological frontiers in robotics. For example, many factories will be totally automated. Economic implications of the new technology of robotics for the future are examined. (RM)
Descriptors: Automation, Economic Factors, Economics, Employment Problems
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Mauch, Elizabeth – Clearing House, 2001
Describes the creation of an innovative problem-solving course for middle school teachers (based on the LEGO Mindstorms Robotic Invention System) intended to use a combination of logic, hands-on experience, and a modicum of trial and error to help middle school students identify the processes behind effectively solving problems. (SR)
Descriptors: Course Descriptions, Intermediate Grades, Junior High Schools, Middle School Students
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Bers, Marina Umaschi – Applied Developmental Science, 2006
This article describes a developmental systems approach to applied developmental science (ADS), which provides a framework to design and evaluate technology-rich programs that promote positive development by emphasizing the strengths and assets of young people instead of focusing on diminishing or preventing risk-taking behaviors. Until now, most…
Descriptors: Child Development, Adolescent Development, Systems Approach, Technological Advancement
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Deal, Walter F., III – Technology Teacher, 1998
Describes how microcontrollers affect our lives--from automobile control systems to microwave ovens. Includes information on robotics, electronics, and control technology. (JOW)
Descriptors: Electronics, Microcomputers, Robotics, Technological Advancement
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