Mercurial > cortex
changeset 382:9b3487a515a7
merge
author | Robert McIntyre <rlm@mit.edu> |
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date | Tue, 16 Apr 2013 03:51:41 +0000 |
parents | 9ac42f1fdf0a (diff) 2d0afb231081 (current diff) |
children | 31814b600935 |
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diffstat | 1 files changed, 618 insertions(+), 0 deletions(-) [+] |
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1.1 --- /dev/null Thu Jan 01 00:00:00 1970 +0000 1.2 +++ b/org/ai-journal-review.org Tue Apr 16 03:51:41 2013 +0000 1.3 @@ -0,0 +1,618 @@ 1.4 +#+title:Interesting Papers in Artificial Intelligence 1.5 + 1.6 +* Interesting Concept 1.7 + 1.8 +Jordi Delgado - Emergence of social conventions in complex networks 1.9 + 1.10 +Marcelo A. Falappa, Gabriele Kern-Isberner, Guillermo R. Simari - 1.11 +Explanations, belief revision and defeasible reasoning 1.12 + 1.13 +Claudio Bettini, X.Sean Wang, Sushil Jajodia - Solving 1.14 +multi-granularity temporal constraint networks 1.15 + 1.16 +Alberto Maria Segre, Sean Forman, Giovanni Resta, Andrew Wildenberg - 1.17 +Nagging: A scalable fault-tolerant paradigm for distributed search 1.18 + 1.19 +Fahiem Bacchus, Xinguang Chen, Peter van Beek, Toby Walsh - Binary 1.20 +vs. non-binary constraints 1.21 + 1.22 +Jie Cheng, Russell Greiner, Jonathan Kelly, David Bell, Weiru Liu - 1.23 +Learning Bayesian networks from data: An information-theory based 1.24 +approach 1.25 + 1.26 +Kurt Engesser, Dov M. Gabbay - Quantum logic, Hilbert space, revision 1.27 +theory 1.28 + 1.29 +J.-D. Fouks, L. Signac - The problem of survival from an algorithmic 1.30 +point of view 1.31 + 1.32 +Catherine Carr - The MIT Encyclopedia of the Cognitive Sciences, 1.33 +edited by Robert Wilson and Frank Keil 1.34 + 1.35 +Tim Taylor - Christoph Adami, Introduction to Artificial Life 1.36 + 1.37 +Gary William Flake - G.W. Flake, The Computational Beauty of Nature 1.38 + 1.39 +A.S d'Avila Garcez, K Broda, D.M Gabbay - Symbolic knowledge 1.40 +extraction from trained neural networks: A sound approach 1.41 + 1.42 +José Hernández-Orallo - Truth from Trash. How Learning Makes Sense by 1.43 +Chris Thornton 1.44 + 1.45 +Fabio G. Cozman - Credal networks 1.46 + 1.47 +Aaron N. Kaplan, Lenhart K. Schubert - A computational model of belief 1.48 + 1.49 +Mike Perkowitz, Oren Etzioni - Towards adaptive Web sites: Conceptual 1.50 +framework and case study 1.51 + 1.52 +Wilhelm Rödder - Conditional logic and the Principle of Entropy 1.53 + 1.54 +Christian Vilhelm, Pierre Ravaux, Daniel Calvelo, Alexandre Jaborska, 1.55 +Marie-Christine Chambrin, Michel Boniface - Think!: A unified 1.56 +numerical–symbolic knowledge representation scheme and reasoning 1.57 +system 1.58 + 1.59 +Charles L. Ortiz Jr. - A commonsense language for reasoning about 1.60 +causation and rational action 1.61 + 1.62 +Raúl E. Valdés-Pérez - Principles of human—computer collaboration for 1.63 +knowledge discovery in science 1.64 + 1.65 +Paul Snow - The vulnerability of the transferable belief model to 1.66 +Dutch books 1.67 + 1.68 +Simon Kasif, Steven Salzberg, David