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mbse:pbse [2015/07/30 11:40]
jcwatson
mbse:pbse [2015/07/30 11:58]
jcwatson
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-{{:​mbse:​methodology:​pbse_title_2.jpg|}}+{{:​mbse:​methodology:​pbse_title3.jpg|}}
  
 === Overview === === Overview ===
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 {{:​mbse:​methodology:​s_patterns_fg2.jpg|}} {{:​mbse:​methodology:​s_patterns_fg2.jpg|}}
  
-//__Organizational/Learning Gains:__//+//Organizational/Learning Gains://
   * Reduced recurring cost of modeling, along with shift of emphasis, from “learn how to model” (an abstract skill) to “learn the model (pattern)” in use by an enterprise, a more concrete knowledge of the enterprise’s products, simplifying the introduction of MBSE methods.   * Reduced recurring cost of modeling, along with shift of emphasis, from “learn how to model” (an abstract skill) to “learn the model (pattern)” in use by an enterprise, a more concrete knowledge of the enterprise’s products, simplifying the introduction of MBSE methods.
   * A structured means of representing and accessing learning across organizational boundaries and different languages—technical,​ marketing, customer, production, life cycle support.   * A structured means of representing and accessing learning across organizational boundaries and different languages—technical,​ marketing, customer, production, life cycle support.
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-//__Foundational ​Engineering Improvements:​__//+//Foundational ​Engineering Improvements://​
   * Explication of the System Phenomenon as a real world-based science and math foundation for systems engineering,​ amenable to systems science, connected to historical math/​science models of engineering disciplines,​ encouraging discovery and expression of higher-level systemic phenomena.   * Explication of the System Phenomenon as a real world-based science and math foundation for systems engineering,​ amenable to systems science, connected to historical math/​science models of engineering disciplines,​ encouraging discovery and expression of higher-level systemic phenomena.
  
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   * Strengthened semantic integration of system requirements with the rest of the model.   * Strengthened semantic integration of system requirements with the rest of the model.
  
-//__Engineering ​Process and Automation:__//+//Engineering ​Process and Automation://​
   * Expression of key patterns in both Engineered Systems and Systems of Engineering,​ including the Embedded Intelligence (Management) Pattern, the Systems of Innovation Pattern generalization of ISO 15288, and its Agile Systems Life Cycle Pattern form.   * Expression of key patterns in both Engineered Systems and Systems of Engineering,​ including the Embedded Intelligence (Management) Pattern, the Systems of Innovation Pattern generalization of ISO 15288, and its Agile Systems Life Cycle Pattern form.
  
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   * Rapid generation of D-FMEA, A-FMEA, P-FMEA, and FTA analyses of risks on a more systematic and complete basis, more deeply integrated with the rest of the system model.   * Rapid generation of D-FMEA, A-FMEA, P-FMEA, and FTA analyses of risks on a more systematic and complete basis, more deeply integrated with the rest of the system model.
  
-//__Compatibility ​/ Ease of Integration__//+//Compatibility ​/ Ease of Integration//
   * Compatibility with contemporary modeling language standards.   * Compatibility with contemporary modeling language standards.
  
mbse/pbse.txt · Last modified: 2015/07/30 13:08 by jcwatson