Business risk and simulation modelling in practice: using Excel, VBA and @RISK
Gespeichert in:
| 1. Verfasser: | |
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| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Chichester
Wiley
2015
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| Schriftenreihe: | Wiley finance series
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Buchcover |
| Beschreibung: | Includes index |
| Beschreibung: | XXV, 438 S. graph. Darst. |
| ISBN: | 9781118904053 |
Internformat
MARC
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Datensatz im Suchindex
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|---|---|
| adam_text | Titel: Business risk and simulation modelling in practice
Autor: Rees, Michael
Jahr: 2015
Contents
Preface xvii
About the Author xxiii
About the Website xxv
PART I
An introduction to Risk Assessment - Its Uses, Processes, Approaches,
Benefits and Challenges
CHAPTER 1
The Context and Uses of Risk Assessment 3
1.1 Risk Assessment Examples 3
1.1.1 Everyday Examples of Risk Management 4
1.1.2 Prominent Risk Management Failures 5
1.2 General Challenges in Decision-Making Processes 7
1.2.1 Balancing Intuition with Rationality 7
1.2.2 The Presence of Biases 9
1.3 Key Drivers of the Need for Formalised Risk Assessment in Business
Contexts 14
1.3.1 Complexity 14
1.3.2 Scale 15
1.3.3 Authority and Responsibility to Identify and Execute Risk-Response
Measures 16
1.3.4 Corporate Governance Guidelines 16
1.3.5 General Organisational Effectiveness and the Creation of
Competitive Advantage 18
1.3.6 Quantification Requirements 18
1.3.7 Reflecting Risk Tolerances in Decisions and in Business Design 19
1.4 The Objectives and Uses of General Risk Assessment 19
1.4.1 Adapt and Improve the Design and Structure of Plans and Projects 20
1.4.2 Achieve Optimal Risk Mitigation within Revised Plans 20
1.4.3 Evaluate Projects, Set Targets and Reflect Risk Tolerances in
Decision-Making 21
1.4.4 Manage Projects Effectively 21
1.4.5 Construct, Select and Optimise Business and Project Portfolios 22
1.4.6 Support the Creation of Strategic Options and Corporate Planning 25
CHAPTER 2 __
Key Stages of the General Risk Assessment Process 28
2.1 Overview of the Process Stages 39
2.2 Process Iterations 30
2.3 Risk Identification 32
2.3.1 The Importance of a Robust Risk Identification Step 32
2.3.2 Bringing Structure into the Process 32
2.3.3 Distinguishing Variability from Decision Risks 34
2.3.4 Distinguishing Business Issues from Risks 34
2.3.5 Risk Identification in Quantitative Approaches: Additional
Considerations 35
2.4 Risk Mapping 35
2.4.1 Key Objectives 35
2.4.2 Challenges 35
2.5 Risk Prioritisation and Its Potential Criteria 36
2.5.1 Inclusion/Exclusion 36
2.5.2 Communications Focus 37
2.5.3 Commonality and Comparison 38
2.5.4 Modelling Reasons 39
2.5.5 General Size of Risks, Their Impact and Likelihood 39
2.5.6 Influence: Mitigation and Response Measures, and Management
Actions 40
2.5.7 Optimising Resource Deployment and Implementation Constraints 41
2.6 Risk Response: Mitigation and Exploitation 42
2.6.1 Reduction 42
2.6.2 Exploitation 42
2.6.3 Transfer 42
2.6.4 Research and Information Gathering 43
2.6.5 Diversification 43
2.7 Project Management and Monitoring 44
CHAPTER 3
Approaches to Risk Assessment and Quantification 45
3.1 Informal or Intuitive Approaches 45
3.2 Risk Registers without Aggregation 45
3.2.1 Qualitative Approaches 45
3.2.2 Quantitative Approaches 4g
3.3 Risk Register with Aggregation (Quantitative) 50
3.3.1 The Benefits of Aggregation 50
3.3.2 Aggregation of Static Values 51
3.3.3 Aggregation of Risk-Driven Occurrences and Their Impacts 52
3.3.4 Requirements and Differences to Non-Aggregation Approaches 54
3.4 Full Risk Modelling 56
3.4.1 Quantitative Aggregate Risk Registers as a First Step to Full
