人工智能-一种现代方法 英文版
出版时间：2002
丛编项： 国外著名高等院校信息科学与技术优秀教材
内容简介
　　本书在智能Agent的概念框架下，把人工智能中相互分离的领域统一起来。全书主体内容共分为六大部分，即问题求解、知识与推理、合乎逻辑的行动、不确定知识与揄、学习，以及通信、感知与行动。本书通过Agent从感知外部环境、到实施行动、并最后对外部环境施知影响的全过程，将这六部分组织起来，形成一个相互联系的整体，使读者对人工智能有一个完整的概念，达到较好的效果。本书可以作为信息领域及相关领域的高等院校本科生和研究生的教科书或教学参考书，也可以作为相关领域的科研与工程技术人员的参考书。
目录
Ⅰ Artificial Intelligence　1
1　Introduction　3
1.1　What Is AI?　4
·Acting humanly: The Turing Test approach　5
·Thinking humanly: The cognitive modelling approach　6
·Thinking rationally: The laws of thought approach　6
·Acting rationally: The rational agent approach　7
1.2　The Foundations of Artificial Intelligence　8
·Philosophy(428 B.C.-present)　8
·Mathematics(c.800-present)　11
·Psychology (1879-present)　12
·Computer engineering(1940-present)　14
·Linguistics(1957-present)　15
1.3　The History of Artificial Intelligence　16
·The gestation of artificial Intelligence(1943-1956)　16
·Early enthusiasm, great expectations(1952-1969)　17
·A dose of reality(1966-1974)　20
·Knowledge-based systems: The key to power?(1969-1979)　22
·AI becomes an Industry(1980-1988)　24
·The return of neural networks(1986-present)　24
·Recent events(1987-present)　25
1.4　The State of the Art　26
1.5　Summary　27
Bibliographical and Historical Notes　28
Exercises　28
2　Intelligent Agents　31
2.1　Introduction　31
2.2　How Agents Should Act　31
·The Ideal mapping from percept sequences to actions　34
·Autonomy　35
2.3　Structure of Intelligent Agents　35
·Agent programs　37
·Why not just look up the answers?　38
·An example　39
·Simple reflex agents　40
·Agents that keep track of the world　41
·Goal-based agents　42
·Utility-based agents　44
2.4　Environments　45
·Properties of environments　46
·Environment programs　47
2.5　Summary　49
·Bibliographical and Historical Notes　50
·Exercises　50
Ⅱ　Problem-solving　53
3　Solving Problems by Searching　55
3.1　Problem-Solving Agents　55
3.2　Formulating Problems　57
·Knowledge and problem types　58
·Well-defined problems and solutions　60
·Measuring problem-solving performance　61
·Choosing states and actions　61
3.3　Example Problems　63
·Toy Problems　63
·Real-world problems　68
3.4　Searching for Solutions　70
·Generating action sequences　70
·Data structures for search trees　72
3.5　Search Strategies　73
·Breadth-first search　74
·Uniform cost search　75
·Depth-first search　77
·Depth-limited search　78
·Iterative deepening search　78
·Bidirectional search　80
·Comparing search strategies　81
3.6　Avoiding Repeated States　82
3.7　Constraint Satisfaction Search　83
3.8　Summary　85
Bibliographical and Historical Notes　86
Exercises　87
4　Informed Search Methods　92
4.1　Best-First Search　92
·Minimize estimated cost to reach a goal:Greedy Search　93
·Minimizing the total path cost: A* search　96
4.2　Heuristic Functions　101
·The effect of heuristic accuracy on performance　102
·Inventing heuristic functions　103
·Heuristics for constraint satisfaction problems　104
4.3　Memory bounded Search　106
·Iterative deepening A* search (IDA*)　106
·SMA* search　107
4.4　Iterative Improvement Algorithms　111
·Hill-climbing search　111
·Simulated annealing　113
·Applications in constraint Satisfaction problems　114
4.5　Summary　115
Bibliographical and Historical Notes　115
Exercises　118
5　Game Playing　122
5.1　Introduction: games as Search Problems　122
5.2　Perfect Decisions in Two-Person Games　123
5.3　Imperfect Decisions　126
·Evaluation functions　127
·Cutting off search　129
5.4　Alpha-Beta Pruning　129
·Effectiveness of alpha-beta pruning　131
5.5　Games That Include an Element of Chance　133
·Position evaluation in games with chance nodes　135
·Complexity of expectiminimax　135
5.6　State-of-the-Art Game Programs　136
·Chess　137
·Checkers or Draughts　138
·Othello　138
·Backgammon　139
·Go 139
5.7　Discussion　139
5.8　Summary　141
Bibliographical and Historical Notes　141
Exercises　145
Ⅲ　Knowledge and reasoning　149
6　Agents that Reason Logically　151
6.1　A Knowledge-Based Agent　151
6.2　The Wumpus World Environment　153
·Specifying the environment　154
·Acting and reasoning in the wumpus world　155
6.3　Representation, Reasoning, and Logic　157
·Representation　160
·Inference　163
·Logics　165
6.4　Propositional Logic: A Very Simple Logic　166
