Managerial Economics

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Managerial Economics

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Title: Managerial Economics

1
Managerial Economics

Lecture Eleven
Alternative theories of finance

2
Recap

Conventional CAPM finance theory
Derived by applying conventional economic theory
to finance
Utility maximising individual, budget line of
available investments
BUT it neatly separates finance theory
(Modigliani-Miller dividend irrelevance theorem
etc.)
Firms value independent of how finances
investment
Finance therefore doesnt affect the economy
Empirical data manifestly refutes CAPM
We need a really new theory of finance
For complete coverage, do Behavioural Finance
with me and Craig Ellis next semester
But for an overview

3
The really new finance

Two key aspects
Economics Finance not separable
How firm finances its investments does affect
value
How investment financed affects economic outcomes
Finance does affect the economy.
Back to Schumpeter
Behaviour of finance markets
Not random walk and fundamental value but
Fractal walk speculators speculating on
speculators
First, Schumpeters finance-real economy link
Entrepreneurs must borrow to finance innovations
Credit thus plays essential role in economys
boom/bust cycle

4
Schumpeters model money has real effects

In Schumpeters model, entrepreneurs start new
firms
No retained earnings, capital, workers
the carrying out of new combinations takes
place through the withdrawal of services of labor
and land from their previous employments
this again leads us to the heresy that money,
and other means of payment, perform an
essential function,
hence that processes in terms of means of payment
are not merely reflexes of processes in terms of
goods.
In every possible strain, with rare unanimity,
even with impatience and moral and intellectual
indignation, a very long line of theorists have
assured us of the opposite. (Schumpeter p. 95)

5
Schumpeters model money has real effects

Conventional interpretation of money emphasises
Money simply a veil over barter
Money plays no essential role
Double all prices incomes, no-one better or
worse off
Schumpeter accepts above as true for existing
products, production techniques, etc., in general
equilibrium
But new products, new methods, disturb the
circular flow. Money plays essential role in
this disequilibrium phenomenon
Affects the price level and output
Doubling all prices incomes would make some
better off, some worse
Those with debts would be better off
Including entrepreneurs

6
Schumpeters model money has real effects

Conventional theory suffers from barter
illusion
Existing producers using existing production
methods exchanging existing products
Walras Law applies
Major role of finance is initiating new products
/ production methods etc.
For these equilibrium-disturbing events, classic
money a veil over barter concept cannot apply.
From this it follows, therefore, that in real
life total credit must be greater than it could
be if there were only fully covered credit. The
credit structure projects not only beyond the
existing gold basis, but also beyond the existing
commodity basis. (101)
Walras Law therefore false for growing economy

7
Schumpeters model credit has real effects

The entrepreneur needs credit
This purchasing power does not flow towards him
automatically, as to the producer in the circular
flow, by the sale of what he produced in
preceding periods.
If he does not happen to possess it he must
borrow it He can only become an entrepreneur by
previously becoming a debtor
his becoming a debtor arises from the necessity
of the case and is not something abnormal, an
accidental event to be explained by particular
circumstances. What he first wants is credit.
Before he requires any goods whatever, he
requires purchasing power. He is the typical
debtor in capitalist society. (102)

8
Schumpeters model credit has real effects

In normal productive cycle, income from
production finances purchases credit can be
used, but not essential
The decisive point is that we can, without
overlooking anything essential, represent the
process within the circular flow as if production
were currently financed by receipts. (104)
Effectively, Says Law applies supply creates
its own demand
Aggregate demand equals aggregate supply (with
maybe some sectors above, some sectors below)
But credit-financed entrepreneurs very different
Expenditure (demand) not financed by current
receipts (supply) but by credit
Aggregate Demand exceeds Aggregate Supply

9
Schumpeters model credit has real effects

Credit finance for entrepreneurs thus endogenous
not deposits create loans but loans create
deposits
In so far as credit cannot be given out of the
results of past enterprise it can only consist
of credit means of payment created ad hoc, which
can be backed neither by money in the strict
sense nor by products already in existence...
It provides us with the connection between
lending and credit means of payment, and leads us
to what I regard as the nature of the credit
phenomenon. (106)

10
Schumpeters model credit has real effects

Giving credit involves creating purchasing
power, and newly created purchasing power is of
use only in giving credit to the entrepreneur,
credit is essentially the creation of purchasing
power for the purpose of transferring it to the
entrepreneur, but not simply the transfer of
existing purchasing power.
The creation of purchasing power characterises,
in principle, the method by which development is
carried out in a system with private property and
division of labor.
By credit, entrepreneurs are given access to the
social stream of goods before they have acquired
the normal claim to it. (106-107)
Credit irrelevant to equilibrium economics, but
essential to disequilibrium process of economic
development

