Model-Based Engineering

Model based engineering of Pichia pastoris central metabolism enhances recombinant protein production. 

The virtual world that is established by model based engineering is in close connection with the designed, stored, visualized, and documented worlds (Eigure 2-3). The designed world is the physical world to be modeled. Modeling experts sometimes should remember that the final purpose of engineering activities is to... 

Humans and computer procedures interact to develop more complete or less complete computer descriptions of products depending on the extent of the engineering activities to be assisted by computer model based engineering sessions. Computer descriptions of engineering objects are stored as data sets and consist of integrated or stand-alone data subsets. Integrated subsets are interconnected and model data flow is inherently ensured amongst them. Stand-alone subsets in most cases describe the same information in different formats. Moreover, the capabilities for the description of the same information sets may be very different. Interconnections of stand-alone subsets often require data transfer... 

Hung, T. V., and G. S. Frank. Towards model-based engineering of optoelectronic packaging materials dielectric constant modeling. Microelectron. J. 33,409-415 (2002). 

VERS ANT Corp., 2000, Versant Database Fundamentals Manual. Fremont, California, von Wedel, L., Marquardt, W., 2002, Rome A repository to support the integration of models over the lifecycle of model-based engineering processes. In S. Pierucci, (Ed.) European Symposium on Computer Aided Process Engineering - 10 , Elsevier, 535-540. 

Voelter, M. Preliminary Experience of using mbeddr for Developing Embedded Software. In Proceedings of the Workshop Model-based Engineering of Embedded Systems X, pp. 73-82. Wadern, Germany (2014)... 

Keywords Model-based engineering ARINC 653 Partitioned multicore... 

Model Based Engineering of an Unmanned Aerial System Jose Luis Femindez, Juan L6pez, and J. Patricio G6mez, Universidad Politecnica de Madrid and Unmanned Solutions, Spain. 

This section introduces brief summaries of approaches related to the KCMA in the engineering domain from the Database systems (Sect. 7.3.1) and Model-Based Engineering research communities (Sect. 7.3.2). 

In this book chapter, we have defined the context and challenges of KCMA in MDEng environments. To address the challenges, we have identified key requirements of KCMA in MDEng and provided an overview of techniques from three relevant research areas, namely Database Systems, Model-Based Engineering, and Semantic Web Technologies. 

Mauss, J., Seelisch, F., Tatar, M.M. A relational constraint solver for model-based engineering. In CP, pp. 696-701 (2002)... 

Keywords Automated production systems Semantic Web Technologies Model-Based Engineering Knowledge-based systems Inconsistency management... 

In order to specify the relevant aspects for checking the system for incompatibilities, an information model is defined that contains the information necessary for identifying whether two modules are compatible or not. By that, any Model-Based Engineering (MBE) approach can be combined with our compatibility information model, which can directly be used to compute the formal knowledgebase. Eigure 14.5 shows the relation between the MBE approach, the formal knowledge base and the information model with its elements and relations. As shown in the information model, structural aspects of mechanical, electrical/electronic, and software components, which can be combined to mechatronic modules, and the respective interfaces in the different disciplines are considered for the compatibility check. Eurthermore, the functionalities, which are fulfilled by a component/module, are considered. 

Feldmann, S., Herzig, S.J.I., Kemschmidt, K., Wolfenstetter, T., Kammerl, D., Qamar, A., Lindemann, U., Kremar, H., Paredis, C.J.J., Vogel-Heuser, B. Towards effective management of inconsistencies in model-based engineering of automated production systems. In 15th IFAC Symposium on Information Control in Manufacturing, Ottawa, Canada (2015)... 

Ray, A., Jetley, R., Jones, P., Zhang, Y. Model-based engineering for medical-device software. Biomedical Instrumentation Technology 44(6), 507-518 (2010) Ruksenas, R., Masci, P., Harrison, M.D., Curzon, P. Developing and verifying user interface requirements for infusion pumps a refinement approach. To appear in FMIS 2013 (2013)... 

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