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Chapter 12 Risk Topics and Real Options in Capital Budgeting and Cash Flow Estimation. Cash Flows as Random Variables. “Risk” in every day usage: the probability that something bad will happen “Risk” in financial theory: Associated with random variables and their probability distributions.
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Chapter 12 Risk Topics and Real Options in Capital Budgeting and Cash Flow Estimation
Cash Flows as Random Variables • “Risk” in every day usage: the probability that something bad will happen • “Risk” in financial theory: Associated with random variables and their probability distributions
Cash Flows as Random Variables • Risk – the chance that a random variable will take on a value significantly different from the expected value • In capital budgeting the future period's cash flow estimate is a random variable
Figure 12-1 The Probability Distribution of a Future Cash Flow as a Random Variable
Cash Flows as Random Variables • The NPV and IRR are random variables with their own probability distributions • Actual value may be different than the mean • The amount the actual value is different from expected is related to the variance or standard deviation
The Importance of Risk in Capital Budgeting • Until now we have viewed cash flows as point estimates – a single number rather than a range of possibilities • Actual cash flows are estimates, a wrong decision could be made using point estimates for NPV and IRR • The riskiness of a project's cash flows must be considered
The Importance of Risk in Capital Budgeting • Risk Aversion • Changing the Nature of a Company • A company is a portfolio of projects • Ignoring risk when undertaking new projects can change the firm’s overall risk characteristics
Scenario/Sensitivity Analysis • Select a worst, most likely, and best case for each cash flow • Recalculate the project's NPV (or IRR) under several scenarios • Gives an intuitive sense of the variability of NPV • Also called sensitivity analysis
Decision Tree Analysis • Decision Tree: A graphic representation of a project in which certain events have multiple outcomes • Decision Tree Analysis – Develops a probability distribution of NPV given the probabilities of certain events within the project
Computer (Monte Carlo) Simulation • Assume separate probability distribution for each cash flow • Computer draws observation from each and calculates NPV • Sort outcomes into histogram of probability distribution of NPV (next slide) • Drawbacks • Probability distributions are difficult to estimate • Cash flows tend to be correlated • Interpretation of results is subjective
Concept Connection Example 12-2 Decision Tree Analysis The Wing Foot Shoe Company is considering a new running shoe. A market study indicates a 60% probability that demand will be good and a 40% chance that it will be poor. C0 is $5M. Cash inflows are estimated at $3M per year for three years at full manufacturing capacity if demand is good, but just $1.5M per year if it’s poor. Wing Foot’s cost of capital is 10%. Develop a rough probability distribution for NPV.
Concept Connection Example 12-2 Decision Tree Analysis A decision tree diagram and NPVs along each path are: NPV 0 1 2 3 $2.461M $3M $3M $3M P = .6 ($5M) $-1.270M P = .4 $1.5M $1.5M $1.5M The expected NPV is: The decision tree explicitly calls out the fact that a big loss is quite possible, although the expected NPV is positive.
Concept Connection Example 12-3 More Complex Decision Trees Wing Foot now feels there are two possibilities along the upper branch. If first year demand is good, there’s a 30% chance it will be excellent in the second and third years, and a $1 million factory expansion will generate cash inflows of $5 million in years 2 and 3. That means net cash inflows will be $4 million in year 2 and $5 million in year 3. A decision tree for the project with this additional possibility is on the next slide
Concept Connection Example 12-3 More Complex Decision Trees The NPV for the new upper path is
Concept Connection Example 12-3 More Complex Decision Trees The project’s probability distribution expected return are as follows.