·Syntax　166
·Semantics　168
·Validity and inference　169
·Models　170
·Rules of inference for propositional logic　171
·Complexity of propositional inference　173
6.5　An Agent for the Wumpus World　174
·The knowledge base　174
·Finding the wumpus　175
·Translating knowledge into action　176
·Problems with the propositional agent　176
6.6　Summary　178
Bibliographical and Historical Notes　178
Exercises　180
7　First-Order Logic　185
7.1　Syntax and Semantics　186
·Terms　188
·Atomic sentences　189
·Complex sentences　189
·Quantifiers　189
·Equality　193
7.2　Extensions and Notational Variations　194
·Higher-order logic　195
·Functional and predicate expressions using the λ operator　195
·The uniqueness quantifier Э!　196
·The uniqueness operator ι　196
·Notational variations　196
7.3　Using First-Order Logic　197
·The kinship domain　197
·Axioms, definitions, and theorems　198
·The domain of sets　199
·Special notations for sets, lists and arithmetic　200
·Asking questions and getting answers　200
7.4　Logical Agents for the Wumpus World　201
7.5　A Simple Reflex Agent　202
Limitations of simple reflex agents　203
7.6　Representing Change in the World　203
·Situation calculus　204
·Keeping track of location　206
7.7　Deducing Hidden Properties of the World　208
7.8　Preferences Among Actions　210
7.9　Toward a Goal-Based Agent　211
7.10　Summary　211
Bibliographical and Historical Notes　212
Exercises　213
8　Building a knowledge Base　217
8.1　Properties of Good and Bad Knowledge Bases　218
8.2　Knowledge Engineering　221
8.3　The Electronic Circuits Domain　223
·Decide what to talk about　223
·Decide on a vocabulary　224
·Encode general rules　225
·Encode the specific instance　225
·Pose queries to the inference procedure　226
8.4　General Ontology　226
·Representing Categories　229
·Measures　231
·Composite objects　233
·Representing change with events　234
·Times, intervals, and actions　238
·Objects revisited　240
·Substances and objects　241
·Mental events and mental objects　243
·Knowledge and action　247
8.5　The Grocery Shopping World　247
·Complete description of the shopping simulation　248
·Organizing knowledge　249
·Menu-planning　249
·Navigating　252
·Gathering　253
·Communicating　254
·Paying　256
8.6　Summary　256
Bibliographical and Historical Notes　256
Exercises　261
9　Inference in First-Order Logic　265
9.1　Inference Rules Involving Quantifiers　265
9.2　An Example Proof　266
9.3　Generalized Modus Ponens　269
·Canonical form　270
·Unification　270
·Sample proof revisited　271
9.4　Forward and Backward Chaining　272
·Forward-chaining algorithm　273
·Backward-chaining algorithm　275
9.5　Completeness　276
9.6　Resolution: A Complete Inference Procedure　277
·The resolution inference rule　278
·Canonical forms for resolution　278
·Resolution Proofs　279
·Conversion to Normal Form　281
·Example proof　282
·Dealing with equality　284
·Resolution strategies　284
9.7　Completeness of resolution　286
9.8　Summary　290
Bibliographical and Historical Notes　291
Exercises　294
10　Logical Reasoning Systens　297
10.1　Introduction　297
10.2　Indexing, Retrieval, and Unification　299
·Implementing sentences and terms　299
·Store and fetch　299
·Table-based indexing　300
·Tree-based indexing　301
·The unification algorithm　302
10.3　Logic Programming Systems　304
·The Prolog language　304
·Implementation　305
·Compilation of logic programs　306
·Other logic programming languages　308
·Advanced control facilities　308
10.4　Theorem Provers　310
·Design of a theorem prover　310
·Extending Prolog　311
·Theorem provers as assistants　312
·Practical uses of theorem provers　313
10.5　Forward-Chaining Production Systems　313
·Match phase　314
·Conflict resolution phase　315
·Practical uses of production systems　316
10.6　Frame Systems and Semantic Networks　316
·Syntax and semantics of semantic networks　317
·Inheritance with exceptions　319
·Multiple inheritance　320
·Inheritance and change　320
·Implementation of semantic networks　321
·Expressiveness of semantic networks　323
10.7　Description Logics　323
·Practical uses of description logics　325
10.8　Managing Retractions, Assumptions, and Explanations　325
10.9　Summary　327
Bibliographical and Historical Notes　328
Exercises　332
