A Complete RM-ODP Case-study to Integrate Geospatial Services and Ecological Niche Modeling Systems

Fabiana SANTANA, Renata Stange, Antonio Saraiva, Jorge Pinaya, Jorge Becerra

Research output: A Conference proceeding or a Chapter in BookConference contribution

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Abstract

Conservation and sustainable use of natural resources are relevant research areas for many different purposes, including biodiversity maintenance, global warming studies and sustainable development. An ecological niche model presents the geographic distribution of a species, considering the spatial, ecological and evolutionary perspectives. It also allows the definition of present, past and future scenarios for species distribution. The study of species distribution can be determinant for their management, so ecological niche modeling is a major current research trend. However, providing the resources for ecological niche modeling is a highly complex computational problem because it demands solutions with many integration, distribution and interoperability features. The Reference Model of Open Distributed Processing provided by the International Organization for Standardization, ISO RM-ODP, establishes five viewpoints to design a system: Enterprise, Computational, Information, Engineering, and Technology. Each viewpoint treats specifics constraints in order to describe a complex architectural solution, as the ones required for ecological niche modeling. The Open Geospatial Consortium, OGC, defined the OGC Reference Model, a guideline to provide the features for geospatial services, another major software requirement for ecological niche modeling. This work proposes an architectural solution for ecological niche modeling integrating the OGC and RM-ODP specifications in order to address all the constraints of the problem by the usage of viewpoints. The presented solution is already implemented and available on the Internet. Besides solving the problem itself, the solution is in the form of a complete RM-ODP case-study and may also be used as reference for further works in the ecological niche modeling research area
Original languageEnglish
Title of host publicationProceedings of the IEEE 13th International Conference on Information Reuse and Integration
EditorsChengcui Zhang, James Joshi, Elisa Bertino, Bhavani Thuraisingham
Place of PublicationNew Jersey USA
PublisherIEEE, Institute of Electrical and Electronics Engineers
Pages239-246
Number of pages8
Volume1
ISBN (Print)9781467322843
DOIs
Publication statusPublished - 2012
Externally publishedYes
EventIEEE 13th International Conference on Information Reuse and Integration, IRI 2012 - Las Vegas, United States
Duration: 8 Aug 201210 Aug 2012

Conference

ConferenceIEEE 13th International Conference on Information Reuse and Integration, IRI 2012
CountryUnited States
CityLas Vegas
Period8/08/1210/08/12

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Ocean Drilling Program
modeling
international organization
ecological niche
services
standardization
global warming
sustainable development
natural resource
biodiversity
software
engineering
distribution
resource

