Component based visualisation of DIET applications

Computing and Communications

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https://doi.org/10.1007/3-540-30790-7_21
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Component based visualisation of DIET applications. / Lengen, Rolf; Marrow, Paul; Bähr, Thies et al.
Scientific visualization: the visual extraction of knowledge from data mathematics and visualization. ed. / Georges-Pierre Bonneau ; Thomas Ertl ; Gregory M. Nielson . Berlin: Springer-Verlag, 2006. p. 367-384 (Mathematics and Visualization).

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSN › Chapter

Harvard

Lengen, R, Marrow, P, Bähr, T, Hagen, H, Bonsma, E & Hoile, C 2006, Component based visualisation of DIET applications. in G-P Bonneau , T Ertl & GM Nielson (eds), Scientific visualization: the visual extraction of knowledge from data mathematics and visualization. Mathematics and Visualization, Springer-Verlag, Berlin, pp. 367-384. https://doi.org/10.1007/3-540-30790-7_21

APA

Lengen, R., Marrow, P., Bähr, T., Hagen, H., Bonsma, E., & Hoile, C. (2006). Component based visualisation of DIET applications. In G.-P. Bonneau , T. Ertl , & G. M. Nielson (Eds.), Scientific visualization: the visual extraction of knowledge from data mathematics and visualization (pp. 367-384). (Mathematics and Visualization). Springer-Verlag. https://doi.org/10.1007/3-540-30790-7_21

Vancouver

Lengen R, Marrow P, Bähr T, Hagen H, Bonsma E, Hoile C. Component based visualisation of DIET applications. In Bonneau GP, Ertl T, Nielson GM, editors, Scientific visualization: the visual extraction of knowledge from data mathematics and visualization. Berlin: Springer-Verlag. 2006. p. 367-384. (Mathematics and Visualization). doi: 10.1007/3-540-30790-7_21

Author

Lengen, Rolf ; Marrow, Paul ; Bähr, Thies et al. / Component based visualisation of DIET applications. Scientific visualization: the visual extraction of knowledge from data mathematics and visualization. editor / Georges-Pierre Bonneau ; Thomas Ertl ; Gregory M. Nielson . Berlin : Springer-Verlag, 2006. pp. 367-384 (Mathematics and Visualization).

Bibtex

@inbook{c65902890f3e44fe9e4327f9abd4f1f1,

title = "Component based visualisation of DIET applications",

abstract = "Controlling distributed information in a complex information infrastructure requires novel and innovative information processing and management techniques. The Decentralised Information Ecosystem Technologies (hereafter, DIET) approach provides a software platform based on a lightweight, robust, adaptable, and scalable multi-agent system. DIET uses implicit forms of communication found in natural ecosystems as an analogy for computer-based distributed information management systems. The platform can be used to tackle a variety of information management applications in distributed and open real-world scenarios.However, the development, debugging, and monitoring of distributed applications is a complex task. Adequate visualisation techniques and tools are required to assist the software developer. This paper describes the visualisation platform developed on top of the DIET framework. The main purpose of the visualisation platform is the inspection and manipulation of ecosystem inspired applications built upon DIET. The platform provides fundamental visualisation components that can be easily linked together to build up a visual network in order to formulate complex visualisation tasks. Possible tasks can range from monitoring an individual agent to visualising the overall system behaviour. Due to this component based approach the effort for monitoring and debugging agent applications is considerably reduced.",

author = "Rolf Lengen and Paul Marrow and Thies B{\"a}hr and Hans Hagen and Erwin Bonsma and Cefn Hoile",

year = "2006",

doi = "10.1007/3-540-30790-7_21",

language = "English",

isbn = "978-3-540-26066-0",

series = "Mathematics and Visualization",

publisher = "Springer-Verlag",

pages = "367--384",

editor = "{Bonneau }, {Georges-Pierre } and {Ertl }, {Thomas } and {Nielson }, {Gregory M.}",

booktitle = "Scientific visualization",

}

RIS

TY - CHAP

T1 - Component based visualisation of DIET applications

AU - Lengen, Rolf

AU - Marrow, Paul

AU - Bähr, Thies

AU - Hagen, Hans

AU - Bonsma, Erwin

AU - Hoile, Cefn

PY - 2006

Y1 - 2006

N2 - Controlling distributed information in a complex information infrastructure requires novel and innovative information processing and management techniques. The Decentralised Information Ecosystem Technologies (hereafter, DIET) approach provides a software platform based on a lightweight, robust, adaptable, and scalable multi-agent system. DIET uses implicit forms of communication found in natural ecosystems as an analogy for computer-based distributed information management systems. The platform can be used to tackle a variety of information management applications in distributed and open real-world scenarios.However, the development, debugging, and monitoring of distributed applications is a complex task. Adequate visualisation techniques and tools are required to assist the software developer. This paper describes the visualisation platform developed on top of the DIET framework. The main purpose of the visualisation platform is the inspection and manipulation of ecosystem inspired applications built upon DIET. The platform provides fundamental visualisation components that can be easily linked together to build up a visual network in order to formulate complex visualisation tasks. Possible tasks can range from monitoring an individual agent to visualising the overall system behaviour. Due to this component based approach the effort for monitoring and debugging agent applications is considerably reduced.

AB - Controlling distributed information in a complex information infrastructure requires novel and innovative information processing and management techniques. The Decentralised Information Ecosystem Technologies (hereafter, DIET) approach provides a software platform based on a lightweight, robust, adaptable, and scalable multi-agent system. DIET uses implicit forms of communication found in natural ecosystems as an analogy for computer-based distributed information management systems. The platform can be used to tackle a variety of information management applications in distributed and open real-world scenarios.However, the development, debugging, and monitoring of distributed applications is a complex task. Adequate visualisation techniques and tools are required to assist the software developer. This paper describes the visualisation platform developed on top of the DIET framework. The main purpose of the visualisation platform is the inspection and manipulation of ecosystem inspired applications built upon DIET. The platform provides fundamental visualisation components that can be easily linked together to build up a visual network in order to formulate complex visualisation tasks. Possible tasks can range from monitoring an individual agent to visualising the overall system behaviour. Due to this component based approach the effort for monitoring and debugging agent applications is considerably reduced.

U2 - 10.1007/3-540-30790-7_21

DO - 10.1007/3-540-30790-7_21

M3 - Chapter

SN - 978-3-540-26066-0

T3 - Mathematics and Visualization

SP - 367

EP - 384

BT - Scientific visualization

A2 - Bonneau , Georges-Pierre

A2 - Ertl , Thomas

A2 - Nielson , Gregory M.

PB - Springer-Verlag

CY - Berlin

ER -

Research

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