Waltz, John Rachlin, David W. Aha 1.69 +- A probabilistic framework for memory-based reasoning 1.70 + 1.71 +Geoffrey LaForte, Patrick J. Hayes, Kenneth M. Ford - Why Gödel's 1.72 +theorem cannot refute computationalism 1.73 + 1.74 +Hiroshi Motoda, Kenichi Yoshida - Machine learning techniques to make 1.75 +computers easier to use 1.76 + 1.77 +Aravind K. Joshi - Role of constrained computational systems in 1.78 +natural language processing 1.79 + 1.80 +Moshe Tennenholtz - On stable social laws and qualitative equilibria 1.81 + 1.82 +Michael Arbib - The metaphorical brains 1.83 + 1.84 +Andrew Gelsey, Mark Schwabacher, Don Smith - Using modeling knowledge 1.85 +to guide design space search 1.86 + 1.87 +Márk Jelasity, József Dombi - GAS, a concept on modeling species in 1.88 +genetic algorithms 1.89 + 1.90 +Randall H. Wilson - Geometric reasoning about assembly tools 1.91 + 1.92 +Kurt Ammon - An automatic proof of Gödel's incompleteness theorem 1.93 + 1.94 +Shmuel Onn, Moshe Tennenholtz - Determination of social laws for 1.95 +multi-agent mobilization 1.96 + 1.97 +Yoav Shoham, Moshe Tennenholtz - On the emergence of social 1.98 +conventions: modeling, analysis, and simulations 1.99 + 1.100 +Stuart J. Russell - Rationality and intelligence 1.101 + 1.102 +Hidde de Jong, Arie Rip - The computer revolution in science: steps 1.103 +towards the realization of computer-supported discovery environments 1.104 + 1.105 +Adnan Darwiche, Judea Pearl - On the logic of iterated belief revision 1.106 + 1.107 +R.C. Holte, T. Mkadmi, R.M. Zimmer, A.J. MacDonald - Speeding up 1.108 +problem solving by abstraction: a graph oriented approach 1.109 + 1.110 +R. Holte, T. Mkadmi, R.M. Zimmer, A.J. McDonald - Speeding up problem 1.111 +solving by abstraction: a graph oriented approach 1.112 + 1.113 +Raúl E. Valdés-Pérez - A new theorem in particle physics enabled by 1.114 +machine discovery 1.115 + 1.116 +Dan Roth - On the hardness of approximate reasoning 1.117 + 1.118 +Bart Selman, David G. Mitchell, Hector J. Levesque - Generating hard 1.119 +satisfiability problems 1.120 + 1.121 +Herbert A. Simon - Artificial intelligence: an empirical science 1.122 + 1.123 +John K. Tsotsos - Behaviorist intelligence and the scaling problem 1.124 + 1.125 +Shigeki Goto, Hisao Nojima - Equilibrium analysis of the distribution 1.126 +of information in human society 1.127 + 1.128 +Raúl E. Valdés-Pérez - Machine discovery in chemistry: new results 1.129 + 1.130 +Stephen W. Smoliar - Artificial life: Christopher G. Langton, ed. 1.131 + 1.132 +Yoav Shoham, Moshe Tennenholtz - On social laws for artificial agent 1.133 +societies: off-line design 1.134 + 1.135 +Barbara Hayes-Roth - An architecture for adaptive intelligent systems 1.136 + 1.137 +Bruce Randall Donald - On information invariants in robotics 1.138 + 1.139 +Ian P. Gent, Toby Walsh - Easy problems are sometimes hard 1.140 + 1.141 +Tad Hogg, Colin P. Williams - The hardest constraint problems: A 1.142 +double phase transition 1.143 + 1.144 +Yoram Moses, Yoav Shoham - Belief as defeasible knowledge 1.145 + 1.146 +Donald Michie - Turing's test and conscious