Models 56
CHAPTER 4
Full Integrated Risk Modelling: Decision-Support Benefits 59
4.1 Key Characteristics of Full Models 59
4.2 Overview of the Benefits of Full Risk Modelling 61
4.3 Creating More Accurate and Realistic Models 62
4.3.1 Reality is Uncertain: Models Should Reflect This 62
4.3.2 Structured Process to Include All Relevant Factors 63
4.3.3 Unambiguous Approach to Capturing Event Risks 63
4.3.4 Inclusion of Risk Mitigation and Response Factors 66
4.3.5 Simultaneous Occurrence of Uncertainties and Risks 66
4.3.6 Assessing Outcomes in Non-Linear Situations 67
4.3.7 Reflecting Operational Flexibility and Real Options 67
4.3.8 Assessing Outcomes with Other Complex Dependencies 71
4.3.9 Capturing Correlations, Partial Dependencies and Common
Causalities 73
4.4 Using the Range of Possible Outcomes to Enhance Decision-Making 74
4.4.1 Avoiding The Trap of the Most Likely or Structural Biases 76
4.4.2 Finding the Likelihood of Achieving a Base Case 78
4.4.3 Economic Evaluation and Reflecting Risk Tolerances 82
4.4.4 Setting Contingencies, Targets and Objectives 83
4.5 Supporting Transparent Assumptions and Reducing Biases 84
4.5.1 Using Base Cases that are Separate to Risk Distributions 85
4.5.2 General Reduction in Biases 85
4.5.3 Reinforcing Shared Accountability 85
4.6 Facilitating Group Work and Communication 86
4.6.1 A Framework for Rigorous and Precise Work 86
4.6.2 Reconcile Some Conflicting Views 86
CHAPTER 5
Organisational Challenges Relating to Risk Modelling 87
5.1 We Are Doing It Already 87
5.1.1 Our ERM Department Deals with Those Issues 88
5.1.2 Everybody Should Just Do Their Job Anyway! 88
5.1.3 We Have Risk Registers for All Major Projects 89
5.1.4 We Run Sensitivities and Scenarios: Why Do More? 89
5.2 We Already Tried It, and It Showed Unrealistic Results 89
5.2.1 All Cases Were Profitable 90
5.2.2 The Range of Outcomes Was Too Narrow 90
5.3 The Models Will Not Be Useful! 91
5.3.1 We Should Avoid Complicated Black Boxes! 91
5.3.2 All Models Are Wrong, Especially Risk Models! 91
5.3.3 Can You Prove that It Even Works? 92
5.3.4 Why Bother to Plan Things that Might Not Even Happen? 93
5.4 Working Effectively with Enhanced Processes and Procedures 93
5.4.1 Selecting the Right Projects, Approach and Decision Stage 93
5.4.2 Managing Participant Expectations 95
5.4.3 Standardisation of Processes and Models 95
5.5 Management Processes, Culture and Change Management 96
5.5.1 Integration with Decision Processes 96
5.5.2 Ensuring Alignment of Risk Assessment and Modelling Processes 97
5.5.3 Implement from the Bottom Up or the Top Down? 98
5.5.4 Encouraging Issues to Be Escalated: Don t Shoot the Messenger! 99
5.5.5 Sharing Accountability for Poor Decisions 99
5.5.6 Ensuring Alignment with Incentives and Incentive Systems 100
5.5.7 Allocation and Ownership of Contingency Budgets 101
5.5.8 Developing Risk Cultures and Other Change Management
Challenges 102
PART II
The Design of Risk Models - Principles, Processes and Methodology
CHAPTER 6
Principles of Simulation Methods 107
6.1 Core Aspects of Simulation: A Descriptive Example 107
6.1.1 The Combinatorial Effects of Multiple Inputs and Distribution of
Outputs 107
6.1.2 Using Simulation to Sample Many Diverse Scenarios 110
6.2 Simulation as a Risk Modelling Tool 112
6.2.1 Distributions of Input Values and Their Role 113
6.2.2 The Effect of Dependencies between Inputs 114
6.2.3 Key Questions Addressable using Risk-Based Simulation 114
6.2.4 Random Numbers and the Required Number of Recalculations or
Iterations 115
6.3 Sensitivity and Scenario Analysis: Relationship to Simulation 116
6.3.1 Sensitivity Analysis 116
6.3.2 Scenario Analysis 119
6.3.3 Simulation using DataTables 121
6.3.4 GoalSeek 121
6.4 Optimisation Analysis and Modelling: Relationship to Simulation 122
6.4.1 Uncertainty versus Choice 122
