Artificial Intelligence. Definition: Artificial Intelligence is the study of how to make computers...
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Transcript of Artificial Intelligence. Definition: Artificial Intelligence is the study of how to make computers...
Definition:
Artificial Intelligence is the study of how to make computers do things at which, at the moment, people are better.
The Turing Test
According to this test, a computer could be considered to be thinking only when a human interviewer, conversing with bothan unseen human being and an unseen computer, could not determine which is which.
AI Major Areas
- Expert Systems - Natural Language Processor - Speech Recognition - Robotics - Computer Vision - Intelligent Computer-Aided Instruction - Data Mining - Genetic Algorithms
AI Advantages
1. AI is permanent 2. AI offers ease of duplication 3. AI can be less expensive than natural intelligenc 4. AI is consistent 5. AI can be documented
Natural Intelligence Advantages
1. Natural intelligence is creative. 2. Natural intelligence uses sensory experience directly, whereas most AI systems must work with symbolic input. 3. Human reasoning is able to make use at all times of a very wide context experience and bring that to bear on individual problems, where as AI systems typically gain their power by having a very narrow domain.
Characteristics of a Human Experts
- Recognize and formulate the problem - Solve the problem fairly quickly - Explain the solution - Learn from experience - Restructure knowledge - Break rules - Determine relevance - Degrade gracefully
What Do Experts Know?
It is estimated that a world-class expert, such as a chessgrandmaster, has 50,000 to 100,000 chunks of heuristic information about his/her specialty. On the average, ittakes at least 10 years to acquire 50,000 rules.
Expert Systems Components
1. Knowledge Acquisition 2. Knowledge Base 3. Inference Engine 4. User Interface 5. Explanation Facility 6. Knowledge Refining System
Different Categories of Expert SystemsCategory Problem Addressed
Interpretation Inferring situation description from observations
Prediction Inferring likely consequences of given situations
Diagnosis Inferring systems malfunctions from observations
Design Configuring objects under constraints
Planning Developing plans to achieve goals
Monitoring Comparing observations to plan vulnerabilities
Debugging Prescribing remedies for malfunctions
Repair Executing a plan to administer a prescribed remedy
Control Interpreting, predicting, repairing, and monitoring
system behavior
What Tasks Are ES Right For?
- Payroll, Inventory
- Simple Tax Returns
- Database Management
- Mortgage Computation
- Regression Analysis
- Facts are Known
- Expertise is Cheap
Too Easy - Use Conventional Software
What Tasks Are ES Right For?
- Diagnosing and Troubleshooting
- Analyzing Diverse Data
- Production Scheduling
- Equipment Layout
- Advise on Tax Shelter
- Facts are known but not precisely
- Expertise is expensive but available
Just Right
What Tasks Are ES Right For?
- Designing New Tools
- Stock Market Forecast
- Discovering New Principles
- Common Sense Problems
- Requires Innovation or Discovery
- Expertise is not available
Too Hard - Requires Human Intelligence
Problems and Limitations
of Expert Systems
- Knowledge is not always readily available. - Expertise is hard to extract from humans. - ES work well only in a narrow domain. - The approach of each expert to problem under consideration may be different, yet correct.
Necessary Requirements for
ES Development
- The task does not require common sense. - The task requires only cognitive, not physical, skills. - There is an expert who is willing to cooperate. - The experts involved can articulate their methods of problem solving. - The task is not too difficult. - The task is well understood, and is defined clearly. - The task definition is fairly stable. - Problem must be well bounded and narrow.
Justification for
ES Development
- The solution to the problem has a high payoff. - The ES can capture scarce human expertise so it will not be lost. - The expertise is needed in many locations. - The expertise is needed in hostile or hazardous environment. - The system can be used for training. - The ES is more dependable and consistent than human expert.
Feasibility Study
A. Financial Feasibility Cost of system development Cost of maintenance Payback period Cash flow analysis
B. Technical Feasibility Interface requirements Network issues Availability of data and knowledge
Security of confidential knowledge Knowledge representation scheme Hardware/software availability Hardware/software compatibility