thought 1.147 + 1.148 +John McDermott - R1 (“XCON”) at age 12: lessons from an elementary 1.149 +school achiever 1.150 + 1.151 +Takeo Kanade - From a real chair to a negative chair 1.152 + 1.153 +Berthold K.P. Horn, B.G. Schunck - “Determining optical flow”: a 1.154 +retrospective 1.155 + 1.156 +Harry G. Barrow, J.M. Tenenbaum - Retrospective on “Interpreting line 1.157 +drawings as three-dimensional surfaces” 1.158 + 1.159 +Judea Pearl - Belief networks revisited 1.160 + 1.161 +Glenn A. Kramer - A geometric constraint engine 1.162 + 1.163 +Fausto Giunchiglia, Toby Walsh - A theory of abstraction 1.164 + 1.165 +John L. Pollock - How to reason defeasibly 1.166 + 1.167 +Aaron Sloman - The emperor's real mind: Review of Roger Penrose's the 1.168 +emperor's new mind: Concerning computers, minds and the laws of 1.169 +physics 1.170 + 1.171 +Olivier Dordan - Mathematical problems arising in qualitative 1.172 +simulation of a differential equation 1.173 + 1.174 +Eric Saund - Putting knowledge into a visual shape representation 1.175 + 1.176 +Michael Freund, Daniel Lehmann, Paul Morris - Rationality, 1.177 +transitivity, and contraposition 1.178 + 1.179 +Anthony S. Maida - Maintaining mental models of agents who have 1.180 +existential misconceptions 1.181 + 1.182 +Henry A. Kautz, Bart Selman - Hard problems for simple default logics 1.183 + 1.184 +Mark J. Stefik, Stephen Smoliar - Four reviews of The Society of Mind 1.185 +and a response 1.186 + 1.187 +Michael G. Dyer - A society of ideas on cognition: Review of Marvin 1.188 +Minsky's The Society of Mind 1.189 + 1.190 +Matthew Ginsberg - The society of mind: Marvin Minsky 1.191 + 1.192 +George N. Reeke Jr - The society of mind: Marvin Minsky 1.193 + 1.194 +Stephen W. Smoliar - The society of mind: Marvin Minsky 1.195 + 1.196 +Marvin Minsky - Society of mind: A response to four reviews 1.197 + 1.198 +Stephen W. Smoliar - How to build a person: A prolegomenon: John 1.199 +Pollock 1.200 + 1.201 +David Makinson, Karl Schlechta - Floating conclusions and zombie 1.202 +paths: Two deep difficulties in the “directly skeptical” approach to 1.203 +defeasible inheritance nets 1.204 + 1.205 +Donald A. Norman - Approaches to the study of intelligence 1.206 + 1.207 +Rodney A. Brooks - Intelligence without representation 1.208 + 1.209 +David Kirsh - Today the earwig, tomorrow man? 1.210 + 1.211 +Douglas B. Lenat, Edward A. Feigenbaum - On the thresholds of 1.212 +knowledge 1.213 + 1.214 +Jordan B. Pollack - Recursive distributed representations 1.215 + 1.216 +R. Bhaskar, Anil Nigam - Qualitative physics using dimensional 1.217 +analysis 1.218 + 1.219 +Don F. Beal - A generalised quiescence search algorithm 1.220 + 1.221 +Kai-Fu Lee, Sanjoy Mahajan - The development of a world class Othello 1.222 +program 1.223 + 1.224 +Helmut Horacek - Reasoning with uncertainty in computer chess 1.225 + 1.226 +Jeff Shrager - Induction: Process of inference, learning and 1.227 +discovery: John H. Holland, Keith J. Holyoak, Richard E. Nisbett, and 1.228 +Paul R. Thagard (MIT Press, Cambridge, MA, 1986); 355 pages 1.229 + 1.230 +Daniel S. Weld - The