6.4.2 Optimisation in the Presence of Risk and Uncertainty 129
6.4.3 Modelling Aspects of Optimisation Situations 131
6.5 Analytic and Other Numerical Methods 133
6.5.1 Analytic Methods and Closed-Form Solutions 133
6.5.2 Combining Simulation Methods with Exact Solutions 135
6.6 The Applicability of Simulation Methods 135
CHAPTER 7
Core Principles of Risk Model Design 137
7.1 Model Planning and Communication 138
7.1.1 Decision-Support Role 138
7.1.2 Planning the Approach and Communicating the Output 138
7.1.3 Using Switches to Control the Cases and Scenarios 139
7.1.4 Showing the Effect of Decisions versus Those of Uncertainties 140
7.1.5 Keeping It Simple, but not Simplistic: New Insights versus
Modelling Errors 144
7.2 Sensitivity-Driven Thinking as a Model Design Tool 146
7.2.1 Enhancing Sensitivity Processes for Risk Modelling 150
7.2.2 Creating Dynamic Formulae 151
7.2.3 Example: Time Shifting for Partial Periods 153
7.3 Risk Mapping and Process Alignment 154
7.3.1 The Nature of Risks and Their Impacts 155
7.3.2 Creating Alignment between Modelling and the General Risk
Assessment Process 156
7.3.3 Results Interpretation within the Context of Process Stages 157
7.4 General Dependency Relationships 158
7.4.1 Example: Commonality of Drivers of Variability 159
7.4.2 Example: Scenario-Driven Variability 160
7.4.3 Example: Category-Driven Variability 162
7.4.4 Example: Fading Impacts 168
7.4.5 Example: Partial Impact Aggregation by Category in a Risk Register 170
7.4.6 Example: More Complex Impacts within a Category 171
7.5 Working with Existing Models 173
7.5.1 Ensuring an Appropriate Risk Identification and Mapping 173
7.5.2 Existing Models using Manual Processes or Embedded Procedures 174
7.5.3 Controlling a Model Switch with a Macro at the Start and End of a
Simulation 175
7.5.4 Automatically Removing Data Filters at the Start of a Simulation 176
7.5.5 Models with DataTables 178
CHAPTER 8
Measuring Risk using Statistics of Distributions 181
8.1 Defining Risk More Precisely 181
8.1.1 General Definition 181
8.1.2 Context-Specific Risk Measurement 181
8.1.3 Distinguishing Risk, Variability and Uncertainty 182
8.1.4 The Use of Statistical Measures 183
8.2 Random Processes and Their Visual Representation 184
8.2.1 Density and Cumulative Forms 184
8.2.2 Discrete, Continuous and Compound Processes 186
8.3 Percentiles 187
8.3.1 Ascending and Descending Percentiles 188
8.3.2 Inversion and Random Sampling 189
8.4 Measures of the Central Point 190
8.4.1 Mode 190
8.4.2 Mean or Average 191
8.4.3 Median 193
8.4.4 Comparisons of Mode, Mean and Median 193
8.5 Measures of Range 194
8.5.1 Worst and Best Cases, and Difference between Percentiles 194
8.5.2 Standard Deviation 195
8.6 Skewness and Non-Symmetry 199
8.6.1 The Effect and Importance of Non-Symmetry 201
8.6.2 Sources of Non-Symmetry 202
8.7 Other Measures of Risk 203
8.7.1 Kurtosis 204
8.7.2 Semi-Deviation 205
8.7.3 Tail Losses, Expected Tail Losses and Value-at-Risk 206
8.8 Measuring Dependencies 207
8.8.1 Joint Occurrence 207
8.8.2 Correlation Coefficients 209
8.8.3 Correlation Matrices 210
8.8.4 Scatter Plots (X-Y Charts) 212
8.8.5 Classical and Bespoke Tornado Diagrams 212
CHAPTER 9
The Selection of Distributions for Use in Risk Models 215
9.1 Descriptions of Individual Distributions 215
9.1.1 The Uniform Continuous Distribution 216
9.1.2 The Bernoulli Distribution 218
9.1.3 The Binomial Distribution 219
9.1.4 The Triangular Distribution 220
9.1.5 The Normal Distribution 222
9.1.6 The Lognormal Distribution 226
9.1.7 The Beta and Beta General Distributions 232
9.1.8 The PERT Distribution 234
9.1.9 The Poisson Distribution 236
9.1.10 The Geometric Distribution 238
9.1.11 The Negative Binomial Distribution 240
9.1.12 The Exponential Distribution 241
9.1.13 The Weibull Distribution 242
9.1.14 The Gamma Distribution 242