11
Schumpeters model credit has real effects

credit is not essential in the normal circular
flow, because it can be assumed there that all
purchases of production goods by producers are
cash transactions or that in general whoever is a
buyer previously sold goods of the same money
value
However it is certain that there is such a gap
to bridge in the carrying out of new
combinations. To bridge it is the function of the
lender, and he fulfils it by placing purchasing
power created ad hoc at the disposal of the
entrepreneur.
Then those who supply production goods need not
"wait" and yet the entrepreneur need advance them
neither goods nor existing money. Thus the gap is
closed which would otherwise make development
extraordinarily difficult, if not impossible in
an exchange economy where private property
prevails. (107)
So process of innovation change breaches Says
Law in growing, changing economy
Demand exceeds receipts from current sales
Difference financed by credit (debt) to
entrepreneurs

12
Schumpeters model credit has real effects

Says Law Walras Law apply in circular flow,
but not entrepreneurial credit-financed activity
In the circular flow, from which we always
start, the same products are produced every year
in the same way. For every supply there waits
somewhere in the economic system a corresponding
demand, for every demand the corresponding
supply. All goods are dealt in at determined
prices with only insignificant oscillations, so
that every unit of money may be considered as
going the same way in every period. A given
quantity of purchasing power is available at any
moment to purchase the existing quantity of
original productive services, in order then to
pass into the hands of their owners and then
again to be spent on consumption goods. (108)

13
Aside Marx with different adjectives

Schumpeters thinking here very similar to Marx
Marx argued there were two Circuits of Capital
CommodityMoneyCommodity
Equivalent to Schumpeters circular flow
Essentially Says Law applies
Sellers only sell in order to buy
MoneyCommodityMoney
Equivalent to Schumpeters entrepreneurial
function
Says Law doesnt apply The capitalist throws
less value in the form of money into the
circulation than he draws out of it... Since he
functions ... as an industrial capitalist, his
supply of commodity-value is always greater than
his demand for it. If his supply and demand in
this respect covered each other it would mean
that his capital had not produced any
surplus-value... His aim is not to equalize his
supply and demand, but to make the inequality
between them ... as great as possible. (Marx
1885 120-121)

Schumpeters point
Capitalist throws in borrowed money
Succeeds if can repay debt and pocket some of the
gap

14
Schumpeters model credit has real effects

If now credit means of payment are created and
placed at the entrepreneur's disposal, then his
purchasing power takes its place beside the
total previously existing.
Obviously this does not increase the quantity of
productive services existing in the economic
system. Yet "new demand" becomes possible in a
very obvious sense.
It causes a rise in the prices of productive
services. From this ensues the "withdrawal of
goods" from their previous use (108)
Aggregate Demand exceeds Aggregate Supply Says
Law violated in move from stationary state
Sum of excess demands negative (not zero as in
Walras Law)
Credit-financed demand a source of price
inflation

15
Schumpeters model credit has real effects

Just as when additional gas streams into a
vessel the share of the space occupied by each
molecule of the previously existing gas is
diminished by compression, so the inflow of new
purchasing power into the economic system will
compress the old purchasing power.
When the price changes which thus become
necessary are completed, any given commodities
exchange for the new units of purchasing power on
the same terms as for the old, only the units of
purchasing power now existing are all smaller
than those existing before and their distribution
among individuals has been shifted. (109)
This inflation
Isnt necessarily a bad thing
Can be reversed by dynamics of economic
development

16
Schumpeters model credit has real effects

credit inflation .. is distinguished from
inflation for consumptive purposes by a very
essential element
The entrepreneur must not only legally repay
money to his banker, but he must also
economically repay commodities to the reservoir
of goods
after a period at the end of which his products
are on the market and his productive goods used
up - he has, if everything has gone according to
expectations, enriched the social stream with
goods whose total price is greater than the
credit received and than the total price of the
goods directly and indirectly used up by him.
Hence the equivalence between the money and
commodity streams is more than restored, the
credit inflation more than eliminated, the effect
upon prices more than compensated for. (110)

