Decision and Risk Analysis Financial Modelling & Risk Analysis Kiriakos Vlahos Spring 2000
Session overview Why do we need risk analysis? Project evaluation Risk analysis approaches –Scenario analysis –Sensitivity analysis –Monte-Carlo simulation Summary
Risk management in business Project Evaluation Capital budgeting and portfolio evaluation Corporate risk
Why do we need risk analysis? Single point forecasts are dangerous! Derive bounds for the range of possible outcomes Sensitivity testing of the assumptions Better perception of risks and their interaction Anticipation and contingency planning Overall reduction of risk exposure through hedging Risk analysis helps you develop insights, knowledge and confidence for better decision making and risk management.
Risk analysis approaches Scenario analysis Sensitivity analysis Monte-Carlo simulation Decision Analysis Option theory
Proposal to open and operate a video store. “You can expect to make at least £50,000 in the first year” Skywalker
Project Evaluation Evaluating a business proposition –Does it make sense overall? Market conditions Trust issues –What is the outlook under a basic set of assumptions? (Base Case) –What are the risks involved? Writing a business plan
Base case model Closing cash exceeds £50000 at the end of the year
Scenario analysis “Scenarios are discrete internally consistent views of how the world will look in the future, which can be selected to bound the possible range of outcomes that might occur.” Michael Porter in “Competitive Strategy” “Shell flavour” of scenarios Scenarios should present testing conditions for the business. The future will of course be different from all of these views/scenarios, but if the company is prepared to cope with any of them, it will be able to cope with the real world. Do not assign probabilities to scenarios!
Skywalker - Scenarios analysis
Sensitivity analysis Explore robustness of results to variations in model parameters Understand and challenge assumptions Methodology Identify variables to which results are particularly sensitive and those to which they are relatively insensitive Gain an indication into range over which results might vary, thus assessing the risks Tools –What-if questions –One-way sensitivity analysis –Two-way sensitivity analysis –Tornado diagrams –Spider plots
What-if analysis What-if Tape Price turns out to be 35? Changing Tape Price to 35, and leaving all other planning values at their base value, we get a December Closing Cash of £30,926 If Tape Price is 25, December Closing Cash is £70,982
One-way sensitivity analsysis e.g. Sensitivity of closing cash to Rent per day
Two-way sensitivity analysis Two-variable data table can be applied to a single cell such as December Closing Cash cell:
3-D plot of two-way sensitivity analysis Skywalker: Sensitivity of closing cash to to Rental & Plays per month Tutorial on data tables in Datatables.xls
Tornado diagrams Tutorial on Tornado diagrams in Tornado.xls Helps us determine visually the main uncertainty drivers.
Constructing spider plots
Skywalker: Spider plot
Price/Demand Relationship Price is a decision variable and demand should depend on price, e.g. Regression equation: PlaysperMonth = RentperDay One-way sensitivity analysis to Rent per day Which price maximises closing cash?
Monte-Carlo simulation Base Case Model Uncertain variables Output distribution Uncertain ParametersBase Value Hours Flown800 Charter Price/Hour700 Ticket Price/Hour90 Capacity of Sch. flights60% Ratio of charter flights40% Operating Cost/hour445 Profit & Loss Income from Scheduled£259,200 Income from Chartered£224,000 Operating costs(£356,000) Fixed Costs(£60,000) Taxable profit£67,200 Tax(£22,176) Profit after tax£45,024 Simulate
Merck’s Research Planning Model R&D variables Manufacturing variables Marketing variables Scientific, Medical constraints Technological constraints Economic relationships Projections of variables Macro- economic assumptions Probability distributions for cash-flow ROI, NPV Monte-Carlo Simulation
@RISK - How it works INPUTS MODEL CALCULATIONS Sales * Price - Cost RESULT = Profit = $ $5 $993 Single simulation trial Multiple simulation trials INPUTS MODEL CALCULATIONS RESULT Trial 1: 211 * = Trial 1: 193 * = Trial 1: 219 * = Trial N: 233 * = Profit $62 $884 $315 $423...
Novaduct case
Novaduct - Uncertainty “Market share increase is equally likely to be any value between -0.2% and 0.8%” “Market growth is most likely to be a 2% increase but could range from a 10% decrease to an 8% increase”
1.Introduce uncertainty into base model eg =RiskUniform(min, max) =RiskTriang(min, most likely, max) =RiskNormal(mean, std.dev.) 2.Select output cells (Cells for which we want simulation results) 3.Select simulation settings Number of iterations, random number seed 4.Execute simulation 5.View results Graphs, summary statistics 6.Return to spreadsheet and possibly repeat previous steps
Novaduct ASSUMPTIONS Discount Rate15% Prod Cost5103.0% Price7106.0% Market Share15% MS Incr0.3% MktGrowth102.0% =RiskUniform(-0.2%,0.8%) Toolbar Open & Save Simulation Results Simulation settings Simulate Window Specify output cells View input & output cells
Simulation settings
@RISK Window
Simulation results NPVIRR Mean914Mean 25% Max 3174Max 45% Min -1360Min-14% P(NPV<0) = 0.17P(IRR<15%) = 0.15 P(NPV<1,000) = 0.52P(IRR<35%) = 0.85
Cashflow Summary Graph Central line connects mean values First band is 1 std.dev. Second band is interval between 5% and 95% percentiles
Summary Single point forecasts are dangerous! Challenge assumptions Scenario Planning Sensitivity analysis –Data tables –Tornado diagrams Monte-Carlo simulation Preparation for Workshop –Datatables.xls and Tornado.xls tutorial –Exercises