Real Options • An option is the right or ability to take a certain course of action • A real option is a course of action that usually • Improves financial results under certain conditions • Exists in a real, physical business sense • Frequently occurs in capital budgeting • Generally increases a project's expected NPV
The Abandonment Option • A poorly performing project can sometimes be abandoned • Usually by redeploying project resources to another use • Avoids continuing losses along a decision tree path • It usually takes planning early in a project’s life to preserve an abandonment option
Valuing Real Options • Real Options usually • have definite costs early in projects • Create additional income along only one path • The chance of more income increases NPV • An option’s value is at least the increase in NPV less the option’s cost • But the real option may be worth more if it also reduces project risk (e.g. abandonment )
Valuing Real Options • The Risk Effect is Tricky – • Not all real options have a risk effect • To lower risk an option has to reduce a potential loss not make a success better • A case by case analysis is necessary • An Approach Through Rate of Return • If lower risk is associated with a lower rate of return in NPV calculations, the result is higher NPV
Designing Real Options into Projects • Abandonment option • Usually increase NPV and lower risk • Contract obligations can make abandonment tough • Expansion options • Often require little or no early commitment • Should be planned in whenever possible • Investment timing options • Permit delaying investment until more certain about surrounding issues • Flexibility options • Preserve ability to respond to changing business conditions
Incorporating Risk Into Capital Budgeting • For NPV • k is used as the discount rate • A higher k leads to lower NPV reducing the chance of project acceptance • For IRR • Compare IRR to k • A higher k leads to a lower chance that IRR>k reducing probability of project acceptance The cost of capital (k) plays a key role in both NPV and IRR.
Incorporating Risk Into Capital Budgeting • Riskier Projects Should Be Less Acceptable • Using a higher, risk-adjusted rates for risky projects lowers their chance of acceptance • The Starting Point for Risk-Adjusted Rates is the firm’s current risk level reflected in its cost of capital
Incorporating Risk Into Capital Budgeting • Relating Interest Rates to Risk • Interest rates are comprised of a base rate plus a risk premium • Investors demand a higher risk premiums higher interest rates if they are to bear more risk • In capital budgeting the company is the investor
Incorporating Risk Into Capital Budgeting • Choosing the Risk-Adjusted Rate for Various Projects • An arbitrary, subjective process • Three categories of increasing risk • Replacements – low risk, use cost of capital • Expansion projects - slightly more risky than the current level • New ventures – generally involve a lot more risk
Estimating Risk-Adjusted Rates Using CAPM • The project as a diversification • If viewed as a collection of projects, a new venture diversifies the firm • A new venture also diversifies the stockholders’ investment portfolios
Estimating the Risk-Adjusted Rate Through Beta • The Security Market Line (SML) can be used to determine a risk-adjusted rate for a new venture • SML: kx = kRF + (kM - kRF) bX • bX = beta = the measure of a company's systematic risk • If a project is viewed as a business in a particular field, use a beta common to that field to estimate a risk-adjusted rate for project analysis
Estimating Risk-Adjusted Rates Using CAPM • The project as a diversification • Diversifiable and non-diversifiable risk for projects • Projects have two levels of diversifiable risk • Some risk diversified away within the firm's portfolio of projects • Some risk diversified away by the shareholders' investment portfolios • The remaining risk is systematic risk
Concept Connection Example 12-6 Risk-Adjusted Rates - SML • Orion Inc. makes radio communications equipment. • beta = 1.1 cost of capital = 8% • Considering a venture into risky military radios. • Military radio market is dominated by • MilradInc. - 60% market share, beta = 1.4 • AntexRadio Corp. - 20% market share, beta = 2.0 • Both make only military radios. • kM = 10% , kRF = 5%. • C0 = $10M, Ci= $3M n = 5 years • Should Orion undertake the project?
Concept Connection Example 12-6 Risk-Adjusted Rates - SML Calculate the risk-adjusted rate for the project: k = 5% + (10% - 5%)2.0 = 15.0% Then calculate the project's NPV using the 15% risk-adjusted rate: NPV = -$10.0M + $3M[PVFA15,5] = -$10M + $3M[3.3522] = $0.1M NPV at Orion’s own 8% cost of capital is $2.0M clearly indicating acceptance. Adjusted for risk, however, the project is marginal . This is a crucial insight! Since the NPV is barely positive, the project is marginal at best.
Problems with the Theoretical Approach • It is often difficult to find a pure play firm from which to obtain an appropriate beta • If a pure play division is found within a corporation, estimate the beta of that division using the accounting beta method • Systematic risk may not be only important risk • If total risk is important, an even higher risk-adjusted rate would be appropriate
Certainty Equivalents (CE) • For every cash flow management develops a lower risk free (certain) figure that is as attractive as the forecast risky figure. • Then calculate a risk adjusted NPV or IRR with those cash flows • Alternatively choose a CE factor (0< 1) for each cash flow and multiply. • CE factors generally decline as they proceed further into the future
A Final Comment on Risk in Capital Budgeting • Virtually every firm of any size uses capital budgeting techniques • But few explicitly include risk • Business managers do recognize risk but they do it through subjective judgments
