Per Year
@article{soda-ijaose4,
acm = {10.1504/IJAOSE.2010.029808},
author = {Molesini, Ambra and Denti, Enrico and Omicini, Andrea},
doi = {10.1504/IJAOSE.2010.029808},
eissn = {1746-1383},
iris = {11585/83014},
issn = {1746-1375},
journal = {International Journal of Agent-Oriented Software Engineering},
keywords = {Agent-Oriented Software Engineering, Methodologies, Artifacts, A&A Meta-Model, SODA, Conference Management System},
number = 1,
pages = {1--31},
publisher = {Inderscience Publishers},
scopus = {2-s2.0-75649088909},
title = {Agent-based Conference Management: A Case Study in {{\sf SODA,
url = {http://www.inderscienceonline.com/doi/10.1504/IJAOSE.2010.029808},
urlpdf = {http://www.inderscience.com/storage/f659137121084211.pdf},
volume = 4,
year = 2010
} }}}
@article{, booktitle = {Proceedings of AGRO 2010 - the XI ESA Congress, Montpellier, France}, publisher = {Pure Impressions, Montpellier, France}, author = {Vitali, Giuliano and Magnanini, Eugenio and Denti, Enrico}, title = {Simulate plants: a client-server graphic approach}, isbn = {978-2-909613-01-7}, year = 2010, note = {August 29 - September 3, 2010}, abstract = {Recently the sector of Functional Structural Plant Modeling (FSPM) has significatively grown (AA.VV., 2004,2007) attracting the attention of researchers from several branches of biological sciences. Objective of FSP Modelers is using a morphological characterization to improve plant eco-physiological modeling. In some case they move from pure mathematical and geometrical simulators used in animation movies and landscape design, in other cases they are to interpretate external characters of a plant. Several tools has been developed, some freely downloadable, others with a commercial mean. Even when they are available at a collaborative level, the plant simulating engine is often embedded with graphics and few efforts has been made to distinguish the task of making a plant from that of representing it on a screen which also means define a standard to code plants. Communicating a virtual plant between programs with different purposes not only allow for a better use of computer resourses but could allow for plants interchange between researchers. The development of the project required to define and reach several objectives, as the possibility to work on a virtual-plant project at a team level, with different skillness and competencies, and to define a standard language to represent plant structure separated from the geometrical features. Even if the first objective was fullfilled, it seems to require a powerful server when more clients are run at same time, as in web-games. About the second it is probably a former step toward a proposal for an open format for interchange plants at structural level. The simulator, is at present very simple and is still lacking a radiative environment. Java3D allows for self-shading but not for reciprocal shading. Other features which could be important for realistic rendering is physical collisions and gravity, both important to improve space occupation of elements parts in light and other atmospheric interactions. From the other side, the system is per se, already able to simulate a number of plants.}, keywords = {virtual plant, modeling, java, client-server}, status = {Published}, pages = {913-914}, venue = {--}, month = {September}}
@article{, urlpdf = {http://www.plantsciences.ucdavis.edu/symposium/2010/fspm/pdf/Proceedings_FSPM2010.pdf}, booktitle = {Proceedings of the 6th International Workshop on Functional-Structural Plant Models}, publisher = {UCDAVIS, California}, author = {Vitali, Giuliano and Magnanini, Eugenio and Mennucci, Niko and Denti, Enrico}, title = {Interacting with Virtual Plants: a Client-Server Approach}, year = 2010, abstract = {In Functional Structural Plant Modeling a main objective is the comprehension of the interaction between plant morphology and environment, which means the need of developing tools allowing the user to validate a mathematical model on the basis of its graphical output: the Virtual Plant (VP). In this study a client-server approach has been used to have the VP simulation engine apart from the VP rendering, easy to be used also on the internet, whose parts could be developed apart by different competencies (engine developer, parameter estimator, tester) and using different computing resources. Client and server applications communicate using the SOAP protocol, which is used to exchange XML documents. An XML dialect (Virtual Plant Modeling Language – VPML) has been coined to code statically a plant grown within a give environment (climate) and a time interval. VPML may code a single plantule as much as a full plant history, made of several snapshots taken during the growing period. VPML only maps plant structure, that is how plant modules (internode, bud, petiole, blade) are connected, together with the values of their parameters, both graphical and physiological. Graphic features of plant modules are got from separate VRML files, and used on the client to build- up the VP graphic aspect. The client also allows the user to interact with the virtual plant profiting of the native features of Java3D: user can select, query and prune single modules and submit the modified plant to the server to have it grown to another date.}, keywords = {virtual plant, modeling, java, botany}, status = {Published}, pages = {240-240}, venue = {--}, url = {http://www.plantsciences.ucdavis.edu/symposium/2010/fspm/main/proceedings.htm}, editor = {DeJong, Theodore and Da Silva, David}, month = {September}}
@incollection{aose-ccis67, author = {Molesini, Ambra and Denti, Enrico and Omicini, Andrea}, booktitle = {Agents and Artificial Intelligence}, doi = {10.1007/978-3-642-11819-7_16}, editor = {Filipe, Joaquim and Fred, Ana and Sharp, Bernadette}, eisbn = {978-3-642-11819-7}, iris = {11585/93505}, isbn = {978-3-642-11818-0}, issn = {1865-0929}, note = {International Conference (ICAART 2009), Porto, Portugal, 19-21 January 2009. Revised Selected Papers}, pages = {205--218}, publisher = {Springer}, scopus = {2-s2.0-77957599274}, series = {Communications in Computer and Information Science}, title = {{H}ome{M}anager: Testing Agent-Oriented Software Engineering in Home Intelligence}, url = {http://link.springer.com/10.1007/978-3-642-11819-7_16}, volume = 67, wos = {000278079200016}, year = 2010 }
@inproceedings{sec-icaart2010, Address = {Valencia, Spain}, Author = {Molesini, Ambra and Prandini, Marco and Nardini, Elena and Denti, Enrico}, Booktitle = {2nd International Conference on Agents and Artificial Intelligence (ICAART 2010)}, Editor = {Filipe, Joaquim and Fred, Ana and Sharp, Bernadette}, Isbn = {978-989-674-022-1}, Month = {22--24}}}, Publisher = {INSTICC}, Title = {Risk Analysis and Deployment Security Issues in a Multi-Agent System}, Volume = 2, Year = 2010}
@article{cartagows-mags6, Author = {Ricci, Alessandro and Denti, Enrico and Piunti, Michele}, Issn = {1574-1702}, Journal = {Multi-Agent and Grid Systems}, Month = jun, Note = {Special Issue on "Agents, Web Services and Ontologies: Integrated Methodologies"}, Number = 2, Pages = {105--132}, Publisher = {IOS Press}, Title = {A Platform for Developing {SOA/WS} Applications as Open and Heterogeneous Multi-agent Systems}, Url = {http://iospress.metapress.com/content/c35045841177437w/?p=435869ef31ac46ee90772d193e405661}, Volume = 6, Year = 2010}