9.1.15 The General Discrete Distribution 244
9.1.16 The Integer Uniform Distribution 245
9.1.17 The Hypergeometric Distribution 245
9.1.18 The Pareto Distribution 246
9.1.19 The Extreme Value Distributions 246
9.1.20 The Logistic Distribution 250
9.1.21 The Log-Logistic Distribution 251
9.1.22 The Student (f), Chi-Squared and E-Distributions 252
9.2 A Framework for Distribution Selection and Use 256
9.2.1 Scientific and Conceptual Approaches 257
9.2.2 Data-Driven Approaches 258
9.2.3 Industry Standards 259
9.2.4 Pragmatic Approaches: Distributions, Parameters and Expert Input 259
9.3 Approximation of Distributions with Each Other 263
9.3.1 Modelling Choices 263
9.3.2 Distribution Comparison and Parameter Matching 265
9.3.3 Some Potential Pitfalls Associated with Distribution Approximations 267
CHAPTER 10
Creating Samples from Distributions 273
10.1 Readily Available Inverse Functions 274
10.1.1 Functions Provided Directly in Excel 274
10.1.2 Functions Whose Formulae Can Easily Be Created 276
10.2 Functions Requiring Lookup and Search Methods 277
10.2.1 Lookup Tables 277
10.2.2 Search Methods 278
10.3 Comparing Calculated Samples with Those in @RISK 279
10.4 Creating User-Defined Inverse Functions 280
10.4.1 Normal Distribution 281
10.4.2 Beta and Beta General Distributions 282
10.4.3 Binomial Distribution 283
10.4.4 Lognormal Distribution 283
10.4.5 Bernoulli Distribution 284
10.4.6 Triangular Distribution 284
10.4.7 PERT Distribution 284
10.4.8 Geometric Distribution 285
10.4.9 Weibull Distribution 285
10.4.10 Weibull Distribution with Percentile Inputs 285
10.4.11 Poisson Distribution 285
10.4.12 General Discrete Distribution 287
10.5 Other Generalisations 287
10.5.1 Iterative Methods using Specific Numerical Techniques 287
10.5.2 Creating an Add-In 289
CHAPTER 11
Modelling Dependencies between Sources of Risk 291
11.1 Parameter Dependency and Partial Causality 291
11.1.1 Example: Conditional Probabilities 293
11.1.2 Example: Common Risk Drivers 293
11.1.3 Example: Category Risk Drivers 294
11.1.4 Example: Phased Projects 294
11.1.5 Example: Economic Scenarios for the Price of a Base Commodity 295
11.1.6 Example: Prices of a Derivative Product 296
11.1.7 Example: Prices of Several Derivative Products 297
297
298
11.1.8 Example: Oil Price and Rig Cost
11.1.9 Example: Competitors and Market Share
11.1.10 Example: Resampling or Data-Structure-Driven Dependence 299
11.1.11 Implied Correlations within Parameter Dependency Relationships 302
11.2 Dependencies between Sampling Processes 302
11.2.1 Correlated Sampling 203
11.2.2 Copulas 304
11.2.3 Comparison and Selection of Parameter-Dependency and Sampling
Relationships 306
11.2.4 Creating Correlated Samples in Excel using Cholesky Factorisation 309
11.2.5 Working with Valid Correlation Matrices 313
11.2.6 Correlation of Time Series 315
11.3 Dependencies within Time Series 316
11.3.1 Geometric Brownian Motion 317
11.3.2 Mean-Reversion Models 319
11.3.3 Moving Average Models 321
11.3.4 Autoregressive Models 321
11.3.5 Co-Directional (Integrated) Processes 323
11.3.6 Random State Switching and Markov Chains 323
PART III
Getting Started with Simulation in Practice
CHAPTER 12
Using Excel/VGA for Simulation Modelling 327
12.1 Description of Example Model and Uncertainty Ranges 327
12.2 Creating and Running a Simulation: Core Steps 328
12.2.1 Using Random Values 328
12.2.2 Using a Macro to Perform Repeated Recalculations and Store the
Results 330
12.2.3 Working with the VBE and Inserting a VBA Code Module 330
12.2.4 Automating Model Recalculation 331
12.2.5 Creating a Loop to Recalculate Many Times 331
12.2.6 Adding Comments, Indentation and Line Breaks 332
12.2.7 Defining Outputs, Storing Results, Named Ranges and Assignment
Statements 333
12.2.8 Running the Simulation 334
12.3 Basic Results Analysis 335
