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Normal Semimodules: A Theory of Generalized Convex Cones

Published online by Cambridge University Press:  20 November 2018

Daniel A. Marcus
Daniel A. Marcus*
Affiliation:
California State Polytechnic University, Pomona, California
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In [3], C. Davis showed that if a convex polyhedral cone C (the positive span of a finite set of vectors in Euclidean space) contains no nonzero linear subspace, then C is linearly isomorphic to the set V+ of nonnegative points in a linear subspace V of Rn. Moreover n can be taken to be the number of facets (maximal proper faces) of C.

Type
Research Article
Information
Canadian Journal of Mathematics , Volume 36 , Issue 1 , 01 February 1984 , pp. 156 - 177
Copyright
Copyright © Canadian Mathematical Society 1984

References

1. Bondy, J. A. and Murty, U. S. R., Graph theory with applications (American Elsevier, New York, 1976).CrossRefGoogle Scholar
2. Bourbaki, N., Elements of mathematics, commutative algebra (Addison-Wesley, Reading, Mass., 1972).Google Scholar
3. Davis, C., Remarks on a previous paper, Michigan Math. J. 2 (1953), 2325.Google Scholar
4. Grünbaum, B., Convex poly topes (Interscience, New York, 1967).Google Scholar
5. Hochster, M., Rings of invariants of tori, Cohen-Macaulay rings generated by monomials, and poly topes, Ann. Math. 96 (1972), 318337.Google Scholar
6. Marcus, D., Closed factors of normal Z-semimodules, Pacific Journal of Mathematics 93 (1981), 121146.Google Scholar
7. Marcus, D., Gale diagrams of convex polytopes and positive spanning sets of vectors, to appear in Discrete Applied Mathematics, 1984.CrossRefGoogle Scholar
8. Weyl, H., Elementare Théorie der konvexen Polyeder, Comm. Math. Helv., 7 (1935-36), 290306. English translation in Contributions to the theory of games, Ann. Math. Studies 24 (Princeton, 1950), 3–18.Google Scholar