2008 |
14 | EE | Ari Freund,
Dan Pelleg,
Yossi Richter:
Clustering from Constraint Graphs.
SDM 2008: 301-312 |
13 | EE | Dan Pelleg,
Muli Ben-Yehuda,
Richard Harper,
Lisa Spainhower,
Tokunbo O. S. Adeshiyan:
Vigilant: out-of-band detection of failures in virtual machines.
Operating Systems Review 42(1): 26-31 (2008) |
2007 |
12 | EE | Dan Pelleg,
Dorit Baras:
K -Means with Large and Noisy Constraint Sets.
ECML 2007: 674-682 |
2006 |
11 | EE | David Carmel,
Elad Yom-Tov,
Adam Darlow,
Dan Pelleg:
What makes a query difficult?
SIGIR 2006: 390-397 |
10 | EE | Dan Pelleg,
Andrew W. Moore:
Dependency trees in sub-linear time and bounded memory.
VLDB J. 15(3): 250-262 (2006) |
2004 |
9 | EE | Dan Pelleg,
Andrew W. Moore:
Active Learning for Anomaly and Rare-Category Detection.
NIPS 2004 |
2002 |
8 | EE | Dan Pelleg,
Andrew W. Moore:
Using Tarjan's Red Rule for Fast Dependency Tree Construction.
NIPS 2002: 801-808 |
2001 |
7 | | Dan Pelleg,
Andrew W. Moore:
Mixtures of Rectangles: Interpretable Soft Clustering.
ICML 2001: 401-408 |
2000 |
6 | | Dan Pelleg,
Andrew W. Moore:
X-means: Extending K-means with Efficient Estimation of the Number of Clusters.
ICML 2000: 727-734 |
1999 |
5 | EE | Dan Pelleg,
Andrew W. Moore:
Accelerating Exact k-means Algorithms with Geometric Reasoning.
KDD 1999: 277-281 |
4 | EE | Israel Ben-Shaul,
Michael Herscovici,
Michal Jacovi,
Yoëlle S. Maarek,
Dan Pelleg,
Menachem Shtalhaim,
Vladimir Soroka:
Adding Support for Dynamic and Focused Search with Fetuccino.
Computer Networks 31(11-16): 1653-1665 (1999) |
1998 |
3 | EE | Amir Ben-Dor,
Benny Chor,
Dan Graur,
Ron Ophir,
Dan Pelleg:
From four-taxon trees to phylogenies (preliminary report): the case of mammalian evolution.
RECOMB 1998: 9-19 |
2 | EE | Michael Herscovici,
Michal Jacovi,
Yoëlle S. Maarek,
Dan Pelleg,
Menachem Shtalhaim,
Sigalit Ur:
The Shark-Search Algorithm. An Application: Tailored Web Site Mapping.
Computer Networks 30(1-7): 317-326 (1998) |
1 | | Amir Ben-Dor,
Benny Chor,
Dan Graur,
Ron Ophir,
Dan Pelleg:
Constructing Phylogenies from Quartets: Elucidation of Eutherian Superordinal Relationships.
Journal of Computational Biology 5(3): 377-390 (1998) |