12.3.1 Building Key Statistical Measures and Graphs of the Results 335
12.3.2 Clearing Previous Results 335
12.3.3 Modularising the Code 33g
12.3.4 Timing and Progress Monitoring 339
12.4 Other Simple Features 33^
12.4.1 Taking Inputs from the User at Run Time 339
340
12.4.2 Storing Multiple Outputs
12.5 Generalising the Core Capabilities 340
12.5.1 Using Selected VBA Best Practices 340
12.5.2 Improving Speed 341
12.5.3 Creating User-Defined Functions 342
12.6 Optimising Model Structure and Layout 343
12.6.1 Simulation Control Sheet 343
12.6.2 Output Links Sheet 344
12.6.3 Results Sheets 344
12.6.4 Use of Analysis Sheets 346
12.6.5 Multiple Simulations 348
12.7 Bringing it All Together: Examples Using the Simulation Template 350
12.7.1 Model 1: Aggregation of a Risk Register using Bernoulli and PERT
Distributions 351
12.7.2 Model 2: Cost Estimation using Lognormal Distributions 352
12.7.3 Model 3: Cost Estimation using Weibull Percentile Parameters 352
12.7.4 Model 4: Cost Estimation using Correlated Distributions 353
12.7.5 Model 5: Valuing Operational Flexibility 353
12.8 Further Possible uses of VBA 354
12.8.1 Creating Percentile Parameters 354
12.8.2 Distribution Samples as User-Defined Functions 354
12.8.3 Probability Samples as User-Defined Array Functions 355
12.8.4 Correlated Probability Samples as User-Defined Array Functions 356
12.8.5 Assigning Values from VBA into Excel 358
12.8.6 Controlling the Random Number Sequence 359
12.8.7 Sequencing and Freezing Distribution Samples 363
12.8.8 Practical Challenges in using Arrays and Assignment Operations 364
12.8.9 Bespoke Random Number Algorithms 364
12.8.10 Other Aspects 364
CHAPTER 13
Using ©RISK for Simulation Modelling 365
13.1 Description of Example Model and Uncertainty Ranges 365
13.2 Creating and Running a Simulation: Core Steps and Basic Icons 366
13.2.1 Using Distributions to Create Random Samples 368
13.2.2 Reviewing the Effect of Random Samples 369
13.2.3 Adding an Output 370
13.2.4 Running the Simulation 370
13.2.5 Viewing the Results 370
13.2.6 Results Storage 373
13.2.7 Multiple Simulations 373
13.2.8 Results Statistics Functions 374
13.3 Simulation Control: An Introduction 377
13.3.1 Simulation Settings: An Overview 377
13.3.2 Static View 377
13.3.3 Random Number Generator and Sampling Methods 379
13.3.4 Comparison of Excel and @RISK Samples 381
13.3.5 Number of Iterations 382
13.3.6 Repeating a Simulation and Fixing the Seed 382
13.3.7 Simulation Speed 383
13.4 Further Core Features 384
13.4.1 Alternate Parameters 384
13.4.2 Input Statistics Functions 384
13.4.3 Creating Dependencies and Correlations 385
13.4.4 Scatter Plots and Tornado Graphs 385
13.4.5 Special Applications of Distributions 395
13.4.6 Additional Graphical Outputs and Analysis Tools 400
13.4.7 Model Auditing and Sense Checking 405
13.5 Working with Macros and the @RISK Macro Language 405
13.5.1 Using Macros with @RISK 405
13.5.2 The @RISK Macro Language or Developer Kit: An Introduction 407
13.5.3 Using the XDK to Analyse Random Number Generator and
Sampling Methods 409
13.5.4 Using the XDK to Generate Reports of Simulation Data 417
13.6 Additional In-Built Applications and Features: An Introduction 417
13.6.1 Optimisation 419
13.6.2 Fitting Distributions and Time Series to Data 420
13.6.3 MS Project Integration 421
13.6.4 Other Features 421
13.7 Benefits of ©RISK over Excel/VBA Approaches: A Brief Summary 421
Index 425
|
| any_adam_object | 1 |
| author | Rees, Michael 1964- |
| author_GND | (DE-588)136694659 |
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| author_role | aut |
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| callnumber-subject | HD - Industries, Land Use, Labor |
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| ctrlnum | (OCoLC)920449708 (DE-599)BVBBV042737076 |
| dewey-full | 658.15/50285554 |
