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ORCIDAPL 1982: Heidelberg, Germany
- M. Bergen, W. H. Janko, C. O. Köhler, K. Waller:
Proceedings of the international conference on APL, APL 1982, Heidelberg, Germany, September, 1982. ACM 1982, ISBN 978-0-89791-078-1 - Dennis R. Adler:
Exception handling in APL. 17-22 - C. Bastian:
Interactive design of neutron beam collimators using the Monte Carlo technique in APL. 23-31 - J. Philip Benkard:
Nonpositional indexing for a relational data base. 32-39 - J. Michael Blackford, Robert M. Taylor:
APL and the relational model. 40-48 - Dragan Bozinovic:
Extending APL: What more can a programmer ask for? 49-56 - Norman Brenner:
APL on a multiprocessor architecture. 57-60 - Daniel Brocklebank:
APLNET, a local computer network. 61-66 - James A. Brown:
Understanding arrays. 67-71 - Philip R. Chastney:
The hunting of the Snark. 72-77 - Josiane Confais, Sylviane Bonnefous, Jean Brenot:
ADONIS a dynamic APL interactive package for multivariate analysis. 78-83 - A. D. Crossley, H. J. Ward:
Problem solving with APL using micro-computers. 84-89 - Egon Dorrer:
Desirable extensions to APL for handling numerical multidimensional arrays. 90-95 - Lutz Edler, Jutta Berger:
FITTEN - an APL workspace for nonlinear regression. 96-104 - Giorgio P. Faconti, Patrizia Palamidese:
Practicing on the CORE Graphics System. 105-112 - Adin D. Falkoff:
Semicolon-bracket notation: A hidden resource in APL. 113-116 - Howard W. Gutzman, Edwardo Kellerman:
Uses of APL in a manufacturing environment. 117-120 - Charles Haspel, Alphonse Thomas Vasquez:
Experimental mathematics using APL and graphics. 121-127 - Garry Helzer:
Adapting numerical algorithms to APL. 128-133 - Raymond C. Hooker:
APL full screen editing and error handling. 134-138 - Kenneth E. Iverson:
APL in education. 139 - Kenneth E. Iverson, Arthur T. Whitney:
Practical uses of a model of APL. 140-145 - Warren G. Julian:
The use of APL primitives and function domains to produce general APL solutions to problems involving discontinuities. 146-153 - Raymond Kanner:
The use and disuse of APL: An empirical study. 154-159 - Eeva-Liisa Kaski:
Management of a large block-diagonal macro-economic model in APL. 160-168 - Klaus Kilberth:
NUMETH a user oriented programming system for interactive application of numerical methods. 169-175 - Ulrich W. Kulisch:
Computer arithmetic and programming languages. 176-182 - Georges Lee, Ruddy Lelouche, Vincent Meissonnier, Gian Piero Zarri:
Using APL in an Artificial Intelligence environment: A knowledge engineering system dealing with biographical data. 183-191 - Wilbur R. LePage, Richard McFee:
An APL simulation of feedback systems. 192-200 - Jim Lucas:
Transparent files in APL (A Preliminary Proposal). 201-206 - Ross A. Mauri, A. Harry Williams:
Extending Halstead's software science for a more precise measure of APL. 207-213 - Normand R. Montour:
A self-defining dynamic data management system using multiple access methods. 214-218 - Trenchard More Jr.:
Rectangularly arranged collections of collections. 219-228 - Richard L. Naugle, Joseph B. Schlam:
Extending APL "optional arguments". 229-233 - Walter H. Niehoff:
A technique for producing graphical presentations with instances of a unit symbol. 234-237 - Robert P. Noss:
A financial modeling language using Nested Arrays. 238-245 - Howard A. Peelle:
Teaching a topic in psychology with APL: A cognitive information processing model. 246-248 - Roland H. Pesch:
Large arrays and files. 249-253 - Girard C. Pessis:
A conceptual framework for the design of Market Simulations. 254-259 - Jan F. Prins:
Automated testing in APL - an application of exception handling. 260-264 - David A. Rabenhorst:
APL event / response programming. 265-268 - Lutz Richter, Hellfried Ciorga:
CPS - an APL conference planning system on a microcomputer. 269-276 - Karl Fritz Ruehr:
A survey of extensions to APL. 277-314 - Flemming Schmidt, Michael A. Jenkins:
Array diagrams and the Nial approach. 315-319 - S. Schmidt, James A. Brown, Michael A. Jenkins:
Eigenanalysis and polynomial root finding primitive functions. 320-324 - Waltraud Schweikhardt:
A programming environment for blind APL-programmers. 325-331 - Jeffrey O. Shallit:
Computational simplicial homology in APL. 332-338 - Moshe Sniedovich:
Interactive multilevel definition of APL functions. 339-345 - Beverly J. Spellman, M. Scott Downing:
APL - a boon to budgeting. 346-350 - R. W. W. Taylor:
Indexing infinite arrays: Non-finite mathematics in APL. 351-355 - Norman D. Thomson:
An APL-guided tour through the elements of multi-dimensional geometry. 356-361 - Philip A. Van Cleave:
The impact of microcomputers on APL. 362-364 - William G. vonBerg:
APL: A profitability language. 365-366 - Michael N. Wakshull:
The use of APL in a concurrent data flow environment. 367-372 - H. J. Ward, P. W. Hurdley:
The application of an APL micro computer solving a commercial problem - a case study. 373-379 - John C. Wilson, T. A. Wilkinson:
Design considerations of a micro-based APL. 380-383 - Miklós Géza Zilahi-Szabó:
A short-run forecasting model. 384-388 - Michael Zippel:
A parser as a user-interface, driven by an enclosed array. 389-396
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