psychology of everyday things: Donald A. Norman, 1.231 +(Basic Books, New York, 1988); 257 pages, $19.95 1.232 + 1.233 +John R. Anderson - A theory of the origins of human knowledge 1.234 + 1.235 +G. Tesauro, T.J. Sejnowski - A parallel network that learns to play 1.236 +backgammon 1.237 + 1.238 +G. Priest - Reasoning about truth 1.239 + 1.240 +Donald Perlis - Truth and meaning 1.241 + 1.242 +Daniel S. Weld - Women, fire, and dangerous things: George Lakoff, 1.243 +(University of Chicago Press, Chicago, IL, 1987); 614 pages, $29.95 1.244 + 1.245 +Mark J. Stefik - On book reviews policy and process 1.246 + 1.247 +Robert K. Lindsay - The science of the mind: Owen J. Flanagan, Jr., 1.248 +(MIT Press, Cambridge, MA, 1984); 290 pages 1.249 + 1.250 +Sheila Rock - On machine intelligence: Donald Michie, 2nd ed. (Ellis 1.251 +Horwood, Chichester, United Kingdom, 1986); 265 pages, £29.95 1.252 + 1.253 +Stephen W. Smoliar - Epistemology and cognition: A.I. Goldman, 1.254 +(Harvard University Press, Cambridge, MA, 1986); ix + 437 pages, 1.255 +$27.50 1.256 + 1.257 +David Elliot Shaw - On the range of applicability of an artificial 1.258 +intelligence machine 1.259 + 1.260 +Michael Gordon - Machine intelligence and related topics: An 1.261 +information scientist's weekend book: Donald Michie, (Gordon and 1.262 +Breach, New York, 1982); 328 pages, $57.75 1.263 + 1.264 +Ryszard S. Michalski, Patrick H. Winston - Variable precision logic 1.265 + 1.266 +Martin Herman, Takeo Kanade - Incremental reconstruction of 3D scenes 1.267 +from multiple, complex images 1.268 + 1.269 +vision : June 8–11, 1987, London, United Kingdom 1.270 + 1.271 +André Vellino - Artificial intelligence: The very idea: J. Haugeland, 1.272 +(MIT Press, Cambridge, MA, 1985); 287 pp. 1.273 + 1.274 +Judea Pearl - Fusion, propagation, and structuring in belief networks 1.275 + 1.276 +Daniel G. Bobrow - Scientific debate 1.277 + 1.278 +Mark Stefik - The AI business: Commercial uses of artificial 1.279 +intelligence: P.H. Winston and K.A. Prendergast, (MIT Press, 1.280 +Cambridge, MA 1984); 324 pages, $15.95 1.281 + 1.282 +Hans Berliner, Carl Ebeling - The SUPREM architecture: A new 1.283 +intelligent paradigm 1.284 + 1.285 +Donna Reese - Artificial intelligence: P.H. Winston, (Addison-Wesley, 1.286 +Reading, MA, 2nd ed., 1984); 527 pages 1.287 + 1.288 +Kenneth D. Forbus - Structure and interpretation of computer programs: 1.289 +H. Abelson and G.J. Sussman with J. Sussman, (MIT, Cambridge, 1985); 1.290 +503 pages 1.291 + 1.292 +Chia-Hoang Lee, Azriel Rosenfeld - Improved methods of estimating 1.293 +shape from shading using the light source coordinate system 1.294 + 1.295 +Daniel G. Bobrow, Patrick J. Hayes - Artificial intelligence — Where 1.296 +are we? 1.297 + 1.298 +Barbara J. Grosz - Natural-language processing 1.299 + 1.300 +Johan De Kleer - How circuits work 1.301 + 1.302 +G.D. Ritchie, F.K. Hanna - am: A case study in AI methodology 1.303 + 1.304 +Douglas B. Lenat, John Seely Brown - Why am and eurisko appear to work 1.305 + 1.306 +Elaine Kant - On the efficient synthesis of efficient programs 1.307 + 1.308 +Randall Davis, Reid G. Smith - Negotiation as a metaphor for 1.309 +distributed problem solving 1.310 + 1.311 +Patrick H. Winston - Learning new principles from precedents and 1.312 +exercises 1.313 + 1.314 +Paul S. Rosenbloom - A world-championship-level Othello program 1.315 + 1.316 +Tomas Lozano-Perez - Robotics 1.317 + 1.318 +Tom M. Mitchell - Generalization as search 1.319 + 1.320 +Dana S. Nau - The last player theorem 1.321 + 1.322 +Hans J. Berliner - Backgammon computer program beats world champion 1.323 + 1.324 +Gerald Jay Sussman, Guy Lewis Steele Jr. - Constraints—A language for 1.325 +expressing almost-hierarchical descriptions 1.326 + 1.327 +Takeo Kanade - A theory of Origami world 1.328 + 1.329 +Ria Follett - Synthesising recursive functions with side effects 1.330 + 1.331 +John McCarthy - Circumscription—A form of non-monotonic reasoning 1.332 + 1.333 +Michael A. Bauer - Programming by examples 1.334 + 1.335 +Patrick H. Winston - Learning by creatifying transfer frames 1.336 + 1.337 +Alan Bundy - Will it reach the top? Prediction in the mechanics world 1.338 + 1.339 +Richard M. Stallman, Gerald J. Sussman - Forward reasoning and 1.340 +dependency-directed backtracking in a system for computer-aided 1.341 +circuit analysis 1.342 + 1.343 +D. Marr - Artificial intelligence—A personal view 1.344 + 1.345 +Berthold K.P. Horn - Understanding image intensities 1.346 + 1.347 +F. Malloy Brown - Doing arithmetic without diagrams 1.348 + 1.349 +Azriel Rosenfeld - The psychology of computer vision: Patrick Henry 1.350 +Winston (ed.) McGraw-Hill, New York, 1975, vi+282 pages, $19.50 1.351 + 1.352 +R.C.T. Lee - On machine intelligence: D. Michie. Halstead Press, a 1.353 +division of John Wiley & Sons, 1974. 1.354 + 1.355 +W.W. Bledsoe, Peter Bruell - A man-machine theorem-proving system 1.356 + 1.357 +Gary G. Hendrix - Modeling simultaneous actions and continuous 1.358 +processes 1.359 + 1.360 +Yoshiaki Shirai - A context sensitive line finder for recognition of 1.361 +polyhedra 1.362 + 1.363 +Kenneth Mark Colby, Franklin Dennis Hilf, Sylvia Weber, Helena C 1.364 +Kraemer - Turing-like indistinguishability tests for the validation of 1.365 +a computer simulation of paranoid processes 1.366 + 1.367 +Aaron Sloman - Interactions between philosophy and artificial 1.368 +intelligence: The role of intuition and non-logical reasoning in 1.369 +intelligence 1.370 + 1.371 +* Story related 1.372 + 1.373 +Charles B. Callaway, James C. Lester - Narrative prose generation 1.374 + 1.375 +Katja Markert, Udo Hahn - Understanding metonymies in discourse 1.376 + 1.377 +Kathleen R. McKeown, Steven K. Feiner, Mukesh Dalal, Shih-Fu Chang - 1.378 +Generating multimedia briefings: coordinating language and 1.379 +illustration 1.380 + 1.381 +Varol Akman - Formalizing common sense: Papers by John McCarthy: 1.382 +V. Lifschitz, ed., (Ablex Publishing Corporation, Norwood, NJ, 1990); 1.383 +vi+256 pages, hardback, ISBN 0-89391-535-1 (Library of Congress: 1.384 +Q335.M38 1989) 1.385 + 1.386 +Akira Shimaya - Interpreting non-3-D line drawings 1.387 + 1.388 +Adam J. Grove - Naming