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ORCID"Symposium on Interactive Systems for Experimental Applied Mathematics 1967: Washington, D.C., USA
- Melvin Klerer, Juris Reinfelds:
Proceedings of the ACM Symposium on Interactive Systems for Experimental Applied Mathematics, Washington, D.C., USA, August 1, 1967. ACM 1967, ISBN 978-1-4503-2792-3
Interactive systems from the user's point of view
- Melvin Klerer:
Interactive programming and automated mathematics. 3-10 - Burton D. Fried:
On the user's point of view. 11-21 - Adin D. Falkoff, Kenneth E. Iverson:
The APL\360 terminal system. 22-37 - Roger Lazarus, Mark Wells, John Wooten Jr.:
The Maniac II system. 38-43 - Robert N. Seitz, Lawrence H. Wood, Charles A. Ely:
AMTRAN: automatic mathematical translation. 44-66 - Lawrence R. Symes, Roger V. Roman:
Structure of a language for a numerical analysis problem solving system. 67-78 - Anthony C. Hearn:
REDUCE: a user-oriented interactive system for algebraic simplification. 79-90 - Stewart I. Schlesinger, Lawrence Sashkin, Kenneth C. Reed:
Two analyst-oriented computer languages: EASL, POSE. 91-96 - Howard F. Matthews:
VENUS: a small interactive nonprocedural language. 97-100 - Gerald W. Bradley:
AL: an artificial language. 101-105 - René de Vogelaere:
Active language I. 106-137 - Edgar H. Sibley:
The engineering assistant: design of a symbol manipulation system. 138-154 - Jonathan K. Millen:
CHARYBDIS: a LISP program to display mathematical expressions on typewriter-like devices. 155-163
Components of interactive systems
- Raymond A. Wiesen, Douwe B. Yntema, James W. Forgie, Arthur N. Stowe:
Coherent programming in the Lincoln Reckoner. 167-177 - Krzysztof S. Frankowski, C. Duane Zimmerman:
Algebraic manipulation on computers for scientists and engineers. 178 - Stewart I. Schlesinger, Lawrence Sashkin, C. Aumann:
An interactive console operating as background in a large computer system. 179-182 - Melvin Klerer, Fred Grossman, Charles H. Amann:
Design philosophy for an interactive keyboard terminal. 183-191 - Denis M. Manelski, Henry C. Lefkovits, H. J. Hebert:
A facility for user definition of simple problem oriented languages. 192-195 - Chacko T. Abraham, Trevor Pearcey:
Mathematical symbol processing. 196-202 - J. G. Mitchell, Alan J. Perlis, H. Van Zoeren:
LC2: a language for conversational computing. 203-214 - A. V. Jett Jr.:
AMTRAN: implications of an interactive mathematical computer system for an educational institution. 215-219 - Richard J. Plocica:
What is different about AMTRAN? 220-221 - Kenneth Lock:
An object code for interactive applied mathematical programming. 222-224 - Kenneth J. Busch, Gottfried W. R. Luderer:
The Slave Interactive System: a one-user interactive executive grafted on a remote-batch computing system. 225-240 - Adrian Ruyle:
The development of systems for on-line mathematics at Harvard. 241-256
Other topics of interest to interactive systems
- Edward G. Coffman Jr.:
An analysis of computer operations under running time priority disciplines. 257-270 - G. C. Patton:
A message system for interactive dialog. 271-283 - James N. Haag:
A macroscopic model of an interactive computing system. 284-285 - Glenn K. Manacher:
A content-evaluating mode of computer-aided instruction. 286-293 - Richard P. Cullen:
OLDAS: an on-line continuous system simulation language. 294-297
Automation of applied mathematics
- John R. Rice:
On the construction of polyalgorithms for automatic numerical analysis. 301-313 - Herbert S. Bright:
A proposed numerical accuracy control system. 314-334 - L. J. Gallaher, Irwin E. Perlin:
A learning program for the integration of systems of ordinary differential equations. 335-340 - Joseph B. Muskat, Francis E. Sullivan, Paul R. Borman:
On experiences with PIL, an interpretive language, in an undergraduate numerical methods course. 341-342 - Arthur S. Priver, Barry W. Boehm:
Curve fitting and editing via interactive graphics. 343-345 - Lyle B. Smith:
FORTRAN codes to fit curves interactively. 346-348 - Anne B. Ammerman:
Analyst Assistance Program (AAP). 349-354
Implementation of interactive systems
- Glen J. Culler:
Mathematical laboratories: a new power for the physical sciences. 355-384 - Peter B. Hill, Arthur N. Stowe:
Implementation of a Reckoner facility on the Lincoln Laboratory IBM 360/67. 385-389 - Lawrence M. Breed, Richard H. Lathwell:
The implementation of APL\360. 390-399 - Roger V. Roman, Lawrence R. Symes:
Implementation considerations in a numerical analysis problem solving system. 400-410 - Juris Reinfelds:
An implementation of automatic array arithmetic by a generalized push-down stack. 411-422 - Carlos Christensen:
An example of the manipulation of directed graphs in the AMBIT/G programming language. 423-435 - Robert H. Anderson:
Syntax-directed recognition of hand-printed two-dimensional mathematics. 436-459 - Helen M. Willett:
A model for interactive systems design. 460-461 - Burton D. Fried:
Summary. 462-466
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