Читать книгу Power System Simulation A Complete Guide - 2020 Edition - Gerardus Blokdyk - Страница 9

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. Have design-to-cost goals been established?

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2. When should you bother with diagrams?

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3. How frequently do you track Power system simulation measures?

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4. Do you effectively measure and reward individual and team performance?

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5. What are your operating costs?

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6. How do you aggregate measures across priorities?

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7. Where is it measured?

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8. How do you verify and validate the Power system simulation data?

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9. What are the costs of delaying Power system simulation action?

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10. Do you aggressively reward and promote the people who have the biggest impact on creating excellent Power system simulation services/products?

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

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12. How can you manage cost down?

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13. How do you verify performance?

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14. What could cause delays in the schedule?

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15. How will you measure success?

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16. What causes mismanagement?

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17. What measurements are possible, practicable and meaningful?

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

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19. How frequently do you verify your Power system simulation strategy?

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20. How much does it cost?

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21. Are the Power system simulation benefits worth its costs?

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22. What are you verifying?

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23. What are the Power system simulation key cost drivers?

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24. How do you verify your resources?

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25. Will Power system simulation have an impact on current business continuity, disaster recovery processes and/or infrastructure?

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26. Are missed Power system simulation opportunities costing your organization money?

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27. Is the solution cost-effective?

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28. Are actual costs in line with budgeted costs?

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29. How are measurements made?

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30. How are you verifying it?

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31. How can you reduce the costs of obtaining inputs?

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32. What disadvantage does this cause for the user?

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33. Which Power system simulation impacts are significant?

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34. Do you have any cost Power system simulation limitation requirements?

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35. What happens if cost savings do not materialize?

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36. What are your key Power system simulation organizational performance measures, including key short and longer-term financial measures?

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37. Are there measurements based on task performance?

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38. Are the units of measure consistent?

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39. Are there any easy-to-implement alternatives to Power system simulation? Sometimes other solutions are available that do not require the cost implications of a full-blown project?

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40. Do you have an issue in getting priority?

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

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42. Are the measurements objective?

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43. What are the costs?

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44. What are the strategic priorities for this year?

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45. How will effects be measured?

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46. Where is the cost?

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47. Are there competing Power system simulation priorities?

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48. Who should receive measurement reports?

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49. What is measured? Why?

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50. How do you verify Power system simulation completeness and accuracy?

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51. Have you included everything in your Power system simulation cost models?

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52. Why do you expend time and effort to implement measurement, for whom?

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53. What are your customers expectations and measures?

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54. Are supply costs steady or fluctuating?

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55. Who pays the cost?

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56. What is the total fixed cost?

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57. Among the Power system simulation product and service cost to be estimated, which is considered hardest to estimate?

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58. What is the total cost related to deploying Power system simulation, including any consulting or professional services?

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59. What tests verify requirements?

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60. What are the current costs of the Power system simulation process?

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61. How will you measure your Power system simulation effectiveness?

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62. Do you verify that corrective actions were taken?

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63. How do you prevent mis-estimating cost?

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64. How do your measurements capture actionable Power system simulation information for use in exceeding your customers expectations and securing your customers engagement?

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65. What is your Power system simulation quality cost segregation study?

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66. Why do the measurements/indicators matter?

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67. What is your decision requirements diagram?

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68. What are your primary costs, revenues, assets?

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69. Is the cost worth the Power system simulation effort ?

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70. Which costs should be taken into account?

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71. How do you verify if Power system simulation is built right?

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

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73. How do you measure success?

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74. What potential environmental factors impact the Power system simulation effort?

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75. What are the operational costs after Power system simulation deployment?

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76. How can a Power system simulation test verify your ideas or assumptions?

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77. What are the Power system simulation investment costs?

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78. How do you quantify and qualify impacts?

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79. Why a Power system simulation focus?

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80. Does the Power system simulation task fit the client’s priorities?

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81. How can you measure Power system simulation in a systematic way?

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82. What are the costs and benefits?

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83. What are the costs of reform?

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84. What are allowable costs?

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85. Are Power system simulation vulnerabilities categorized and prioritized?

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86. What can be used to verify compliance?

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87. What does your operating model cost?

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88. What is the cost of rework?

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89. What does losing customers cost your organization?

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90. What drives O&M cost?

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91. Who is involved in verifying compliance?

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92. What would be a real cause for concern?

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93. What is the cause of any Power system simulation gaps?

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94. Did you tackle the cause or the symptom?

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95. What are the uncertainties surrounding estimates of impact?

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96. Is there an opportunity to verify requirements?

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97. When a disaster occurs, who gets priority?

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98. How can you measure the performance?

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99. Are you aware of what could cause a problem?

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100. Does management have the right priorities among projects?

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101. What would it cost to replace your technology?

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102. How is the value delivered by Power system simulation being measured?

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103. How will costs be allocated?

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104. What measurements are being captured?

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

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106. Do you have a flow diagram of what happens?

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107. Do the benefits outweigh the costs?

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

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109. What details are required of the Power system simulation cost structure?

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110. How are costs allocated?

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111. How do you measure variability?

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112. What does verifying compliance entail?

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113. At what cost?

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114. What relevant entities could be measured?

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115. What do people want to verify?

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116. Are you able to realize any cost savings?

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117. Where can you go to verify the info?

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118. What evidence is there and what is measured?

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119. What does a Test Case verify?

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120. Does a Power system simulation quantification method exist?

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121. How is performance measured?

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122. How to cause the change?

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123. How can you reduce costs?

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124. What could cause you to change course?

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125. How will success or failure be measured?

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126. What are the estimated costs of proposed changes?