Abstract
Given two finite sets of points \( \mathcal{X},\mathcal{Y} \) in ℝn which can be separated by a nonnegative linear function, and such that the componentwise minimum of any two distinct points in \( \mathcal{X} \) is dominated by some point in \( \mathcal{Y} \), we show that \( \left| \mathcal{X} \right| \leqslant n\left| \mathcal{Y} \right| \). As a consequence of this result, we obtain quasi-polynomial time algorithms for generating all maximal integer feasible solutions for a given monotone system of separable inequalities, for generating all p-inefficient points of a given discrete probability distribution, and for generating all maximal empty hyper-rectangles for a given set of points in ℝn. This provides a substantial improvement over previously known exponential algorithms for these generation problems related to Integer and Stochastic Programming, and Data Mining. Furthermore, we give an incremental polynomial time generation algorithm for monotone systems with fixed number of separable inequalities, which, for the very special case of one inequality, implies that for discrete probability distributions with independent coordinates, both p-efficient and p-inefficient points can be separately generated in incremental polynomial time.
The research of the first four authors was supported in part by the National Science Foundation Grant IIS-0118635. The research of the first and third authors was also supported in part by the Office of Naval Research Grant N00014-92-J-1375. The second and third authors are also grateful for the partial support by DIMACS, the National Science Foundation’s Center for Discrete Mathematics and Theoretical Computer Science. The fifth author was supported in part by the Scientific Grant in Aid of the Ministry of Education, Science, Sports, Culture and Technology of Japan.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
R. Agrawal, H. Mannila, R. Srikant, H. Toivonen and A. I. Verkamo, Fast discovery of association rules, in Advances in Knowledge Discovery and Data Mining (U. M. Fayyad, G. Piatetsky-Shapiro, P. Smyth and R. Uthurusamy, eds.), pp. 307–328, AAAI Press, Menlo Park, California, 1996.
M. J. Atallah and G. N. Fredrickson, A note on finding a maximum empty rectangle, Discrete Applied Mathematics 13 (1986) 87–91.
J. C. Bioch and T. Ibaraki, Complexity of identification and dualization of positive Boolean functions, Information and Computation 123 (1995) 50–63.
E. Boros, K. Elbassioni, V. Gurvich, L. Khachiyan and K. Makino, Dual-bounded generating problems: All minimal integer solutions for a monotone system of linear inequalities, SIAM Journal on Computing, 31(5) (2002) pp. 1624–1643.
E. Boros, K. Elbassioni, V. Gurvich and L. Khachiyan, An inequality for polymatroid functions and its applications, to appear in Discrete Applied Mathematics, 2003. (DIMACS Technical Report 2001-14, Rutgers University, (“http://dimacs.rutgers.edu/TechnicalReports/2001.html”).
E. Boros, V. Gurvich, L. Khachiyan and K. Makino, Dual bounded generating problems: partial and multiple transversals of a hypergraph, SIAM Journal on Computing 30(6) (2001) 2036–2050.
E. Boros, V. Gurvich, L. Khachiyan and K. Makino, On the complexity of generating maximal frequent and minimal infrequent sets in binary matrices. In: Proceedings of the 19th International Symposium on Theoretical Aspects of Computer Science (STACS 2002). (H. Alt and A. Ferreira, eds., Antibes Juan-les-Pins, France, March 14–16, 2002), Lecture Notes in Computer Science 2285 (2002) pp. 133–141, (Springer Verlag, Berlin, Heidelberg, New York).
B. Chazelle, R. L. (Scot) Drysdale III and D. T. Lee, Computing the largest empty rectangle, SIAM Journal on Computing, 15(1) (1986) 550–555.
Y. Crama, Dualization of regular Boolean functions, Discrete Applied Mathematics 16 (1987) 79–85.
D. Dentcheva, A. Prékopa and A. Ruszczynski, Concavity and efficient points of discrete distributions in Probabilistic Programming, Mathematical Programming 89 (2000) 55–77.
J. Edmonds, J. Gryz, D. Liang and R. J. Miller, Mining for empty rectangles in large data sets, in Proc. 8th Int. Conf. on Database Theory (ICDT), Jan. 2001, Lecture Notes in Computer Science 1973, pp. 174–188.
M. L. Fredman and L. Khachiyan, On the complexity of dualization of monotone disjunctive normal forms, Journal of Algorithms, 21 (1996) 618–628.
V. Gurvich and L. Khachiyan, On generating the irredundant conjunctive and disjunctive normal forms of monotone Boolean functions, Discrete Applied Mathematics, 96–97 (1999) 363–373.
D. Gunopulos, R. Khardon, H. Mannila, and H. Toivonen, Data mining, hyper-graph transversals and machine learning, in Proceedings of the 16th ACM-SIGACTSIGMOD-SIGART Symposium on Principles of Database Systems, (1997) pp. 12–15.
E. Lawler, J. K. Lenstra and A. H. G. Rinnooy Kan, Generating all maximal independent sets: NP-hardness and polynomial-time algorithms, SIAM Journal on Computing, 9 (1980) 558–565.
B. Liu, L.-P. Ku and W. Hsu, Discovering interesting holes in data, In Proc. IJCAI, pp. 930–935, Nagoya, Japan, 1997.
B. Liu, K. Wang, L.-F. Mun and X.-Z. Qi, Using decision tree induction for discovering holes in data, In Proc. 5th Pacific Rim International Conference on Artificial Intelligence, pp. 182–193, 1998.
K. Makino and T. Ibaraki, Interior and exterior functions of Boolean functions, Discrete Applied Mathematics, 69 (1996) 209–231.
K. Makino and T. Ibaraki. The maximum latency and identification of positive Boolean functions. SIAM Journal on Computing, 26:1363–1383, 1997.
A. Namaad, W. L. Hsu and D. T. Lee, On the maximum empty rectangle problem. Discrete Applied Mathematics, 8(1984) 267–277.
M. Orlowski, A new algorithm for the large empty rectangle problem, Algorithmica 5(1) (1990) 65–73.
A. Prékopa, Stochastic Programming, (Kluwer, Dordrecht, 1995).
R. C. Read and R. E. Tarjan, Bounds on backtrack algorithms for listing cycles, paths, and spanning trees, Networks 5 (1975) 237–252.
R. Srikant and R. Agrawal, Mining generalized association rules. In Proc. 21st International Conference on Very Large Data Bases, pp. 407–419, 1995.
R. Srikant and R. Agrawal, Mining quantitative association rules in large relational tables. In Proc. of the ACM-SIGMOD 1996 Conference on Management of Data, pp. 1–12, 1996.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2003 Springer-Verlag Berlin Heidelberg
About this paper
Cite this paper
Boros, E., Elbassioni, K., Gurvich, V., Khachiyan, L., Makino, K. (2003). An Intersection Inequality for Discrete Distributions and Related Generation Problems. In: Baeten, J.C.M., Lenstra, J.K., Parrow, J., Woeginger, G.J. (eds) Automata, Languages and Programming. ICALP 2003. Lecture Notes in Computer Science, vol 2719. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-45061-0_44
Download citation
DOI: https://doi.org/10.1007/3-540-45061-0_44
Published:
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-40493-4
Online ISBN: 978-3-540-45061-0
eBook Packages: Springer Book Archive