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CPS 4801 artificial intelligence

CPS 4801 artificial intelligence. Instructor: Tian (Tina) Tian. About me. Email: ttian@kean.edu Office: HH-217 Office Hour: Mon, Wed 2:30 – 4:30PM Tue , Thu 3:15 – 5:00 PM Website: TBA. About the Course. Tuesdays , Thursdays 2:00 – 3:15 PM Textbook:

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CPS 4801 artificial intelligence

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  1. CPS 4801artificial intelligence Instructor: Tian (Tina) Tian

  2. About me • Email: ttian@kean.edu • Office: HH-217 • Office Hour: Mon, Wed 2:30 – 4:30PM • Tue, Thu 3:15 – 5:00 PM • Website: TBA

  3. About the Course • Tuesdays, Thursdays 2:00 – 3:15 PM • Textbook: • Artificial Intelligence: A Guild to Intelligent Systems, 2ndEdition, by Michael Negnevitsky, Addison Wesley, 2005. ISBN: 978-0-12-373602-4 • Artificial Intelligence: A Modern Approach, 3rdEdition, by Stuart Russell and Peter Norvig, Prentice Hall, 2010. ISBN: 0136042597 • Grading: • Midterm Exam 30% • Final Exam 35% • Homework and Term Paper/Project 35%

  4. What is Artificial Intelligence? • Essential English Dictionary, Collins, London, 1990: • Someone’s intelligence is their ability to understand and learn things. • Intelligence is the ability to think and understand instead of doing things by instinct or automatically. • Thinking is the activity of using your brain to consider a problem or to create an idea. • We can define intelligence as ‘the ability to learn and understand, to solve problems and to make decisions’.

  5. The Turing Test • Alan Turing, British mathematician (1912-1954) • “Computing machinery and intelligence” paper in 1950 • Can machines think? • The Turing Test (a.k.a. Turing imitation game): • Predicted that by 2000, a machine might have a 30% chance of fooling a lay person for 5 minutes • A computer passes the Turing test if human interrogators cannot distinguish the machine from a human based on answers to their questions

  6. The Turing Test • Alan Turing suggested an imitation game. • (Second phase) A person C questions two other “agents” A and B over a computer terminal. • The person C cannot see or hear A and B. • Both A and B claim they are humans. • But one of them is lying. • If C cannot detect that A is a computer, that means that A is for all practical purposes “intelligent.”

  7. Loebner Prize • The Loebner Prize is an annual competition for AI programs. • http://www.loebner.net/Prizef/loebner-prize.html • Crown Industries of East Orange, NJ • $100,000 and a Gold Medal for the first computer that passes the Turing Test. • Each year $2000 and a bronze medal is awarded to the most human-like computer.

  8. The Turing Test • Natural language processing • Knowledge representation • Automatic reasoning • Machine learning • Total Turing Test: computer vision and robotics

  9. History of AI • Warren McCulloch & Walter Pitts (1943): • Research on the human central nervous system led to a model of neurons of the brain • Birth of Artificial Neural Networks (ANN) • Binary model • Non-linear model • John von Neumann • ENIAC, EDVAC, etc.

  10. History of AI • Claude Shannon, MIT, Bell Labs (1950): • Computers playing chess • Chess game involved about 10120 possible moves! • Even examining one move per microsecond would require 3 x 10106 years to make its first move • Need to incorporate intelligence via heuristics

  11. History of AI • John McCarthy, Dartmouth, MIT (1950s): • Defined LISP • Only two years after FORTRAN • LISP is based on formal logic • “Programs with Common Sense” paper (1958) • Marvin Minsky, Princeton, MIT: • Anti-logical approach to knowledge representation and reasoning called frames (1975)

  12. History of AI • Great expectations during 1950s and 1960s • But very limited success • Researchers focused too much on all-purpose intelligent machines with goals to learn and reason with human-scale knowledge (and beyond) • Refocus on specific problem domains (1970s) • Domain-specific expert systems with facts, rules, etc. • Analyze chemicals, medical diagnoses, etc.

  13. History of AI • Evolutionary computation (1970s-today): • Natural intelligence is a product of evolution • Can we solve problems by simulatingbiological evolution? • Survival of the fittest • Genetic programming • Evolutionary computing

  14. History of AI • Rebirth of neural networks (1980s-today): • Adaptive resonance theory (Grossberg, 1980) incorporated self-organization principles • Hopfield networks (Hopfield, 1982) introduced neural networks with feedback loops • Back-propagation learning algorithm (Bryson and Ho, 1969) for training multilayer perceptrons

  15. History of AI • Knowledge engineering (1980s-today): • Fuzzy set theory (Zadeh, 1965) associates wordswith degrees of truth or value • Rule-based knowledge systems • Combine information from multiple experts • Semantic Web • Numerous hybrid approaches exist