Ⅳ Acting logically　335
11　Planning　337
11.1　A Simple Planning Agent　337
11.2　From Problem Solving to Planning　3380
11.3　Planning in Situation Calculus　341
11.4　Basic Representations for Planning　343
·Representations for states and goals　343
·Representations for actions　344
·Situation space and plan space　345
·Representations for plans　346
·Solutions　349
11.5　A Partial-Order Planning Example　349
11.6　A Partial-Order Planning Algorithm　355
11.7　Planning with Partially Instantiated Operators　357
11.8　Knowledge Engineering for Planning　359
·The blocks world　359
·Shakey's world　360
11.9　Summary　362
Bibliographical and Historical Notes　363
Exercises　364
12　Practical Planning　367
12.1　Practical Planners　367
·Spacecraft assembly, integration, and verification　367
·Job shop scheduling　369
·Scheduling for space missions　369
·Buildings, aircraft carriers, and beer factories　371
12.2　Hierarchical Decomposition　371
·Extending the language　372
·Modifying the planner　374
12.3　Analysis of Hierarchical Decomposition　375
·Decomposition and sharing　379
·Decomposition versus approximation　380
12.4　More Expressive Operator Descriptions　381
·Conditional effects　381
·Negated and disjunctive goals　382
·Universal quantification　383
·A planner for expressive operator descriptions　384
12.5　Resource Constraints　386
·Using measures in planning　386
·Temporal constraints　388
12.6　Summary　388
Bibliographical and Historical Notes　389
Exercises　390
13　Planning and Acting　392
13.1　Conditional Planning　393
·The nature of conditional plans　393
·An algorithm for generating conditional plans　395
·Extending the plan language　398
13.2　A Simple Replanning Agent　401
·Simple replanning with execution monitoring　402
13.3　Fully Integrated Planning and Execution　403
13.4　Discussion and Extensions　407
·Comparing conditional planning and replanning　407
·Coercion and abstraction　409
13.5　Summary　410
Bibliographical and Historical Notes 411
Exercises　412
Ⅴ　Uncertain knowledge and reasoning　413
14　Uncertainty　415
14.1　Acting under Uncertainty　415
·Handing uncertain knowledge　416
·Uncertainty and rational decisions　418
·Design for a decision-theoretic agent　419
14.2　Basic Probability Notation　420
·Prior probability　420
·Conditional probability　421
14.3　The Axioms of Probability　422
·Why the axioms of probability are reasonable　423
·The joint probability distribution　425
14.4　Bayes' Rule and Its Use　426
·Applying Bayes' rule: The simple case　426
·Normalization　427
·Using Bayes' rule: Combining evidence　428
14.5　Where Do Probabilities Come From?　430
14.6　Summary　431
Bibliographical and Historical Notes　431
Exercises　433
15　Probabilistic Reasoning Systems　436
15.1　Representing Knowledge in an Uncertain Domain　436
15.2　The Semantics of Belief Networks　438
·Representing the joint probability distribution　439
·Conditional independence relations in belief networks　444
15.3　Inference in Belief Networks　445
·The nature of probabilistic inferences　446
·An algorithm for answering queries　447
15.4　Inference in Multiply Connected Belief Networks　453
·Clustering methods　453
·Cutset conditioning methods　454
·Stochastic simulation methods　455
15.5　Knowledge Engineering for Uncertain Reasoning 456
·Case study: The Pathfinder system　457
15.6　Other Approaches to Uncertain Reasoning 458
·Defaulet reasoning　459
·Rule-based methods for uncertain reasoning　460
·Representing ignorance: Dempster-Shafer theory　462
·Representing vagueness: Fuzzy sets and fuzzy logic　463
15.7　Summary　464
Bibliographical and Historical Notes　464
Exercises　467
16　Making Simple Decisions　471
16.1　Combining Beliefs and Desires Under Uncertainty　471
16.2　The Basis of Utility Theory　473
·Constraints on rational preferences　473
·…and then there was Utility　474
16.3　Utility Functions　475
·The utility of money　476
·Utility　Scales and utility assessment　478
16.4　Multiattribute utility functions　480
·Dominance　481
·Preference structure and multiattribute utility　483
16.5　Decision Networks　484
·Representing a decision problem using decision net works　484
·Evaluating decision networks　486
16.6　The Value of Information　487
·A simple example　487
