Control System Engineering A Complete Guide - 2020 Edition. Gerardus Blokdyk

Читать онлайн.
Название Control System Engineering A Complete Guide - 2020 Edition
Автор произведения Gerardus Blokdyk
Жанр Зарубежная деловая литература
Серия
Издательство Зарубежная деловая литература
Год выпуска 0
isbn 9781867459477



Скачать книгу

Score

      120. What knowledge or experience is required?

      <--- Score

      121. What are the Control system engineering use cases?

      <--- Score

      122. Is Control system engineering linked to key stakeholder goals and objectives?

      <--- Score

      123. The political context: who holds power?

      <--- Score

      124. How do you build the right business case?

      <--- Score

      125. What intelligence can you gather?

      <--- Score

      126. Has/have the customer(s) been identified?

      <--- Score

      127. What baselines are required to be defined and managed?

      <--- Score

      128. Is the current ‘as is’ process being followed? If not, what are the discrepancies?

      <--- Score

      129. How do you gather the stories?

      <--- Score

      130. Are all requirements met?

      <--- Score

      131. Has a team charter been developed and communicated?

      <--- Score

      132. What gets examined?

      <--- Score

      Add up total points for this section: _____ = Total points for this section

      Divided by: ______ (number of statements answered) = ______ Average score for this section

      Transfer your score to the Control system engineering Index at the beginning of the Self-Assessment.

      CRITERION #3: MEASURE:

      INTENT: Gather the correct data. Measure the current performance and evolution of the situation.

      In my belief, the answer to this question is clearly defined:

      5 Strongly Agree

      4 Agree

      3 Neutral

      2 Disagree

      1 Strongly Disagree

      1. How can a Control system engineering test verify your ideas or assumptions?

      <--- Score

      2. What causes investor action?

      <--- Score

      3. Is there an opportunity to verify requirements?

      <--- Score

      4. What measurements are being captured?

      <--- Score

      5. What are allowable costs?

      <--- Score

      6. How is the value delivered by Control system engineering being measured?

      <--- Score

      7. When a disaster occurs, who gets priority?

      <--- Score

      8. What do you measure and why?

      <--- Score

      9. What is the total fixed cost?

      <--- Score

      10. How much does it cost?

      <--- Score

      11. Where is the cost?

      <--- Score

      12. Who pays the cost?

      <--- Score

      13. What are the types and number of measures to use?

      <--- Score

      14. How can you measure Control system engineering in a systematic way?

      <--- Score

      15. How will you measure success?

      <--- Score

      16. How long to keep data and how to manage retention costs?

      <--- Score

      17. Did you tackle the cause or the symptom?

      <--- Score

      18. What causes innovation to fail or succeed in your organization?

      <--- Score

      19. What does verifying compliance entail?

      <--- Score

      20. Who is involved in verifying compliance?

      <--- Score

      21. What are your operating costs?

      <--- Score

      22. Was a business case (cost/benefit) developed?

      <--- Score

      23. What is the root cause(s) of the problem?

      <--- Score

      24. What are hidden Control system engineering quality costs?

      <--- Score

      25. Do the benefits outweigh the costs?

      <--- Score

      26. Has a cost center been established?

      <--- Score

      27. Are indirect costs charged to the Control system engineering program?

      <--- Score

      28. What are the operational costs after Control system engineering deployment?

      <--- Score

      29. How will effects be measured?

      <--- Score

      30. Why do the measurements/indicators matter?

      <--- Score

      31. What are the costs and benefits?

      <--- Score

      32. What causes extra work or rework?

      <--- Score

      33. How will success or failure be measured?

      <--- Score

      34. How to cause the change?

      <--- Score

      35. Does a Control system engineering quantification method exist?

      <--- Score

      36. How sensitive must the Control system engineering strategy be to cost?

      <--- Score

      37. What would it cost to replace your technology?

      <--- Score

      38. What methods are feasible and acceptable to estimate the impact of reforms?

      <--- Score

      39. How are measurements made?

      <--- Score

      40. How do you measure variability?

      <--- Score

      41. Have design-to-cost goals been established?

      <--- Score

      42. How do you verify performance?

      <--- Score

      43. How do you control the overall costs of your work processes?

      <--- Score

      44. How do you verify if Control system engineering is built right?

      <---