  16. Abridged History of AI • 1943 McCulloch & Pitts: Boolean circuit model of brain • 1950 Turing's "Computing Machinery and Intelligence" • 1956 Dartmouth meeting: "Artificial Intelligence" adopted • 1952—69 Look, Ma, no hands! • 1950s Early AI programs, including Samuel's checkers program, Newell & Simon's Logic Theorist, Gelernter's Geometry Engine • 1965 Robinson's complete algorithm for logical reasoning • 1966—73 AI discovers computational complexity Neural network research almost disappears • 1969—79 Early development of knowledge-based systems • 1980-- AI becomes an industry • 1986-- Neural networks return to popularity • 1987-- AI becomes a science • 1995-- The emergence of intelligent agents

  17. State of the Art • Game playing: IBM’s Deep Blue defeated the reigning world chess champion Garry Kasparov in 1997. • Speech recognition: A traveler calling United Airlines to book a flight can have the entire conversation guided by an automatic speech recognition system. • Robotic vehicles: No hands across America (driving autonomously 98% of the time from Pittsburgh to San Diego) • Logistics planning: During the 1991 Gulf War, US forces deployed an AI logistics planning and scheduling program that involved up to 50,000 vehicles, cargo, and people. • Autonomous planning and scheduling: NASA's on-board autonomous planning program controlled the scheduling of operations for a spacecraft. • Robotics: The iRobot Corporation has sold over two million Roomba robotic vacuum cleaners for home use.

  18. Less Successful Areas of AI • Sadly the Loebner Gold Medal still has not been awarded. • Natural Language Processing is still mostly an unresolved problem.

  19. Can this be solved by computers? • Playing a decent game of table tennis (Ping-Pong).

  20. Can this be solved by computers? • Playing a decent game of table tennis (Ping-Pong). • A reasonable level of proficiency was achieved by Andersson’s robot (Andersson,1988).

  21. Can this be solved by computers? • Driving in the center of Cairo, Egypt.

  22. Can this be solved by computers? • Driving in the center of Cairo, Egypt. • No. Although there has been a lot of progress in automated driving, all such systems currently rely on certain relatively constant clues: that the road has shoulders and a center line, that the car ahead will travel a predictable course, that cars will keep to their side of the road, and so on. Some lane changes and turns can be made on clearly marked roads in light to moderate traffic. Driving in downtown Cairo is too unpredictable for any of these to work.

  23. Can this be solved by computers? • Buying a week’s worth of groceries at the market.

  24. Can this be solved by computers? • Buying a week’s worth of groceries at the market. • No. No robot can currently put together the tasks of moving in a crowded environment, using vision to identify a wide variety of objects, and grasping the objects (including squishable vegetables) without damaging them. The component pieces are nearly able to handle the individual tasks, but it would take a major integration effort to put it all together.

  25. Can this be solved by computers? • Buying a week’s worth of groceries on the Web.

  26. Can this be solved by computers? • Buying a week’s worth of groceries on the Web. • Yes. Software robots are capable of handling such tasks, particularly if the design of the web grocery shopping site does not change radically over time.

  27. Can this be solved by computers? • Writing an intentionally funny story.

  28. Can this be solved by computers? • Writing an intentionally funny story. • No. While some computer-generated prose and poetry is hysterically funny, this is invariably unintentional, except in the case of programs that echo back prose that they have memorized.

  29. Unintentionally Funny Stories • One day Joe Bear was hungry. He asked his friend Irving Bird where some honey was. Irving told him there was a beehive in the oak tree. Joe threatened to hit Irving if he didn't tell him where some honey was. The End. • Henry Squirrel was thirsty. He walked over to the river bank where his good friend Bill Bird was sitting. Henry slipped and fell in the river. Gravity drowned. The End.

  30. Can this be solved by computers? • Giving competent legal advice in a specialized area of law.

  31. Can this be solved by computers? • Giving competent legal advice in a specialized area of law. • Yes, in some cases. AI has a long history of research into applications of automated legal reasoning. One example is the Prolog-based expert systems used in the UK to guide members of the public in dealing with the intricacies of the social security and nationality laws. However, extension into more complex areas such as contract law awaits a satisfactory encoding of the vast web of common-sense knowledge pertaining to commercial transactions and agreement and business practices.

  32. Can this be solved by computers? • Translating spoken English into spoken Swedish in real time.

  33. Can this be solved by computers? • Translating spoken English into spoken Swedish in real time. • Yes. In a limited way, this is already being done.

  34. Can this be solved by computers? • Performing a complex surgical operation.

  35. Can this be solved by computers? • Performing a complex surgical operation. • Yes. Robots are increasingly being used for surgery, although always under the command of a doctor. Robotic skills demonstrated at superhuman levels include drilling holes in bone to insert artificial joints, suturing, and knot-tying. They are not yet capable of planning and carrying out a complex operation autonomously from start to finish.

  36. Reading • Chapter 1 • Computing Machinery and Intelligence by A. M. Turing, 1950

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