| 2007 |
|---|
| 42 | EE | Robert Moskovitch,
Ido Gus,
Shay Pluderman,
Dima Stopel,
Clint Feher,
Chanan Glezer,
Yuval Shahar,
Yuval Elovici:
Detection of Unknown Computer Worms Activity Based on Computer Behavior using Data Mining.
CIDM 2007: 202-209 |
| 41 | EE | Robert Moskovitch,
Shay Pluderman,
Ido Gus,
Dima Stopel,
Clint Feher,
Yisrael Parmet,
Yuval Shahar,
Yuval Elovici:
Host Based Intrusion Detection using Machine Learning.
ISI 2007: 107-114 |
| 40 | EE | Asaf Shabtai,
Maor Atlas,
Yuval Shahar,
Yuval Elovici:
Evaluation of a temporal-abstraction knowledge acquisition tool in the network security domain.
K-CAP 2007: 7-14 |
| 39 | EE | Alex Spokoiny,
Yuval Shahar:
An active database architecture for knowledge-based incremental abstraction of complex concepts from continuously arriving time-oriented raw data.
J. Intell. Inf. Syst. 28(3): 199-231 (2007) |
| 38 | EE | Ohad Young,
Yuval Shahar,
Yair Liel,
Eitan Lunenfeld,
Guy Bar,
Erez Shalom,
Susana B. Martins,
Laszlo T. Vaszar,
Tal Marom,
Mary K. Goldstein:
Runtime application of Hybrid-Asbru clinical guidelines.
Journal of Biomedical Informatics 40(5): 507-526 (2007) |
| 2006 |
|---|
| 37 | EE | Asaf Shabtai,
Denis Klimov,
Yuval Shahar,
Yuval Elovici:
An intelligent, interactive tool for exploration and visualization of time-oriented security data.
VizSEC 2006: 15-22 |
| 36 | EE | Robert Moskovitch,
Shiva Cohen-Kashi,
Uzi Dror,
Iftah Levy,
Amit Maimon,
Yuval Shahar:
Multiple hierarchical classification of free-text clinical guidelines.
Artificial Intelligence in Medicine 37(3): 177-190 (2006) |
| 35 | EE | Yuval Shahar,
Dina Goren-Bar,
David Boaz,
Gil Tahan:
Distributed, intelligent, interactive visualization and exploration of time-oriented clinical data and their abstractions.
Artificial Intelligence in Medicine 38(2): 115-135 (2006) |
| 2005 |
|---|
| 34 | EE | Ohad Young,
Yuval Shahar:
The Spock System: Developing a Runtime Application Engine for Hybrid-Asbru Guidelines.
AIME 2005: 166-170 |
| 33 | EE | Michael Ramati,
Yuval Shahar:
Probabilistic Abstraction of Multiple Longitudinal Electronic Medical Records.
AIME 2005: 43-47 |
| 32 | EE | Michael Ramati,
Yuval Shahar:
Probabilistic Abstraction of Uncertain Temporal Data for Multiple Subjects.
SARA 2005: 305-312 |
| 31 | EE | David Boaz,
Yuval Shahar:
A framework for distributed mediation of temporal-abstraction queries to clinical databases.
Artificial Intelligence in Medicine 34(1): 3-24 (2005) |
| 2004 |
|---|
| 30 | EE | Dina Goren-Bar,
Yuval Shahar,
Maya Galperin-Aizenberg,
David Boaz,
Gil Tahan:
KNAVE II: the definition and implementation of an intelligent tool for visualization and exploration of time-oriented clinical data.
AVI 2004: 171-174 |
| 29 | EE | Yuval Shahar,
Ohad Young,
Erez Shalom,
Maya Galperin,
Alon Mayaffit,
Robert Moskovitch,
Alon Hessing:
A framework for a distributed, hybrid, multiple-ontology clinical-guideline library, and automated guideline-support tools.
Journal of Biomedical Informatics 37(5): 325-344 (2004) |
| 2003 |
|---|
| 28 | EE | Yuval Shahar,
Ohad Young,
Erez Shalom,
Alon Mayaffit,
Robert Moskovitch,
Alon Hessing,
Maya Galperin:
DEGEL: A Hybrid, Multiple-Ontology Framework for Specification and Retrieval of Clinical Guidelines.
AIME 2003: 122-131 |
| 27 | EE | David Boaz,
Yuval Shahar:
Idan: A Distributed Temporal-Abstraction Mediator for Medical Databases.
AIME 2003: 21-30 |
| 26 | EE | Mira Balaban,
David Boaz,
Yuval Shahar:
Analysis of Temporal Abstraction in Medical Databases.
KRDB 2003 |
| 2000 |
|---|
| 25 | | Shubha Chakravarty,
Yuval Shahar:
CAPSUL: A constraint-based specification of repeating patterns in time-oriented data.
Ann. Math. Artif. Intell. 30(1-4): 3-22 (2000) |
| 24 | | Yuval Shahar,
Cleve Cheng:
Model-Based Visualization of Temporal Abstractions.