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| dewey-ones | 658 - General management |
| dewey-raw | 658.15/50285554 |
| dewey-search | 658.15/50285554 |
| dewey-sort | 3658.15 850285554 |
| dewey-tens | 650 - Management and auxiliary services |
| discipline | Informatik Wirtschaftswissenschaften |
| format | Book |
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| id | DE-604.BV042737076 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T07:08:32Z |
| institution | BVB |
| isbn | 9781118904053 |
| language | English |
| lccn | 015019955 |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-028168012 |
| oclc_num | 920449708 |
| open_access_boolean | |
| owner | DE-945 |
| owner_facet | DE-945 |
| physical | XXV, 438 S. graph. Darst. |
| publishDate | 2015 |
| publishDateSearch | 2015 |
| publishDateSort | 2015 |
| publisher | Wiley |
| record_format | marc |
| series2 | Wiley finance series |
| spelling | Rees, Michael 1964- Verfasser (DE-588)136694659 aut Business risk and simulation modelling in practice using Excel, VBA and @RISK Michael Rees Chichester Wiley 2015 XXV, 438 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Wiley finance series Includes index Computersimulation (DE-588)4148259-1 gnd rswk-swf Modellierung (DE-588)4170297-9 gnd rswk-swf Datenverarbeitung (DE-588)4011152-0 gnd rswk-swf Risikomanagement (DE-588)4121590-4 gnd rswk-swf EXCEL (DE-588)4138932-3 gnd rswk-swf Risikoanalyse (DE-588)4137042-9 gnd rswk-swf Risikomanagement (DE-588)4121590-4 s Risikoanalyse (DE-588)4137042-9 s Computersimulation (DE-588)4148259-1 s Modellierung (DE-588)4170297-9 s Datenverarbeitung (DE-588)4011152-0 s EXCEL (DE-588)4138932-3 s DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028168012&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis SWB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028168012&sequence=000003&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Buchcover |
| spellingShingle | Rees, Michael 1964- Business risk and simulation modelling in practice using Excel, VBA and @RISK Computersimulation (DE-588)4148259-1 gnd Modellierung (DE-588)4170297-9 gnd Datenverarbeitung (DE-588)4011152-0 gnd Risikomanagement (DE-588)4121590-4 gnd EXCEL (DE-588)4138932-3 gnd Risikoanalyse (DE-588)4137042-9 gnd |
| subject_GND | (DE-588)4148259-1 (DE-588)4170297-9 (DE-588)4011152-0 (DE-588)4121590-4 (DE-588)4138932-3 (DE-588)4137042-9 |
| title | Business risk and simulation modelling in practice using Excel, VBA and @RISK |
| title_auth | Business risk and simulation modelling in practice using Excel, VBA and @RISK |
| title_exact_search | Business risk and simulation modelling in practice using Excel, VBA and @RISK |
| title_full | Business risk and simulation modelling in practice using Excel, VBA and @RISK Michael Rees |
| title_fullStr | Business risk and simulation modelling in practice using Excel, VBA and @RISK Michael Rees |
| title_full_unstemmed | Business risk and simulation modelling in practice using Excel, VBA and @RISK Michael Rees |
| title_short | Business risk and simulation modelling in practice |
| title_sort | business risk and simulation modelling in practice using excel vba and risk |
| title_sub | using Excel, VBA and @RISK |
| topic | Computersimulation (DE-588)4148259-1 gnd Modellierung (DE-588)4170297-9 gnd Datenverarbeitung (DE-588)4011152-0 gnd Risikomanagement (DE-588)4121590-4 gnd EXCEL (DE-588)4138932-3 gnd Risikoanalyse (DE-588)4137042-9 gnd |
| topic_facet | Computersimulation Modellierung Datenverarbeitung Risikomanagement EXCEL Risikoanalyse |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028168012&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028168012&sequence=000003&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT reesmichael businessriskandsimulationmodellinginpracticeusingexcelvbaandrisk |