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- Livermore, California, United States
- Bio
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As a business process improvement coach & consultant I worked with several corporations in different continents over 25 years. After a successful 6-year work experience at General Electric Corporation, I founded my company in 2000, and have been fortunate to successfully deliver in a variety of industries such as manufacturing, technology, transactional as well as service type environments. Having published scientific & technical articles, including authoring 5 US patents I released my book on Lean Six Sigma in 2011.
I can converse reasonably in Dutch, and Spanish, the skills of which I acquired during my consulting times. To date, the total annualized direct customer benefits have accrued to several hundreds of millions of dollars across the globe in more than 20 years. I enjoy outdoor activities, and meeting people. I am thankful to my mentor (s), past employers, and my professional network members without which most achievements would have been impossible. - Companies
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Livermore, California, United States
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Recent projects
Selecting Systems for Effective Animation
NOTE: Students & Instructors are encouraged to read & review our AFAQs.Scope:Researching animation systems for a user-friendly process to animate (Sourcing Animation Software - SW)Creating a Pugh matrix on available systems to compare, effectiveness, efficiency, investment, & payoff time (Rating SW)Screening and Selecting optimum animation system to pilot for demonstration (Screening to Select SW)Showing how to register, and get project started (Registration to Getting Started)Taking the simplest of all animation sequences with associated content to lay it out (Ease of SW Use)Tracking the time associated with sequential steps to let users know of simplicity and effectiveness (Speed of SW Use)Inserting tips, and tricks on features offered by SW, to maximize value from the system (SW Shortcuts)Using example scenarios to run an animation process to completion (Demonstrating a Real World Example)
Connectivity Excellence Across IoT Devices for Sustained Performance
NOTE: Students & Instructors are encouraged to read & review our AFAQs.Scope:Baselining urgency & value proposition for IoT devices, relating to SWQuantifying unexpected downtime relating to SW updatesGenerating Pugh Matrix to form the basis toward App design & developmentMapping process for App design & development, including integration with systemsDesign test plan to include already purchased & to-be purchased IoT devicesTesting App for robusteness across available device types & manufacturersFinalizing App design to meet standard platform compliances for commercial useEnd Game: (a) New IoT Device Purchase Decision Making(b) Existing IoT Device Owners to Leverage SW Updates.
AI Based Correlations Between Open Positions and Business Objectives
Notes:Students & Instructors are encouraged to read & review our AFAQs.Please review student incentives available, upon successful Project completion.Scope:Leveraging JDs DB to assess and project business objectivesDrawing correlations between open positions & business objectivesValidating these projections with facts & figuresMapping an App to comprehend Employer's objectivesModelling Outcome of App to Workplace Employee ProductivityUtilizing open positions to customize educational curriculumDesigning a Robust Model Addressing Current & Future EmployeesGoal:AI & ChatGPT will assist predicting Corporate business objectives via published JDs.
Quantifying Design Parameters for Optimum Product Performance
Notes: Students & Instructors are encouraged to read & review our AFAQs.Please review student incentives available, upon successful Project completion.Scope:Building various airplane models to test flight performance via distance & timeUsing office materials such as paper & metal to influence design & flight performanceVarying available designs by raw material parameters to build airplanesFormulating to build airplanes using materials in simple formats & affordable costTracking cycle time to build different airplane designs for different applicationsMonitoring flight (linear or areal) distance & time (launch to land) by design typesEnd Game: Quantifying Design Parameters for Optimum Flight Performance- Varying airplane design for differing flight performance (Distance and Time)- Controlling parameters to vary performance characteristics of flight (Distance and Time)