-
G. M. Sacco and S. Ferré.
Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience,
volume 25 of The Information Retrieval Series,
chapter 9 - Applications and Experiences,
pages 263-302.
Springer,
2009.
Keyword(s): dynamic taxonomies,
faceted search,
browsing,
information retrieval.
@InBook{Book-FIND:Chap9,
ALTeditor = {G. M. Sacco and Y. Tzitzikas},
title = {Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience},
author = {G. M. Sacco and S. Ferré},
chapter = {9 - Applications and Experiences},
publisher = {Springer},
year = {2009},
series = {The Information Retrieval Series},
volume = {25} pages = {263--302},
keywords = {dynamic taxonomies, faceted search, browsing, information retrieval},
}
-
G. M. Sacco and S. Ferré.
Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience,
volume 25 of The Information Retrieval Series,
chapter 5 - Extensions to the Model,
pages 113-144.
Springer,
2009.
Keyword(s): dynamic taxonomies,
faceted search,
browsing,
information retrieval.
@InBook{Book-FIND:Chap5,
ALTeditor = {G. M. Sacco and Y. Tzitzikas},
title = {Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience},
author = {G. M. Sacco and S. Ferré},
chapter = {5 - Extensions to the Model},
publisher = {Springer},
year = {2009},
series = {The Information Retrieval Series},
volume = {25} pages = {113--144},
keywords = {dynamic taxonomies, faceted search, browsing, information retrieval},
}
-
G. M. Sacco,
S. Ferré,
and Y. Tzitzikas.
Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience,
volume 25 of The Information Retrieval Series,
chapter 3 - Comparison with Other Techniques,
pages 35-74.
Springer,
2009.
Keyword(s): dynamic taxonomies,
faceted search,
browsing,
information retrieval.
@InBook{Book-FIND:Chap3,
ALTeditor = {G. M. Sacco and Y. Tzitzikas},
title = {Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience},
author = {G. M. Sacco and S. Ferré and Y. Tzitzikas},
chapter = {3 - Comparison with Other Techniques},
publisher = {Springer},
year = {2009},
series = {The Information Retrieval Series},
volume = {25} pages = {35--74},
keywords = {dynamic taxonomies, faceted search, browsing, information retrieval},
}
-
G. M. Sacco,
Y. Tzitzikas,
and S. Ferré.
Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience,
volume 25 of The Information Retrieval Series,
chapter 8 - System Implementation,
pages 215-262.
Springer,
2009.
Keyword(s): dynamic taxonomies,
faceted search,
browsing,
information retrieval.
@InBook{Book-FIND:Chap8,
ALTeditor = {G. M. Sacco and Y. Tzitzikas},
title = {Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience},
author = {G. M. Sacco and Y. Tzitzikas and S. Ferré},
chapter = {8 - System Implementation},
publisher = {Springer},
year = {2009},
series = {The Information Retrieval Series},
volume = {25} pages = {215--262},
keywords = {dynamic taxonomies, faceted search, browsing, information retrieval},
}
-
M. Stefaner,
S. Ferré,
S. Perugini,
J. Koren,
and Y. Zhang.
Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience,
volume 25 of The Information Retrieval Series,
chapter 4 - User Interface Design,
pages 75-112.
Springer,
2009.
Keyword(s): dynamic taxonomies,
faceted search,
browsing,
information retrieval.
@InBook{Book-FIND:Chap4,
ALTeditor = {G. M. Sacco and Y. Tzitzikas},
title = {Dynamic Taxonomies and Faceted Search: Theory, Practice, and Experience},
author = {M. Stefaner and S. Ferré and S. Perugini and J. Koren and Y. Zhang},
chapter = {4 - User Interface Design},
publisher = {Springer},
year = {2009},
series = {The Information Retrieval Series},
volume = {25} pages = {75--112},
keywords = {dynamic taxonomies, faceted search, browsing, information retrieval},
}
-
S. Ferré.
Camelis: a logical information system to organize and browse a collection of documents.
Int. J. General Systems,
38(4),
2009.
Keyword(s): information retrieval,
browsing,
logical concept analysis,
annotation.
Abstract: |
Since the arrival of digital cameras, many people are faced to the challenge of organizing and browsing the overwhelming flood of photos their life produces. The same is true for all sorts of documents, e.g.~emails, audio files. Existing systems either let users fill query boxes without any assistance, or drive them through rigid navigation structures (e.g., hierarchies); or they do not let users put annotations on their documents, even when this would support the organization and retrieval of any documents on customized criteria. We present a tool, {\sc Camelis}, that offers users with an organization that is dynamically computed from documents and their annotations. {\sc Camelis} is designed along the lines of Logical Information Systems (LIS), which are founded on logical concept analysis. Hence, (1) an expressive language can be used to describe photos and query the collection, (2) manual and automatic annotations can be smoothly integrated, and (3) expressive querying and flexible navigation can be mixed in a same search and in any order. This presentation is illustrated on a real collection of more than 5,000 photos. |
@Article{Fer2009,
author = {S. Ferré},
title = {Camelis: a logical information system to organize and browse a collection of documents},
journal = {Int. J. General Systems},
year = {2009},
volume = {38},
number = {4},
keywords = {information retrieval, browsing, logical concept analysis, annotation},
abstract = {Since the arrival of digital cameras, many people are faced to the challenge of organizing and browsing the overwhelming flood of photos their life produces. The same is true for all sorts of documents, e.g.~emails, audio files. Existing systems either let users fill query boxes without any assistance, or drive them through rigid navigation structures (e.g., hierarchies); or they do not let users put annotations on their documents, even when this would support the organization and retrieval of any documents on customized criteria. We present a tool, {\sc Camelis}, that offers users with an organization that is dynamically computed from documents and their annotations. {\sc Camelis} is designed along the lines of Logical Information Systems (LIS), which are founded on logical concept analysis. Hence, (1) an expressive language can be used to describe photos and query the collection, (2) manual and automatic annotations can be smoothly integrated, and (3) expressive querying and flexible navigation can be mixed in a same search and in any order. This presentation is illustrated on a real collection of more than 5,000 photos.},
}
-
P. Cellier,
M. Ducassé,
S. Ferré,
and O. Ridoux.