Computational Intelligence 16(2): 279-306 (2000) |
| 1999 |
|---|
| 23 | | Werner Horn,
Yuval Shahar,
Gregor Lindberg,
Steen Andreassen,
Jeremy C. Wyatt:
Artificial Intelligence in Medicine. Joint European Conference on Artificial Intelligence in Medicine and Medical Decision Making, AIMDM'99, Aalborg, Denmark, June 1999, Proceedings
Springer 1999 |
| 22 | EE | Yuval Shahar:
Timing Is Everything: Temporal Reasoning and Temporal Data Maintenance in Medicine.
AIMDM 1999: 30-46 |
| 21 | EE | Yuval Shahar,
Cleve Cheng:
Intelligent Visualization and Exploration of Time-Oriented Clinical Data.
HICSS 1999 |
| 20 | EE | Shubha Chakravarty,
Yuval Shahar:
A Constraint-Based Specification of Periodic Patterns in Time-Oriented Data.
TIME 1999: 29-40 |
| 19 | | Diane E. Oliver,
Yuval Shahar,
Edward H. Shortliffe,
Mark A. Musen:
Representation of change in controlled medical terminologies.
Artificial Intelligence in Medicine 15(1): 53-76 (1999) |
| 18 | | Yuval Shahar:
Knowledge-based temporal interpolation.
J. Exp. Theor. Artif. Intell. 11(1): 123-144 (1999) |
| 17 | | John H. Nguyen,
Yuval Shahar,
Samson W. Tu,
Amar K. Das,
Mark A. Musen:
Integration of Temporal Reasoning and Temporal-Data Maintenance into a Reusable Database Mediator to Answer Abstract, Time-Oriented Queries: The Tzolkin System.
J. Intell. Inf. Syst. 13(1-2): 121-145 (1999) |
| 16 | | Yuval Shahar,
Carlo Combi:
Editors' Foreword: Intelligent Temporal Information Systems in Medicine.
J. Intell. Inf. Syst. 13(1-2): 5-8 (1999) |
| 1998 |
|---|
| 15 | | Silvia Miksch,
Robert Kosara,
Yuval Shahar,
Peter Johnson:
AsbruView: Visualization of Time-Oriented, Skeletal Plans.
AIPS 1998: 11-18 |
| 14 | EE | Yuval Shahar,
Cleve Cheng:
Model-Based Visualization of Temporal Abstractions.
TIME 1998: 11-20 |
| 13 | EE | Urszula Chajewska,
Lise Getoor,
Joseph Norman,
Yuval Shahar:
Utility Elicitation as a Classification Problem.
UAI 1998: 79-88 |
| 12 | | Yuval Shahar:
Dynamic Temporal Interpretation Contexts for Temporal Abstraction.
Ann. Math. Artif. Intell. 22(1-2): 159-192 (1998) |
| 11 | | Yuval Shahar,
Silvia Miksch,
Peter Johnson:
The Asgaard project: a task-specific framework for the application and critiquing of time-oriented clinical guidelines.
Artificial Intelligence in Medicine 14(1-2): 29-51 (1998) |
| 1997 |
|---|
| 10 | | Yuval Shahar,
Silvia Miksch,
Peter Johnson:
A Task-Specific Ontology for the Application and Critiquing of Time-Oriented Clinical Guidelines.
AIME 1997: 51-61 |
| 9 | | Silvia Miksch,
Yuval Shahar,
Werner Horn,
Christian Popow,
Franz Paky,
Peter Johnson:
Time-Oriented Skeletal Plans: Support to Design and Execution.
ECP 1997: 299-311 |
| 8 | EE | Yuval Shahar:
Knowledge-Based Temporal Interpolation.
TIME 1997: 102-111 |
| 7 | EE | Yuval Shahar:
A Framework for Knowledge-Based Temporal Abstraction.
Artif. Intell. 90(1-2): 79-133 (1997) |
| 6 | | Silvia Miksch,
Yuval Shahar,
Peter Johnson:
Medizinische Leitlinien und Protokolle: das Asgaard/Asbru-Projekt.
KI 11(3): 34-37 (1997) |
| 1996 |
|---|
| 5 | | Yuval Shahar:
Dynamic Temporal Interpretation Contexts for Temporal Abstraction.
TIME 1996 |
| 4 | | Yuval Shahar,
Mark A. Musen:
Knowledge-based temporal abstraction in clinical domains.
Artificial Intelligence in Medicine 8(3): 267-298 (1996) |
| 1995 |
|---|
| 3 | | Mark A. Musen,
Samson W. Tu,
Amar K. Das,
Yuval Shahar:
A Component-Based Architecture for Automation of Protocol-Directed Therapy.
AIME 1995: 3-13 |
| 2 | EE | Henrik Eriksson,
Yuval Shahar,
Samson W. Tu,
Angel R. Puerta,
Mark A. Musen:
Task Modeling with Reusable Problem-Solving Methods.
Artif. Intell. 79(2): 293-326 (1995) |
| 1 | | Samson W. Tu,
Henrik Eriksson,
John H. Gennari,
Yuval Shahar,
Mark A. Musen:
Ontology-based configuration of problem-solving methods and generation of knowledge-acquisition tools: application of PROTEGE-II to protocol-based decision support.
Artificial Intelligence in Medicine 7(3): 257-289 (1995) |
