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The Core Concept for 0/1 Integer Programming
Huston, S., Puchinger, J. and Stuckey, P.
In this paper we examine an extension of the
core concept for the 0/1 Multidimensional Knapsack
Problem (MKP) towards general 0/1 Integer
Programming (IP) by allowing negative profits,
weights and capacities. The core concept provides
opportunities for heuristically solving the MKP,
achieving higher quality solutions and shorter runtimes
than general IP methods. We provide the
theoretical foundations of the extended core concept
and further provide computational experiments
showing that we can achieve similar computational
behavior for extended MKP instances
with negative weights, profits and capacities.
Cite as: Huston, S., Puchinger, J. and Stuckey, P. (2008). The Core Concept for 0/1 Integer Programming. In Proc. Fourteenth Computing: The Australasian Theory Symposium (CATS 2008), Wollongong, NSW, Australia. CRPIT, 77. Harland, J. and Manyem, P., Eds. ACS. 39-47.
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