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SANTANA, F., Stange, R., Saraiva, A., Pinaya, J., & Becerra, J. (2012). A Complete RM-ODP Case-study to Integrate Geospatial Services and Ecological Niche Modeling Systems. In C. Zhang, J. Joshi, E. Bertino, & B. Thuraisingham (Eds.), Proceedings of the IEEE 13th International Conference on Information Reuse and Integration (Vol. 1, pp. 239-246). New Jersey USA: IEEE, Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/IRI.2012.6303016
SANTANA, Fabiana ; Stange, Renata ; Saraiva, Antonio ; Pinaya, Jorge ; Becerra, Jorge. / A Complete RM-ODP Case-study to Integrate Geospatial Services and Ecological Niche Modeling Systems. Proceedings of the IEEE 13th International Conference on Information Reuse and Integration. editor / Chengcui Zhang ; James Joshi ; Elisa Bertino ; Bhavani Thuraisingham. Vol. 1 New Jersey USA : IEEE, Institute of Electrical and Electronics Engineers, 2012. pp. 239-246
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abstract = "Conservation and sustainable use of natural resources are relevant research areas for many different purposes, including biodiversity maintenance, global warming studies and sustainable development. An ecological niche model presents the geographic distribution of a species, considering the spatial, ecological and evolutionary perspectives. It also allows the definition of present, past and future scenarios for species distribution. The study of species distribution can be determinant for their management, so ecological niche modeling is a major current research trend. However, providing the resources for ecological niche modeling is a highly complex computational problem because it demands solutions with many integration, distribution and interoperability features. The Reference Model of Open Distributed Processing provided by the International Organization for Standardization, ISO RM-ODP, establishes five viewpoints to design a system: Enterprise, Computational, Information, Engineering, and Technology. Each viewpoint treats specifics constraints in order to describe a complex architectural solution, as the ones required for ecological niche modeling. The Open Geospatial Consortium, OGC, defined the OGC Reference Model, a guideline to provide the features for geospatial services, another major software requirement for ecological niche modeling. This work proposes an architectural solution for ecological niche modeling integrating the OGC and RM-ODP specifications in order to address all the constraints of the problem by the usage of viewpoints. The presented solution is already implemented and available on the Internet. Besides solving the problem itself, the solution is in the form of a complete RM-ODP case-study and may also be used as reference for further works in the ecological niche modeling research area",
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SANTANA, F, Stange, R, Saraiva, A, Pinaya, J & Becerra, J 2012, A Complete RM-ODP Case-study to Integrate Geospatial Services and Ecological Niche Modeling Systems. in C Zhang, J Joshi, E Bertino & B Thuraisingham (eds), Proceedings of the IEEE 13th International Conference on Information Reuse and Integration. vol. 1, IEEE, Institute of Electrical and Electronics Engineers, New Jersey USA, pp. 239-246, IEEE 13th International Conference on Information Reuse and Integration, IRI 2012, Las Vegas, United States, 8/08/12. https://doi.org/10.1109/IRI.2012.6303016

A Complete RM-ODP Case-study to Integrate Geospatial Services and Ecological Niche Modeling Systems. / SANTANA, Fabiana; Stange, Renata; Saraiva, Antonio; Pinaya, Jorge; Becerra, Jorge.

Proceedings of the IEEE 13th International Conference on Information Reuse and Integration. ed. / Chengcui Zhang; James Joshi; Elisa Bertino; Bhavani Thuraisingham. Vol. 1 New Jersey USA : IEEE, Institute of Electrical and Electronics Engineers, 2012. p. 239-246.

Research output: A Conference proceeding or a Chapter in BookConference contribution

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N2 - Conservation and sustainable use of natural resources are relevant research areas for many different purposes, including biodiversity maintenance, global warming studies and sustainable development. An ecological niche model presents the geographic distribution of a species, considering the spatial, ecological and evolutionary perspectives. It also allows the definition of present, past and future scenarios for species distribution. The study of species distribution can be determinant for their management, so ecological niche modeling is a major current research trend. However, providing the resources for ecological niche modeling is a highly complex computational problem because it demands solutions with many integration, distribution and interoperability features. The Reference Model of Open Distributed Processing provided by the International Organization for Standardization, ISO RM-ODP, establishes five viewpoints to design a system: Enterprise, Computational, Information, Engineering, and Technology. Each viewpoint treats specifics constraints in order to describe a complex architectural solution, as the ones required for ecological niche modeling. The Open Geospatial Consortium, OGC, defined the OGC Reference Model, a guideline to provide the features for geospatial services, another major software requirement for ecological niche modeling. This work proposes an architectural solution for ecological niche modeling integrating the OGC and RM-ODP specifications in order to address all the constraints of the problem by the usage of viewpoints. The presented solution is already implemented and available on the Internet. Besides solving the problem itself, the solution is in the form of a complete RM-ODP case-study and may also be used as reference for further works in the ecological niche modeling research area

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SN - 9781467322843

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BT - Proceedings of the IEEE 13th International Conference on Information Reuse and Integration

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SANTANA F, Stange R, Saraiva A, Pinaya J, Becerra J. A Complete RM-ODP Case-study to Integrate Geospatial Services and Ecological Niche Modeling Systems. In Zhang C, Joshi J, Bertino E, Thuraisingham B, editors, Proceedings of the IEEE 13th International Conference on Information Reuse and Integration. Vol. 1. New Jersey USA: IEEE, Institute of Electrical and Electronics Engineers. 2012. p. 239-246 https://doi.org/10.1109/IRI.2012.6303016