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Software design for simulating microbial bioprocesses in bioreactor

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Standard

Software design for simulating microbial bioprocesses in bioreactor. / Nikhil, ; Puhakka, J. A.; Visa, A.; Yli-Harja, O.

6th International Conference on Environmental Informatics, ISEIS 2007. International Society for Environmental Information Sciences, 2014. 60700018.

Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

Harvard

Nikhil, , Puhakka, JA, Visa, A & Yli-Harja, O 2014, Software design for simulating microbial bioprocesses in bioreactor. in 6th International Conference on Environmental Informatics, ISEIS 2007., 60700018, International Society for Environmental Information Sciences, 6th International Conference on Environmental Informatics, ISEIS 2007, Bangkok, Thailand, 21/11/07.

APA

Nikhil, Puhakka, J. A., Visa, A., & Yli-Harja, O. (2014). Software design for simulating microbial bioprocesses in bioreactor. In 6th International Conference on Environmental Informatics, ISEIS 2007 [60700018] International Society for Environmental Information Sciences.

Vancouver

Nikhil , Puhakka JA, Visa A, Yli-Harja O. Software design for simulating microbial bioprocesses in bioreactor. In 6th International Conference on Environmental Informatics, ISEIS 2007. International Society for Environmental Information Sciences. 2014. 60700018

Author

Nikhil, ; Puhakka, J. A. ; Visa, A. ; Yli-Harja, O. / Software design for simulating microbial bioprocesses in bioreactor. 6th International Conference on Environmental Informatics, ISEIS 2007. International Society for Environmental Information Sciences, 2014.

Bibtex - Download

@inproceedings{462cdd3073e34984b153ee94d9d2ab64,
title = "Software design for simulating microbial bioprocesses in bioreactor",
abstract = "UML based software design use is presented to implement a simulation environment. Simulation environment will be a software application which will provide a playground for researchers to simulate bioreactor experiments involving microbial species and predict the products of the experiment. Four subsystems namely: Feed system, Bioreactor system, Microbial system and Products system were identified and are presented as four major classes. The implementation of the system is left open at this stage and simulation environment can be implemented using object oriented programming languages like C++, JAVA and platforms like MATLAB (Simulink).",
keywords = "Bioreactor, Microbial bioprocess, Simulation environment, Software design, UML",
author = "Nikhil and Puhakka, {J. A.} and A. Visa and O. Yli-Harja",
year = "2014",
language = "English",
booktitle = "6th International Conference on Environmental Informatics, ISEIS 2007",
publisher = "International Society for Environmental Information Sciences",

}

RIS (suitable for import to EndNote) - Download

TY - GEN

T1 - Software design for simulating microbial bioprocesses in bioreactor

AU - Nikhil,

AU - Puhakka, J. A.

AU - Visa, A.

AU - Yli-Harja, O.

PY - 2014

Y1 - 2014

N2 - UML based software design use is presented to implement a simulation environment. Simulation environment will be a software application which will provide a playground for researchers to simulate bioreactor experiments involving microbial species and predict the products of the experiment. Four subsystems namely: Feed system, Bioreactor system, Microbial system and Products system were identified and are presented as four major classes. The implementation of the system is left open at this stage and simulation environment can be implemented using object oriented programming languages like C++, JAVA and platforms like MATLAB (Simulink).

AB - UML based software design use is presented to implement a simulation environment. Simulation environment will be a software application which will provide a playground for researchers to simulate bioreactor experiments involving microbial species and predict the products of the experiment. Four subsystems namely: Feed system, Bioreactor system, Microbial system and Products system were identified and are presented as four major classes. The implementation of the system is left open at this stage and simulation environment can be implemented using object oriented programming languages like C++, JAVA and platforms like MATLAB (Simulink).

KW - Bioreactor

KW - Microbial bioprocess

KW - Simulation environment

KW - Software design

KW - UML

UR - http://www.scopus.com/inward/record.url?scp=84915751131&partnerID=8YFLogxK

M3 - Conference contribution

BT - 6th International Conference on Environmental Informatics, ISEIS 2007

PB - International Society for Environmental Information Sciences

ER -