·A general formula　488
·Properties　of the value of information　489
·Implementing an information-gathering agent　490
16.7　Decision-Theoretic Expert Systems　491
16.8　Summary　493
Bibliographical and Historical Notes　493
Exercises　495
17　Making Complex Decision Problems　498
17.1　Sequential Decision Problems　498
17.2　Value Iteration　502
17.3　Policy Iteration　505
17.4　Decision-Theoretic Agent Design　508
·The decision cycle of a rational agent　508
·Sensing in uncertain worlds　510
17.5　Dynamic Belief Networks　514
17.6　Dynamic Decision Networks　516
·Discussion　518
17.7　Summary　519
Bibliographical and Historical Notes　520
Exercises　521
Ⅵ　Learning　523
18　Learning from Observations　525
18.1　A General Model of Learning Agents　525
·Components of the performance element　527
·Representation of the components　528
·Available feedback　528
·Prior knowledge　528
·Bringing it all together　529
18.2　Inductive Learning　529
18.3　Learning Decision Trees　531
·Decision trees as performance elements　531
·Expressiveness of decision trees　532
·Inducing decision trees from examples　534
·Assessing the performance of the learning algorithm　538
·Practical uses of decision tree learning　538
18.4　Using Information Theory　540
·Noise and overfitting　542
·Broadening the applicability of decision trees　543
18.5　Learning General Logical Descriptions　544
·Hypotheses　544
·Examples　545
·Current-best-hypothesis search　546
·Least-commitment search　549
·Discussion 552
18.6　Why Learning Works: Computational Learning Theory　552
·How many examples are needed?　553
·Learning decision lists　555
·Discussion 557
18.7　Summary　558
Bibliographical and Historical Notes　559
Exercises　560
19　Learning in Neural and Belief Networks　563
19.1　How the Brain Works　564
·Comparing brains with digital computers　565
19.2　Neural Networks　567
·Notation　567
·Simple computing elements　567
·Network structures　570
·Optimal network structure　572
19.3　Perceptrons　573
·What perceptrons can represent　573
·Learning linearly separable functions　575
19.4　Multilayer Feed-Forward Networks　578
·Back-propagation learning　578
·Back-propagation as gradient descent search　580
·Discussion　583
19.5　Applications of Neural Networks　584
·Pronunciation　585
·Handwritten character recognition　586
·Driving　586
19.6　Bayesian Methods for Learning Belief Networks　588
·Bayesian learning　588
·Belief network learning problems　589
·Learning networks with fixed structure　589
·A comparison of belief networks and neural networks　592
19.7　Summary　593
Bibliographical and Historical Notes　594
Exercises　596
20　Reinforcement Learning　598
20.1　Introduction　598
20.2　Passive Learning in a Known Environment　600
·Naive updating 601
·Adaptive dynamic programming　603
·Temporal difference learning　604
20.3　Passive Learning in an Unknown Environment　605
20.4　Active Learning in an　Unknown Environment　607
20.5　Exploration　609
20.6　Learning an Action-Value Function　612
20.7　Generalization in Reinforcement Learning　615
·Applications to game-playing　617
·Application to robot control　617
20.8　Genetic Algorithms and Evolutionary Programming　619
20.9　Summary　621
Bibliographical and Historical Notes　622
Exercises　623
21　Knowledge in Learning　625
21.1　Knowledge in Learning　625
·Some simple examples　626
·Some general schemes　627
21.2　Explanation-Based Learning　629
·Extracting general rules from examples　630
·Improving efficiency　631
21.3　Learning Using Relevance Information　633
·Determining the hypothesis space　633
·Learning and using relevance information　634
21.4　Inductive Logic Programming　636
·An example　637
·Inverse resolution　639
·Top-down learning methods　641
21.5　Summary　644
Bibliographical and Historical Notes　645
Exercises　647
Ⅶ　Communicating, perceiving, and acting　649
22　Agents that Communicate　651
22.1　Communication as Action　652
·Fundamentals of language　654
·The component steps of communication　655
·Two models　of communication　659
22.2　Types of Communicating Agents　659
·Communicating using Tell and Ask　660
·Communicating using formal language　661
·An agent that communicates　662
22.3　A Formal Grammar for a Subset of English　662
·The Lexicon of ε0　664
