Abstract
Nowadays, developing and applying advanced digital technologies for monitoring protected natural territories are critical problems. Collecting, digitalizing, storing, and analyzing spatiotemporal data on various aspects of the life cycle of such territories play a significant role in monitoring. Often, data processing requires the utilization of high-performance computing. To this end, the paper addresses a new approach to automation of implementing resource-intensive computational operations of web processing services in a heterogeneous distributed computing environment. To implement such an operation, we develop a workflow-based scientific application executed under the control of a multi-agent system. Agents represent heterogeneous resources of the environment and distribute the computational load among themselves. Software development is realized in the Orlando Tools framework, which we apply to creating and operating problem-oriented applications. The advantages of the proposed approach are in integrating geographic information services and high-performance computing tools, as well as in increasing computation speedup, balancing computational load, and improving the efficiency of resource use in the heterogeneous distributed computing environment. These advantages are shown in analyzing multidimensional time series.
Highlights
Nowadays, developing and applying advanced digital technologies for monitoring ecology and nature management of the environment are critical for the scientific community [1]
We used retrospective multidimensional time series obtained applying the Web Processing Service (WPS) service registered on the Geographic information systems (GISs) portal to extract and process meteorological data from [51]
We proposed an approach to integrating WPS services with workflowbased scientific applications within the GIS portal that supports solving environmental monitoring problems
Summary
Nowadays, developing and applying advanced digital technologies for monitoring ecology and nature management of the environment (e.g., atmospheric air, surface land waters, sea waters, soil and land cover, landscapes, etc.) are critical for the scientific community [1]. In this context, protected natural territories deserve special attention and control due to the importance and uniqueness of their water, land, forest, biological, and other natural resources [2]. Environmental monitoring is impossible without applying a multi-level information complex [3]. End-users have access to distributed algorithms, models, data, and sensors for geodata processing
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