17
Schumpeters model credit has real effects

Furthermore, the entrepreneur can now repay his
debt (amount credited plus interest) at his bank,
and normally still retain a credit balance (
entrepreneurial profit) that is withdrawn from
the purchasing-power fund of the circular flow.
(111)
So dynamic view of economy
Overturns money doesnt have real effects bias
of neoclassicals/monetarists
Breaches supply creates its own demand Says
Law view of self-equilibrating economy
Breaches Walras Law if n-1 markets in
equilibrium, nth also in equilibrium general
equilibrium analysis
Links finance and economics without finance
there would not be economic growth, but
Finance can affect economic growth negatively as
well as positively (if entrepreneurial
expectations fail)

18
The really new finance

Dynamic vision of economics overturns equilibrium
truths
Ditto realistic view of finance markets not
equilibrium but disequilibrium dynamics
Three highly unrealistic assumptions essential to
CAPM
Investors agree on values of all shares
Perceptions of values are correct
All investors have limitless access to risk free
finance
Outcome shares follow random walk
Really new finance rejects all these assumptions
Investors disagree on values of shares
Future uncertain perceptions of future wrong
Differing access to finance
Outcome shares follow fractal walk

19
The really new finance

Several as yet not integrated aspects
Behavioural Finance
Investors dont make rational utility
maximising decisions when confronted with risky
financial choices
Inefficient Finance
Finance markets themselves not efficient
Minority Game
Financial Markets as game in which you win by
being in the minority
Fractal Finance
Statistical properties of markets fractal and
power law, not random
Last (empirical) aspect first

20
Fractal Finance

Remember last week Fama (1969)when still
believer in CAPMnoted large daily price changes
tend to be followed by large daily changes. The
signs of the successor changes are apparently
random?
A characteristic of fractal distributions
Many elements interact with each other and
Interactions nonlinear small movements cause
large ones
Example earthquakes
Caused by movement of tectonic plates
Movement of one plate against another builds up
tension
Earthquake releases tension in one spot
Makes other releases elsewhere more likely
One big movementfollowed by others
Eventually settles down then cycle renews

21
Fractal Finance

Results
Earthquakes cluster
Long period of small quakes then
Sudden large quake
Lots of large aftershocks
Eventually calm returns
Then tension builds up again before next release
No average size earthquake
Quakes of all scales occur
Big quake just a small quake that does not stop
Self-similarity
Close up, small-scale quake effects look like big
quakes on larger scale
Same phenomena found in stock market data

22
Fractal Finance

Volatility clustering
Periods of high volatility not randomly
distributed but clustered together
No average size daily/weekly/yearly movement
Averages standard deviations can be calculated
But data does not fit means, deviations etc.
Highly skewed
Many more large events than predicted
Self-similarity
Intra-day pattern in a day looks like
Daily pattern in a month
Monthly pattern in a decade

23
Fractal Finance

Example NASDAQ over two time periods which one
is longer?

24
Fractal Finance

Whats the point?
Randomly generated pattern would have decreasing
volatility as time scale increased
Variance of random distribution scales to square
root of time scale
Variance of actual financial time series scales
linearly with time
No average scale of movement at any time scale
Random distribution huge movements can be ruled
out
Actual financial time series huge movements can
and do occur
10 fall of DJIA on Black Friday in 1929
25 fall of ASX on Black Tuesday in 1987
14 fall of NASDAQ in April 2000

25
Fractal Finance

If we take a graph of the SP 500 index , and
place it above a graph of an uncorrelated biased
random walk with the same overall bias, at first
glance they seem almost identical.
When we look closer, however, we notice the graph
of the SP 500 has occasional large fluctuations
(e.g. the huge drop that took place on Black
Monday in October, 1987 (when most world markets
lost 20-30 of their value over a period of 1-2
days).
We do not see this kind of large fluctuation in
the biased random walk graph because the
probability of taking a very large number of
random steps in the same direction (which would
be necessary for a large fluctuation) is
exponentially small. (Stanley, Physica A 2000 9)

26
Fractal Finance

If market obeyed CAPM, prices would follow
random walk along upward trend
Deviations from trend would fit within normal
distribution
Defined average
Dispersion described by standard deviation
If market fractal, prices follow power law
Number of movements of some size related to size
raised to some power

27
Fractal Finance

Basic model the sandpile (Per Bak)
Tip sand onto ground forms a sandpile
Lots of little local avalanches all the time
But generally sandpile grows uniformly
Until slope reaches some critical level
Next sandgrain causes pile-wide avalanche
Pile collapses to well below critical shape
Additional sand reforms shape till critical point
Big avalanche is a small avalanche that doesnt
stop
Number of avalanches of given size roughly equals
size raised to a power

