BibTeX

author = Sussman, Gerald Jay (10 entries) Select: All None Action: Show BibTeX

Gerald Jay Sussman, Jack Wisdom and Meinhard E. Mayer. 2001. Structure and Interpretation of Classical Mechanics. MIT Press. [book.computers] google scholar books

Julie Sussman, Harold Abelson and Gerald Jay Sussman. 1998. Instructor's Manual to Accompany Structure and Interpretation of Computer Programs. MIT Press. [book.computers] google scholar books

Kenneth Yip and Gerald Jay Sussman. 1997. Sparse representations for fast, one-shot learning. In AAAI '97, July. [NLP] google scholar

Harold Abelson, Gerald Jay Sussman and Julie Sussman. 1996. Structure and Interpretation of Computer Programs. MIT Press. [book.computers] google scholar books

Guy Lewis Steele Jr. and Gerald Jay Sussman. 1979. Design of LISP-based processors or, SCHEME: a dielectric LISP or, Finite memories considered harmful or, LAMBDA: the ultimate opcode. [AI] google scholar

Guy Lewis Steele Jr. and Gerald Jay Sussman. 1978. The art of the interpreter or, the modularity complex (parts zero, one, and two. [AI] google scholar

Johan de Kleer, Jon Doyle, Guy L. Steele Jr. and Gerald Jay Sussman. 1977. AMORD: Explicit control of reasoning. In Proc. Symposium on Artificial Intelligence and Programming Languages. Appeared:SIGPLAN Notices 12(8),Appeared:SIGART Newsletter,No.64,August,1977,116-125. [AI] google scholar

Guy Lewis Steele Jr. and Gerald Jay Sussman. 1976. LAMBDA: the ultimate imperative. [AI] google scholar

Gerald Jay Sussman and Guy Lewis Steele Jr.. 1975. SCHEME: an interpreter for extended lambda calculus. [AI] google scholar

Gerald Jay Sussman and Drew Vincent McDermott. 1972. Why conniving is better than planning. AI Memo. MIT. [AI] google scholar

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