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Decision making under large uncertainty

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Title: Decision making under large uncertainty


1
Decision making under large uncertainty
  • Marie-Laure Guillerminet
  • ZMK, University of Hamburg
  • Atlantis Meeting
  • January 24th, 2003

2
  • Uncertainty gives rise to two different issues
  • One relates to risk aversion
  • The fact that one cannot uninvest control
    capital or actively remove carbon from the
    atmosphere is irrelevant to the optimal
    regulatory strategy (Kolstad, 1996).
  • One relates to uncertainty where that uncertainty
    is being resolved over time, i.e. information is
    being acquired over time
  • The literature on irreversibilities tells us
    that with learning, we should avoid decisions
    that restrict future options.

3
1. Literature of irreversible investment under
uncertainty
  • Cf. Pindyck (2000), in Resource and Energy
    Economics Introduction to special issue on
    irreversibility.
  • Consider a carbon tax to reduce global warming.
  • The Net Present Value rule (classic theory,
    now-or-never strategy) responds as follows 
  • The difference between the present values of the
    expected flow of benefits and the expected flow
    of costs required to implement this policy.
  • If it is greater than zero, invest.

4
  • It ignores three important characteristics of
    most environmental problems and the policies
    designed to respond to them 
  • Uncertainty over the future costs and benefits of
    adopting a particular policy
  • The best you can do is to assess the
    probabilities of the alternative outcomes that
    can mean greater or smaller profits (or loss) for
    adopting this policy.

5
  • Important irreversibilities associated with
    environmental policy
  • Policy adoption is rarely a now-or-never
    proposition and you have some leeway about the
    timing of adopting this policy
  • You can postpone action to get more information
    about the future.

6
  • These three characteristics interact to
    determine the optimal decisions
  • The Real Options Theory recognizes the important
    qualitative and quantitative implications of the
    interaction between irreversibility, uncertainty,
    and the choice of timing, unlike the Net Present
    Value rule.

7
  • The Real Options Approach stresses the analogy
    with options on financial assets
  • The opportunities to acquire real assets are
    called real options.
  • According to Henry (1974), Arrow - Fisher (1974),
    uncertainty creates new investment opportunities,
    i.e. some value.
  • Call this value ?, defined as the Option Value
    Multiple.
  • E.g. preserving from the submersion of countries
    or regions, the extinction of a species, a shift
    in the Gulf Stream.

8
  • Irreversibility and the possibility to delay are
    very important characteristics of most
    investments in reality.
  • The ability to delay an irreversible investment
    expenditure can profoundly affect the decision to
    invest and also undermines the simple NPV rule
    (cf. Dixit - Pindyck, 1994)
  • A firm with an opportunity to invest is holding
    an option
  • It has the right but not the obligation to buy
    an asset at some future time of its choosing.

9
  • When a firm makes an irreversible investment
    expenditure, it exercises its option to invest
  • It gives up the possibility of waiting for new
    information to arrive that might affect the
    desirability or timing of the expenditure
  • It cannot disinvest should market conditions
    change adversely.
  • This lost option value is an opportunity cost
    that must be included as part of the cost of the
    investment
  • The NPV of exercise is large enough to offset the
    value of waiting for more information.

10
  • Illustration of the Option Value Multiple ?

NPV, Option Values
Waiting
Investing
Cost of Capital
Threshold under certainty MKVNPV
Threshold under uncertainty HV
11
2. Application to our problem
  • Environmental policy involves two kinds of
    irreversibilities which work in opposite
    directions 
  • Sunk costs associated with an environment
    regulation policies aimed at reducing
    ecological damage impose sunk costs on society
  • Sunk benefits of avoided environmental
    degradation environmental damage can be
    partially or totally irreversible. So adopting a
    policy now rather than waiting has a sunk benefit
    (a negative opportunity cost).

12
  • These irreversibilities interact with two kinds
    of uncertainties to affect optimal policy
    timing 
  • Economic uncertainty, uncertainty over the future
    costs and benefits of an environmental damage and
    its reduction
  • Ecological uncertainty, uncertainty over the
    evolution of the relevant ecosystems.
  • We have to take them into account to choose the
    timing of adopting the policy.

13
  • Results
  • The decision can be deferred
  • Information about the evolving environmental
    impacts and values accumulates over time and can
    lead to a better decision.
  • Why make an irreversible investment in reducing
    greenhouse emissions today if waiting a little
    while will reveal greater certainty what the
    outcome will be?
  • Waiting entails a cost, the foregone benefits
    from the investment during the waiting period,
    but this may be much less than the benefits from
    the better decision that results.

14
  • On the other side, it is better to protect the
    environment from irreversible damage now
  • It can be unprotected if new information
    suggests that the damage, through irreversible,
    will be minor.
  • Pindyck (2000) An increase in uncertainty,
    whether over future costs and benefits of
    environmental protection or over the behavior of
    the environment, leads to a higher threshold of
    policy adoption
  • Policy adoption involves a sunk cost associated
    with a reduction in the entire trajectory of
    future emissions, whereas waiting involves only
    continued emissions over the waiting period.

15
  • Pindyck (2000)
  • This result depends on the extent to which the
    policy is indeed irreversible.
  • It also implicitly assumes that emissions over
    the period do not increase the risk of a
    catastrophic impact.
  • There is some possibility of essentially
    irreversible catastrophic impact, as would result
    for example
  • from the disintegration of the West Antartic Ice
    Sheet and consequent rise in sea level of 5-6 m.

16
  • These global environmental risks are
    low-probability events with major, widespread
    (Cass and al., 1996) and possibly irreversible
    consequences.
  • Classic theories underestimate low-probability
    events with major irreversible consequences.
  • It seems plausible that the probability of such
    an event is positively related to the level of
    greenhouse gas concentrations in atmosphere
  • The risk oughts to be endogenous in a model of
    the optimal control of greenhouse gas emissions.

17
  • We will assume that the social planners beliefs
    about a catastrophic event at an arbitrarily
    instant of time can be represented by a
    conditional probability rate, given that a
    catastrophe has not occurred at all earlier
    instants of time.
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