28
Fractal Finance

Same idea in markets
Generally rising price level
Small crashes all the time
Systemic critical level approached
Next small crash sets of systemic crash
Number of crashes (or bubbles) of given size
roughly equals size raised to some power
Size measure daily percentage movement of index
Fractal market prediction number per century of
daily crashes of (e.g.) 10 roughly equals 0.1
raised to some power
Take logs

29
Fractal Finance

Power law fit Dow Jones

Power law predicts6 10 daily movementsper
century
Actual number was 8
1 means 10110events per century
-1 means 10-110 daily change

Does this tell us anything the EMH doesnt?

30
Fractal Finance

Power law fits stock market data

Gaussian fit hopeless
Far more extreme events than random change
predicts

31
Fractal Finance

Random walk prediction OK for small movements
/-3 780 reality v 718 random prob.
Hopeless for large
/-6 57 v 1
/- 8 11 v 1 in a million chance

-2 means 10-2 onesuch event predictedevery
century
11 lastcentury
10-6 1 event predictedevery 1 million centuries
Actual number 57
10-1.18 change
-1.2 means 10-1.26 daily change
32
Fractal Finance

Other statistical properties found
Tsalliss q
Sornettes Log-periodic crashes
Most research done by physicists
(econophysicists)
Characterise how the market behaves
Large movements
Clearly interactions between agents
Like interactions between grains of sand in
sandpileone grain pushes several others that
push others chain reaction to avalanche
Doesnt explain why market behaves this way
Over to behavioural finance

33
Behavioural Finance

CAPM based on rational utility maximising
behaviour
Expected utility hypothesis
Given two risky outcomes, agent chooses one that
maximises expected value

Problem 1 You have to choose between two
alternatives
A 50 chance of 100 and 50 chance of nothing
B 75 chance of 200 and 25 chance of -100
Which would you choose?...
Write your choice down
A or B?

34
Behavioural Finance

According to economic theory you should choose B
EVA . 5 x 100 . 5 x 0 50
EVB .75 x 200 .25 x -100 150-25 125
Unfortunately, in experiments, most choose A over
B
Theory modified to take into account risk
averse behaviour
People seek to maximise not EV, but subjective
utility of EV, taking risk preference into
account
Same basic relation applies can break down
utility of gamble into odds times utility of
components

Modified theory describes people who choose A
over B as risk averse B over A as risk
seeking
But still theory doesnt work experiments show
people choose risk averse bundle some times,
risk seeking others

35
Behavioural Finance

Problem 2 You have to choose between two
alternatives
A do nothing
B accept gamble with outcome either X or Y
X a 50 per cent chance to win 150, and
Y a 50 per cent chance to lose 100.
What would you choose option A or option B?
Would your choice change if your overall wealth
were lower by 100?
Write your choice down
A or B?
Would your choice change?

36
Behavioural Finance

Problem 3 You have to choose between two
alternatives
A Lose 100 with certainty
B accept gamble with outcome either X or Y
X a 50 per cent chance to win 50, and
Y a 50 per cent chance to lose 200
What would you choose option A or option B?
Would your choice change if your overall wealth
were higher by 100?
Write your choice down
A or B?
Would your choice change?

37
Behavioural Finance

Majority of experimental subjects choose
Problem 2 Adont gamble
Problem 3 Baccept gamble
Pattern contradicts expected utility theory
2A is risk-averse choice
U(0) gt U( 0.5 x 150 0.5 x -100)U(EV75-50)
U(0) gt U(EV25)
3B is risk-seeking!
U(-100) lt U(0.5 x 50 0.5 x -200)U(EV25-100)
U(-100) lt U(EV-75)
100 addition to wealth question allows next
step
U(0) lt U(EV25)
Preference reversal most experimental subjects
dont behave rationally (as economists define
rational)
Another example at end of lecture

38
Behavioural Finance

Behavioural finance theorists interpretation
People arent rational as economists define it
Economists
linear trade-off losses and gains weighted
equally
Absolute wealth position all that matters
Economic thought involves rational non-emotional
calculation
Behavioural finance
Nonlinear tradeoff losses weighted more than
gains
Relative wealth position matters
Economic thought involves emotional intuition as
well as rationality
Intuition much faster but can sometimes be
incorrect

39
Behavioural Finance

Psychologist Kahneman won 2003 Nobel Prize for
Economics
Argues for two reasoning systems in humans
Intuition
Reason

