Difference between revisions of "CyberUnits"
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| − | = | + | == About == |
| − | CyberUnits is a collection of cross-platform units for medical cybernetics and systems biology. It supports Object Pascal, S and Matlab. | + | |
| + | '''CyberUnits''' is a collection of cross-platform units for medical cybernetics and systems biology. It supports [[Object Pascal]], S and Matlab. | ||
| + | |||
| + | Author: Johannes W. Dietrich, (c) Ludwig Maximilian University of Munich, (c) University of Ulm Hospitals, (c) Ruhr University of Bochum | ||
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| + | License: BSD license. It may therefore be used in both free open source software and commercial products. | ||
[[File:cyberunit-bricks.png]] | [[File:cyberunit-bricks.png]] | ||
| − | =Libraries= | + | == Libraries == |
| − | ==Bricks== | + | |
| + | === Bricks === | ||
| + | |||
Bricks is the first component of the CyberUnits repository. Bricks is a class library that facilitates rapid programming of high-performance computer simulations in life sciences, technical cybernetics and related fields. It supports numeric simulations in time domain and characterisation of systems or subsystems in frequency domain. Additionally, it contains a powerful Systems Diagram unit that provides classes for drawing block diagrams of feedback loops and other information processing structures, ready for integration in new or existing programs. | Bricks is the first component of the CyberUnits repository. Bricks is a class library that facilitates rapid programming of high-performance computer simulations in life sciences, technical cybernetics and related fields. It supports numeric simulations in time domain and characterisation of systems or subsystems in frequency domain. Additionally, it contains a powerful Systems Diagram unit that provides classes for drawing block diagrams of feedback loops and other information processing structures, ready for integration in new or existing programs. | ||
Possible applications of CyberUnits Bricks include but are not limited to control systems engineering, medical cybernetics, systems biology, bioinformatics, systems dynamics and synthetic biology. | Possible applications of CyberUnits Bricks include but are not limited to control systems engineering, medical cybernetics, systems biology, bioinformatics, systems dynamics and synthetic biology. | ||
| − | =Download= | + | == References == |
| + | # Dietrich JW, Boehm BO. Die MiMe-NoCoDI-Plattform: Ein Ansatz für die Modellierung biologischer Regelkreise. German Medical Science GMS Publishing House; 2015. DocAbstr. 284. [https://dx.doi.org/10.3205/15gmds058 doi 10.3205/15gmds058] [https://nbn-resolving.org/urn:nbn:de:0183-15gmds0581 urn urn:nbn:de:0183-15gmds0581]. | ||
| + | # Dietrich JW. A Methodology for Vertical Translation Between Molecular and Organismal Level in Biological Feedback Loops. bioRxiv 2021.09.20.461028; [https://doi.org/10.1101/2021.09.20.461028 doi https://doi.org/10.1101/2021.09.20.461028]. | ||
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| + | ==Download== | ||
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Homepage: http://cyberunits.sf.net/ | Homepage: http://cyberunits.sf.net/ | ||
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[[Category:FPC in Science and Technology]] | [[Category:FPC in Science and Technology]] | ||
[[Category:Software for Biomedical Research]] | [[Category:Software for Biomedical Research]] | ||
| + | [[Category:Software written in Free Pascal]] | ||
| + | [[Category:Software created with Lazarus]] | ||
| + | [[Category:Modelling and Simulation]] | ||
Latest revision as of 17:19, 22 October 2021
About
CyberUnits is a collection of cross-platform units for medical cybernetics and systems biology. It supports Object Pascal, S and Matlab.
Author: Johannes W. Dietrich, (c) Ludwig Maximilian University of Munich, (c) University of Ulm Hospitals, (c) Ruhr University of Bochum
License: BSD license. It may therefore be used in both free open source software and commercial products.
Libraries
Bricks
Bricks is the first component of the CyberUnits repository. Bricks is a class library that facilitates rapid programming of high-performance computer simulations in life sciences, technical cybernetics and related fields. It supports numeric simulations in time domain and characterisation of systems or subsystems in frequency domain. Additionally, it contains a powerful Systems Diagram unit that provides classes for drawing block diagrams of feedback loops and other information processing structures, ready for integration in new or existing programs.
Possible applications of CyberUnits Bricks include but are not limited to control systems engineering, medical cybernetics, systems biology, bioinformatics, systems dynamics and synthetic biology.
References
- Dietrich JW, Boehm BO. Die MiMe-NoCoDI-Plattform: Ein Ansatz für die Modellierung biologischer Regelkreise. German Medical Science GMS Publishing House; 2015. DocAbstr. 284. doi 10.3205/15gmds058 urn urn:nbn:de:0183-15gmds0581.
- Dietrich JW. A Methodology for Vertical Translation Between Molecular and Organismal Level in Biological Feedback Loops. bioRxiv 2021.09.20.461028; doi https://doi.org/10.1101/2021.09.20.461028.
Download
Homepage: http://cyberunits.sf.net/