and identity in epistemic logic part II: a 1.389 +first-order logic for naming 1.390 + 1.391 +Luc Lismont, Philippe Mongin - A non-minimal but very weak 1.392 +axiomatization of common belief 1.393 + 1.394 +on integration of natural language and vision processing 1.395 + 1.396 +Russell Greiner - Learning by understanding analogies 1.397 + 1.398 +* Review Articles 1.399 + 1.400 +H.Jaap van den Herik, Jos W.H.M. Uiterwijk, Jack van Rijswijck - Games 1.401 +solved: Now and in the future 1.402 + 1.403 +Jonathan Schaeffer, H.Jaap van den Herik - Games, computers, and 1.404 +artificial intelligence 1.405 + 1.406 +Peter A. Flach - On the state of the art in machine learning: A 1.407 +personal review 1.408 + 1.409 +A.G. Cohn, D. Perlis - “Field Reviews”: A new style of review article 1.410 +for Artificial Intelligence 1.411 + 1.412 +James Delgrande, Arvind Gupta, Tim Van Allen - A comparison of 1.413 +point-based approaches to qualitative temporal reasoning 1.414 + 1.415 +Weixiong Zhang, Rina Dechter, Richard E. Korf - Heuristic search in 1.416 +artificial intelligence 1.417 + 1.418 +Karen Sparck Jones - Information retrieval and artificial intelligence 1.419 + 1.420 +Wolfram Burgard, Armin B. Cremers, Dieter Fox, Dirk Hähnel, Gerhard 1.421 +Lakemeyer, Dirk Schulz, Walter Steiner, Sebastian Thrun - Experiences 1.422 +with an interactive museum tour-guide robot 1.423 + 1.424 +Minoru Asada, Hiroaki Kitano, Itsuki Noda, Manuela Veloso - RoboCup: 1.425 +Today and tomorrow—What we have learned 1.426 + 1.427 +Margaret A. Boden - Creativity and artificial intelligence 1.428 + 1.429 +Daniel G. Bobrow, J.Michael Brady - Artificial Intelligence 40 years 1.430 +later 1.431 + 1.432 +Fangzhen Lin, Hector J. Levesque - What robots can do: robot programs 1.433 +and effective achievability 1.434 + 1.435 +Melanie Mitchell - L.D. Davis, handbook of genetic algorithms 1.436 + 1.437 +Russell Greiner, Adam J. Grove, Alexander Kogan - Knowing what doesn't 1.438 +matter: exploiting the omission of irrelevant data 1.439 + 1.440 +W. Whitney, S. Rana, J. Dzubera, K.E. Mathias - Evaluating 1.441 +evolutionary algorithms 1.442 + 1.443 +David S. Touretzky - Neural networks in artificial intelligence: 1.444 +Matthew Zeidenberg 1.445 + 1.446 +Mark J. Stefik, Stephen W. Smoliar - The commonsense reviews 1.447 + 1.448 +Peter Szolovits, Stephen G. Pauker - Categorical and probabilistic 1.449 +reasoning in medicine revisited 1.450 + 1.451 +Daniel G. Bobrow - Artificial intelligence in perspective: a 1.452 +retrospective on fifty volumes of the Artificial Intelligence Journal 1.453 + 1.454 +David Kirsh - Foundations of AI: The big issues 1.455 + 1.456 +Hector J. Levesque - All I know: A study in autoepistemic logic 1.457 + 1.458 +J.T. Schwartz, M. Sharir - A survey of motion planning and related 1.459 +geometric algorithms 1.460 + 1.461 +Larry S. Davis, Azriel Rosenfeld - Cooperating processes for low-level 1.462 +vision: A survey 1.463 + 1.464 +Hans J. Berliner - A chronology of computer chess and its literature 1.465 + 1.466 +John McCarthy - Artificial intelligence: a paper symposium: Professor 1.467 +Sir James Lighthill, FRS. Artificial Intelligence: A General 1.468 +Survey. In: Science Research Council, 1973 1.469 +* Cryo! 1.470 + 1.471 +Kenneth D. Forbus, Peter B. Whalley, John O. Everett, Leo Ureel, Mike 1.472 +Brokowski, Julie Baher, Sven E. Kuehne - CyclePad: An articulate 1.473 +virtual laboratory for engineering thermodynamics 1.474 + 1.475 +* Cortex related (sensory fusion / simulated worlds) 1.476 + 1.477 +Alfonso Gerevini, Jochen Renz - Combining topological and size 1.478 +information for spatial reasoning 1.479 + 1.480 +John Slaney, Sylvie Thiébaux - Blocks World revisited 1.481 + 1.482 +Wai K. Yeap, Margaret E. Jefferies - Computing a representation of the 1.483 +local environment 1.484 + 1.485 +R.P. Loui - On the origin of objects: B.C. Smith's MIT Press, 1.486 +Cambridge, MA, 1996. $37.50 (cloth). $17.50 (paper). 440 pages. ISBN 1.487 +0-262-69209-0 1.488 + 1.489 +Tze Yun Leong - Multiple perspective dynamic decision making 1.490 + 1.491 +Cristiano Castelfranchi - Modelling social action for AI agents 1.492 + 1.493 +Luc Steels - The origins of syntax in visually grounded robotic agents 1.494 + 1.495 +Sebastian Thrun - Learning metric-topological maps for indoor mobile 1.496 +robot navigation 1.497 + 1.498 +John Haugeland - Body and world: a review of What Computers Still 1.499 +Can't Do: A critique of artificial reason (Hubert L. Dreyfus): (MIT 1.500 +Press, Cambridge, MA, 1992); liii + 354 pages, $13.95 1.501 + 1.502 +David J. Musliner, Edmund H. Durfee, Kang G. Shin - World modeling for 1.503 +the dynamic construction of real-time control plans 1.504 + 1.505 +Jozsef A. Toth - Reasoning agents in a dynamic world: The frame 1.506 +problem: Kenneth M. Ford and Patrick J. Hayes, eds., (JAI Press, 1.507 +Greenwich, CT, 1991); 290+xiv pages 1.508 + 1.509 +Michael A. Arbib, Jim-Shih Liaw - Sensorimotor transformations in the 1.510 +worlds of frogs and robots 1.511 + 1.512 +Ingemar J. Cox, John J. Leonard - Modeling a dynamic environment using 1.513 +a Bayesian multiple hypothesis approach 1.514 + 1.515 +on integration of natural language and vision processing 1.516 + 1.517 +Demetri Terzopoulos, Andrew Witkin, Michael Kass - Constraints on 1.518 +deformable models:Recovering 3D shape and nonrigid motion 1.519 + 1.520 +Bruce R. Donald - A search algorithm for motion planning with six 1.521 +degrees of freedom 1.522 + 1.523 +Yorick Wilks - Making preferences more active 1.524 + 1.525 +* Vision Related 1.526 + 1.527 +Azriel Rosenfeld - B. Jähne, H. Haussecker, and P. Geissler, eds., 1.528 +Handbook of Computer Vision and Applications. 1. Sensors and 1.529 +Imaging. 2. Signal Processing and Pattern Recognition. 3. Systems and 1.530 +Applications 1.531 + 1.532 +Thomas F. Stahovich, Randall Davis, Howard Shrobe - Qualitative 1.533 +rigid-body mechanics 1.534 + 1.535 +Tzachi Dar, Leo Joskowicz, Ehud Rivlin - Understanding mechanical 1.536 +motion: From images to behaviors 1.537 + 1.538 +Minoru Asada, Eiji Uchibe, Koh Hosoda - Cooperative behavior 1.539 +acquisition for mobile robots in dynamically changing real worlds via 1.540 +vision-based reinforcement learning and development 1.541 + 1.542 +Thomas F. Stahovich, Randall Davis, Howard Shrobe - Generating 1.543 +multiple new designs from a sketch 1.544 + 1.545 +Ernst D. Dickmanns - Vehicles capable of dynamic vision: a new breed 1.546 +of technical beings? 