Neoclassical economics models behaviour as if
only rational system exists, but both exist are
used in economic financial decisions

40
Behavioural Finance

Intuitive, emotional, relative judgments lie
behind standard choices by experimental subjects
the very abrupt switch from risk aversion to
risk seeking could not plausibly be explained by
a utility function for wealth. Preferences
appeared to be determined by attitudes to gains
and losses, defined relative to a reference
point We therefore proposed an alternative
theory of risk, in which the carriers of utility
are gains and losseschanges of wealth rather
than states (Kahneman Nobel Prize lecture 1456)
In prospect theory, people react more to losses
than gains pain of loss weighted more heavily
than pleasure of gain

41
Behavioural Finance

The value function is defined on gains and
losses and is characterized by three features
(1) it is concave in the domain of gains,
favoring risk aversion
(2) it is convex in the domain of losses,
favoring risk seeking
(3) most important, the function is sharply
kinked at the reference point, and
loss-aversesteeper for losses than for gains by
a factor of about 22.5. (1456)

Rational choice model that dominates
conventional economics finance thus unsuitable
for real people

42
Behavioural Finance

The rational agent of economic theory would be
described, in the language of the present
treatment, as endowed with a single cognitive
system that has the logical ability of a flawless
System 2 and the low computing costs of System 1
The behavioural finance model of the agent
has a different architecture The core ideas are
the two-system structure, intuition reason
the large role of System 1 intuition
and extreme context-dependence
The central characteristic of agents is not that
they reason poorly but that they often act
intuitively (1469)
Applied to stock market Haugens Inefficient
Markets Hypothesis

43
Inefficient Markets Hypothesis

Emphasises emotional component of investor
decision-making
Fad (or Schumpeterian innovation) makes some
industry sector or firm growth stocks
Valued above average Price to Book value (P/B)
Other unpopular value stocks ignored
Valued below average P/B ratio
Growth stocks inevitably disappoint
Value stocks often surprise
Repeated on scale of individual firms
Poor performing firm undervalued good one
overvalued
Reversion to mean causes star to disappoint,
dog to outperform
Series of reports needed before trend spotted

44
Inefficient Markets Hypothesis

Institutional investors forced by need to match
index to purchase broad portfolio
Non-institutional investors can profit by
Buying value stocks Low P/B ratio low earnings
volatility
Timing entrance/exit from market
Many structural anomalies in stock market
returns
The incredible January effect
Rise of market almost every January
95 of gains in December-April
Selective buy-in sell-out works
Some sample data from Bob Haugen (main proponent
IMH) http//www.bobhaugen.com/

45
Inefficient Markets Hypothesis

Haugens plot of Fama-French B/M ratios and
future returns

Value
Growth
46
Inefficient Markets Hypothesis

Cumulative effect of Value vs growth investment
30-64

47
Inefficient Markets Hypothesis

Mean reversion todays excellent companies do
badly

48
Inefficient Markets Hypothesis

If you invested 100 in each group of companies
in 1981

Unexcellent Companies
297.5
181.6
Excellent Companies

Unexcellent companies portfolio far better
Reversion to the mean poorer companies had more
room to improve

49
Inefficient Markets Hypothesis

Investing in Low P/E companies far better than
Index

50
Behavioural Finance

Behavioural economics emphasises emotional,
non-rational aspects of human decision making
But 2nd explanation of behavioural economics
results
Economics falsely applies risk theory to
uncertainty
What economists call rational isnt rational in
uncertain world
Expected value theory originally developed to
interpret gambling behaviour in risky games
(roulette, cards,)
Applied to economics after work on Games
Economic Behaviour by mathematician John von
Neumann economist Oskar Morgenstern
BUT
von Neumann Morgenstern used risk to build
numerical theory of consumer choice

51
Behavioural Finance

Mapping consumer preferences to arbitrary scale
of utils using risk as guide to valuation
Choice between
one banana for certain or
gamble between no banana or 2 bananas
What odds of success needed before take gamble
rather than sure thing?
Say consumer accepts 70 odds of success
Then 1 banana gives 70 of utility of 2 bananas
Set U(0)0 U(1)1
Then U(1)/U(2) 0.7
U(2) 1/0.7 1.43
Numerical measure of utility intended to be
complete replacement for indifference curve
analysis

