Hans Moravec

Hans P. Moravec
Born (1948-11-30) November 30, 1948 (age 74)
NationalityCanadian (U.S. Permanent Resident)
Alma materBSc: Acadia University
MSc: University of Western Ontario
PhD: Stanford University
Known forMoravec's corner detector
Moravec's paradox
Bush robot
Occupancy grid mapping
Quantum suicide and immortality
Rotating skyhook
Rotovator
Stanford Cart
Scientific career
FieldsRobotics, artificial intelligence
InstitutionsCarnegie Mellon University
Stanford University
ThesisObstacle avoidance and navigation in the real world by a seeing robot rover (1980)
Doctoral advisorJohn McCarthy

Hans Peter Moravec (born November 30, 1948, Kautzen, Austria) is an adjunct faculty member at the Robotics Institute of Carnegie Mellon University in Pittsburgh, USA. He is known for his work on robotics, artificial intelligence, and writings on the impact of technology. Moravec also is a futurist with many of his publications and predictions focusing on transhumanism. Moravec developed techniques in computer vision for determining the region of interest (ROI) in a scene.

Career

Moravec attended Loyola College in Montreal for two years and transferred to Acadia University, where he received his BSc in mathematics in 1969. He received his MSc in computer science in 1971 from the University of Western Ontario. He then earned a PhD from Stanford University in 1980 for a TV-equipped robot which was remote controlled by a large computer (the Stanford Cart). The robot was able to negotiate cluttered obstacle courses. Another achievement in robotics was the discovery of new approaches for robot spatial representation such as 3D occupancy grids. He also developed the idea of bush robots.

Moravec joined the newly established Robotics Institute at Carnegie Mellon in 1980 as a research scientist, becoming research professor in 1995. He has been an adjunct professor at the institute since 2005.

Moravec was a cofounder of Seegrid Corporation of Pittsburgh, Pennsylvania, in 2003 which is a robotics company with one of its goals being to develop a fully autonomous robot capable of navigating its environment without human intervention.

He is also somewhat known for his work on space tethers.

Publications

  • 1988 – Sensor Fusion in Certainty Grids for Mobile Robots appeared in AI Magazine.

Books

Mind Children

In his 1988 book Mind Children, Moravec outlines Moore's law and predictions about the future of artificial life. Moravec outlines a timeline and a scenario in this regard, in that the robots will evolve into a new series of artificial species, starting around 2030–2040.

Moravec also outlined the "neural substitution argument" in Mind Children: 109-122 , published 7 years before David Chalmers published a similar argument in his paper "Absent Qualia, Fading Qualia, Dancing Qualia", which is sometimes cited as the source of the idea. The neural substitution argument is that if each neuron in a conscious brain can be replaced successively by an electronic substitute with the same behavior as the neuron it replaces, then a biological consciousness would be transferred seamlessly into an electronic computer, thus proving that consciousness does not depend on biology and can be treated as an abstract computable process.

Robot: Mere Machine to Transcendent Mind

In Robot: Mere Machine to Transcendent Mind (ISBN 0195136306), published in 1998, Moravec further considers the implications of evolving robot intelligence, generalizing Moore's law to technologies predating the integrated circuit, and extrapolating it to predict a coming "mind fire" of rapidly expanding superintelligence.

Arthur C. Clarke wrote about this book: "Robot is the most awesome work of controlled imagination I have ever encountered: Hans Moravec stretched my mind until it hit the stops." David Brin also praised the book: "Moravec blends hard scientific practicality with a prophet's far-seeing vision." On the other hand, the book was reviewed less favorably by Colin McGinn for The New York Times. McGinn wrote, "Moravec … writes bizarre, confused, incomprehensible things about consciousness as an abstraction, like number, and as a mere "interpretation" of brain activity. He also loses his grip on the distinction between virtual and real reality as his speculations spiral majestically into incoherence."

See also


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