DeLLIS: A Data Mining Process for Fault Localization.
In Int. Conf. Software Engineering (SEKE),
pages 432-437,
2009.
Knowledge Systems Institute Graduate School.
Keyword(s): data mining,
fault localization,
software.
@inproceedings{CDFR2009,
author = {P. Cellier and M. Ducassé and S. Ferré and O. Ridoux},
title = {{DeLLIS}: A Data Mining Process for Fault Localization},
booktitle = {Int. Conf. Software Engineering ({SEKE})},
year = {2009},
pages = {432-437},
publisher = {Knowledge Systems Institute Graduate School},
keywords = {data mining, fault localization, software},
}
-
M. Ducassé and S. Ferré.
Aide à la décision multicritère : cohérence et équité grâce à l'analyse de concepts.
In Modèles et Apprentissage en Sciences Humaines et Sociales,
juin 2009.
Keyword(s): Décision multicritère,
aide à la décision,
choix social,
analyse formelle de concepts,
systèmes d'information logiques,
étude de cas.
Abstract: |
De nombreuses décisions sont prises en commission, par exemple pour affecter des ressources. Les critères de décision sont difficiles à exprimer et la situation globale est en général trop complexe pour que les participants puissent l'appréhender pleinement. Dans cet article, nous décrivons un processus de décision où l'analyse de concepts est utilisée pour faire face à ces problèmes. Grâce à l'analyse de concepts, les personnes fair play ont la possibilité d'être équitables envers les candidats et de faire preuve de cohérence dans leurs jugements sur toute la durée de la réunion. |
@InProceedings{DucFer2009,
Author={M. Ducassé and S. Ferré},
Title={Aide à la décision multicritère : cohérence et équité grâce à l'analyse de concepts},
BookTitle={Modèles et Apprentissage en Sciences Humaines et Sociales},
Year={2009},
Month={juin},
Location={Toulouse},
Keywords={Décision multicritère, aide à la décision, choix social, analyse formelle de concepts, systèmes d'information logiques, étude de cas},
Abstract={De nombreuses décisions sont prises en commission, par exemple pour affecter des ressources. Les critères de décision sont difficiles à exprimer et la situation globale est en général trop complexe pour que les participants puissent l'appréhender pleinement. Dans cet article, nous décrivons un processus de décision où l'analyse de concepts est utilisée pour faire face à ces problèmes. Grâce à l'analyse de concepts, les personnes fair play ont la possibilité d'être équitables envers les candidats et de faire preuve de cohérence dans leurs jugements sur toute la durée de la réunion.},
}
-
S. Ferré.
Efficient Browsing and Update of Complex Data Based on the Decomposition of Contexts.
In S. Rudolph,
F. Dau,
and S. O. Kuznetsov, editors,
Int. Conf. Conceptual Structures,
LNCS 5662,
pages 159-172,
2009.
Springer.
Keyword(s): software component,
logical concept analysis,
browsing,
update.
Abstract: |
Formal concept analysis is recognized as a good paradigm for browsing data sets. Besides browsing, update and complex data are other important aspects of information systems. To have an efficient implementation of concept-based information systems is difficult because of the diversity of complex data and the computation of conceptual structures, but essential for the scalability to real-world applications. We propose to decompose contexts into simpler and specialized components: logical context functors. We demonstrate this allows for scalable implementations, updatable ontologies, and richer navigation structures, while retaining genericity. |
@inproceedings{Fer2009b,
author = {S. Ferré},
title = {Efficient Browsing and Update of Complex Data Based on the Decomposition of Contexts},
booktitle = {Int. Conf. Conceptual Structures},
year = {2009},
pages = {159-172},
editor = {S. Rudolph and F. Dau and S. O. Kuznetsov},
publisher = {Springer},
series = {LNCS 5662},
keywords = {software component, logical concept analysis, browsing, update},
abstract = {Formal concept analysis is recognized as a good paradigm for browsing data sets. Besides browsing, update and complex data are other important aspects of information systems. To have an efficient implementation of concept-based information systems is difficult because of the diversity of complex data and the computation of conceptual structures, but essential for the scalability to real-world applications. We propose to decompose contexts into simpler and specialized components: logical context functors. We demonstrate this allows for scalable implementations, updatable ontologies, and richer navigation structures, while retaining genericity.},
}