1.547 + 1.548 +Thomas G. Dietterich, Richard H. Lathrop, Tomás Lozano-Pérez - Solving 1.549 +the multiple instance problem with axis-parallel rectangles 1.550 + 1.551 +Rajesh P.N. Rao, Dana H. Ballard - An active vision architecture based 1.552 +on iconic representations 1.553 + 1.554 +John K. Tsotsos, Scan M. Culhane, Winky Yan Kei Wai, Yuzhong Lai, Neal 1.555 +Davis, Fernando Nuflo - Modeling visual attention via selective tuning 1.556 + 1.557 +Roger Mohr, Boubakeur Boufama, Pascal Brand - Understanding 1.558 +positioning from multiple images 1.559 + 1.560 +Andrew Zisserman, David Forsyth, Joseph Mundy, Charlie Rothwell, Jane 1.561 +Liu, Nic Pillow - 3D object recognition using invariance 1.562 + 1.563 +Naresh C. Gupta, Laveen N. Kanal - 3-D motion estimation from motion 1.564 +field 1.565 + 1.566 +Damian M. Lyons - Vision, instruction, and action: David Chapman, (MIT 1.567 +Press Cambridge, MA, 1991); 295 pages, $35.00, (paperback) 1.568 + 1.569 +Yoshinori Suganuma - Learning structures of visual patterns from 1.570 +single instances 1.571 + 1.572 +Dana H. Ballard - Animate vision 1.573 + 1.574 +Raymond Reiter, Alan K. Mackworth - A logical framework for depiction 1.575 +and image interpretation 1.576 + 1.577 +Ellen Lowenfeld Walker, Martin Herman - Geometric reasoning for 1.578 +constructing 3D scene descriptions from images 1.579 + 1.580 +Michele Barry, David Cyrluk, Deepak Kapur, Joseph Mundy, Van-Duc 1.581 +Nguyen - A multi-level geometric reasoning system for vision 1.582 + 1.583 +Alex P. Pentland - Shading into texture 1.584 + 1.585 +Brady - Parallelism in Vision 1.586 + 1.587 +Jon A. Webb, J.K. Aggarwal - Structure from motion of rigid and 1.588 +jointed objects 1.589 + 1.590 +Michael Brady - Computer vision 1.591 + 1.592 +Takeo Kanade - Recovery of the three-dimensional shape of an object 1.593 +from a single view 1.594 + 1.595 +Rodney A. Brooks - Symbolic reasoning among 3-D models and 2-D images 1.596 + 1.597 +H.K. Nishihara - Intensity, visible-surface, and volumetric 1.598 +representations 1.599 + 1.600 +Thomas O. Binford - Inferring surfaces from images 1.601 + 1.602 +Larry S. Davis, Azriel Rosenfeld - Cooperating processes for low-level 1.603 +vision: A survey 1.604 + 1.605 +Berthold K.P. Horn, Brian G. Schunck - Determining optical flow 1.606 + 1.607 +Katsushi Ikeuchi, Berthold K.P. Horn - Numerical shape from shading 1.608 +and occluding boundaries 1.609 + 1.610 +Andrew P. Witkin - Recovering surface shape and orientation from 1.611 +texture 1.612 + 1.613 +Irwin Sobel - On calibrating computer controlled cameras for 1.614 +perceiving 3-D scenes 1.615 + 1.616 +P.M. Will, K.S. Pennington - Grid coding: A preprocessing technique 1.617 +for robot and machine vision 1.618 + 1.619 +M.B. Clowes - On seeing things 1.620 + 1.621 +Claude R. Brice, Claude L. Fennema - Scene analysis using regions