·The Grammar ofε0　664
22.4　Syntactic Analysis(Parsing)　664
22.5　Definite Clause Grammar(DCG)　667
22.6　Augmenting a Grammar　668
·Verb Subcategorization　669
·Generative Capacity of Augmented Grammars　671
22.7　Semantic Interpretation　672
·Semantics as DCG Augmentations　673
·The semantics of “john loves Mary”　673
·The semantics ofε1
·Converting quasi-logical form to logical form　677
·Pragmatic Interpretation　678
22.8　ambiguity and Disambiguation　680
·Disambiguation　682
22.9　A Communicating Agent　683
22.10　Summary　684
Bibliographical and Historical Notes　685
Exercises　688
23　Practical Natural Language Processing　691
23.1　Practical Applications　691
·Machine translation　691
·Database access　693
·Information retrieval　694
·Text categorization　695
·Extracting data from text　696
23.2　Efficient Parsing　701
·Extracting parses from the chart: Packing　701
23.3　Scaling Up the Lexicon　703
23.4　Scaling Up the Grammar　705
·Nominal compounds and apposition　706
·Adjective phrases　707
·Determiners　708
·Noun phrases revisited　709
·Clausal complements　710
·Relative clauses　710
·Questions　711
·Handling agrammatical strings　712
23.5　Ambiguity　712
·Syntactic evidence　713
·Lexical evidence　713
·Semantic evidence　713
·Metonymy　714
·Metaphor　715
23.6　Discourse Understanding　715
·The structure of coherent discourse　717
23.7　Summary　719
Bibliographical and Historical Notes　720
Exercises　721
24　Perception　724
24.1　Introduction　724
24.2　Image Formation　725
·Pinhole camera　725
·Lens systems　727
·Photometry of image formation　729
·Spectrophotometry of image formation　730
24.3　Image-Processing Operations for Early Vision　730
·Convolution with linear filters　732
·Edge detection　733
24.4　Extracting3-D Information Using Vision　734
·Motion　735
·Binocular stereopsis　737
·Texture gradients　742
·Shading　743
·Contour　745
24.5　Using Vision for Manipulation and Navigation　749
24.6　Object representation and Recognition　751
·The alignment method　752
·Using projective invariants　754
24.7　Speech Recognition　757
·Signal processing　758
·Defining the overall speech recognition model　760
·The language model: P(words)　760
·The acoustic model: P(signallwords)　762
·Putting the models together　764
·The search algorithm　765
·Training the model　766
24.8　Summary　767
Bibliographical and Historical Notes　767
Exercises　771

25　Robotics　773
25.1　Introduction　773
25.2　Tasks: What Are Robots Good For?　774
·Manufacturing and materials handling　774
·Gofer robots　775
·Hazardous environments　775
·Telepresence and virtual reality　776
·Augmentation of human abilities　776
25.3　Parts: What are Robots Made Of?　777
·Effectors: Tools for action　777
·Sensors: Tools for Perception　782
25.4　Architectures　786
·Classical architecture　787
·Situated automata　788
25.5　Configuration Spaces: A Framework for Analysis　790
·Generalized configuration space　792
·Recognizable Sets　795
25.6　Navigation and Motion Planning　796
·Cell decomposition　796
·Skeletonization methods　798
·Fine-motion planning　802
·Landmark-based navigation　805
·Online algorithms　806
25.7　Summary　809
Bibliographical and Historical Notes　809
Exercises　811
Ⅷ　Conclusions　815
26　Philosophical Foundations　817
26.1　The Big Questions　817
26.2　Foundations of Reasoning and Perception　819
26.3　On the Possibility of Achieving Intelligent Behavior　822
·The mathematical objection　824
·The argument from informality　826
26.4　Intentionality and Consciousness　830
·The Chinese Room　831
·The Brain Prosthesis Experiment　835
·Discussion　836
26.5　Summary　837
Bibliographical and Historical Notes　838
Exercises　840
27　AI: Present and Future　842
27.1　Have We Succeeded Yet?　842
27.2　What Exactly Are We Trying to Do?　845
27.3　What If we Do Succeed?　848
A　Complexity analysis and O() notation　851
A.1　Asymptotic Analysis　851
A.2　Inherently Hard Problems　852
Bibliographical and Historical Notes　853
B　Notes on Languages and Algorithms　854
B.1　Defining Languages with Backus-Naur Form(BNF)　854
B.2　Describing Algorithms with Pseudo-Code　855
·Nondeterminism　855
·Static variables　856
·Functions as values　856
B.3　The Code Repository　857
B.4　Comments　857
Bibliography　859
Index　905