52
Behavioural Finance

It can be shown that under the conditions on
which the indifference curve analysis is based
very little extra effort is needed to reach a
numerical utility. (von Neumann Morgenstern
1944 17)
if the preferences of the individual are not
at all comparable, then the indifference curves
do not exist. If the individuals preferences are
all comparable, then we can even obtain a
(uniquely defined) numerical utility which
renders the indifference curves superfluous.
(19-20)
Cautioned their concept of risk could not be
subjective

53
Behavioural Finance

Probability has often been visualized as a
subjective concept more or less in the nature of
estimation. Since we propose to use it in
constructing an individual, numerical estimation
of utility, the above view of probability would
not serve our purpose. The simplest procedure is,
therefore, to insist upon the alternative,
perfectly well founded interpretation of
probability as frequency in long runs. (von
Neumann Morgenstern 1944 19)
i.e., risk of receiving banana had to mean
average outcome of lots of gambles
Banana a day for rest of your life vs
70 chance of 2 bananas vs zero for rest of your
life
Reconsider first example this way

54
Behavioural Finance

Problem 1 You have to choose between two
alternatives
A 50 chance of 100 and 50 chance of nothing
B 75 chance of 200 and 25 chance of -100
Whatever you choose will be repeated 1000 times
Youd have to be stupid to choose A over B
A Win 100 500 times Nothing 500 times
Total winnings over 1000 games 50,000
B Win 200 750 times lose 100 250 times
Total winnings over 1000 games 125,000
Ditto for other problem

55
Behavioural Finance

Problem 2 You have to choose between two
alternatives
A do nothing
B accept gamble with outcome either X or Y
X a 50 per cent chance to win 150, and
Y a 50 per cent chance to lose 100
A get nothing
B 500 x 150 500 x -100 25,000
Definitely choose B.
Problem 3 A lose 100 for certain vs B 50 odds
of 50 and 50 odds of -200
A lose 100,000
B 500 x 50 500 x -200 lose 150,000
Definitely choose A.

56
Behavioural Finance

Expected value calculations work when gamble
repeated
Dont work when only one off
Reason? one-off gamble involves uncertainty
With multiple gamble, you get expected value of
gamble
Repeat gamble 1000 times
If true odds 7525, youll get roughly 750 of A
and 250 of B
With one-off gamble, you DONT get expected
value of gamble
You get EITHER one alternative OR the other
Cant predict which one will actually happen not
risky but uncertain
Expected value of gamble irrelevant what
matters is impact of one-off outcome
Which is most like investing gamble repeated
1000 times or one-off uncertain outcome?

57
Behavioural Finance

Investment decisions subject to uncertainty, not
risk
Keynes emphatic about this in General Theory
factors which determine the rate of investment
are most unreliable, since it is they which are
influenced by our views of the future about which
we know so little.
no solid basis exists for a reasonable
calculation (154)
So how do we decide how to invest?
we form conventions (see Lecture 9)
We try to minimise uncertainty
One method payback period
Normally derided by economists

58
Investment under uncertainty

Economists (and some accountants!) recommend Net
Present Value calculations instead
Estimate future income stream
Discount future income by rate of interest
Undertake projects when discounted value of
expected future income exceeds investment cost
Basis of
Marginal Efficiency of Investment ideas in
macroeconomics
Finance advice about personal corporate
investment decision making
Payback period derided as unsophisticated
Not taking account of time value of money

59
Investment under uncertainty

E.g., Gitman Financial Management text
Although popular, the payback period is
generally viewed as an unsophisticated capital
budgeting technique, since it does not explicitly
consider the time value of money by discounting
cash flows to find present value. (Gitman 353)
In fact payback more sophisticated because takes
some account of uncertainty
Immediate future much like present
Further into future, present much less effective
guide
Simple rule discount far future cash flows more
than near future
Rather than

we need something like
Click here for more
60
Back to the Stock Market

However unrealistic, CAPM gives model of stock
market
Economists need models
In economic literature, good verbal model loses
to lousy mathematical one every time
Can we build realistic mathematical model of
stock market?
Two examples
Trond Andresens systems engineering model
Fundamental traders, trend traders, mood
Physicists Minority Game
Game won by being in minority

61
System dynamics of Stock Market

Two main types of traders
Fundamental value traders
Buy shares if believe price below fundamental
value
Basically, long-term price to earnings ratio
Trend traders
Buy if share is increasing in value sell if
falling
Two systemic variable
Mood of market influenced by
short term trend optimistic if rising,
pessimistic if falling
Divergence from long-term trend pessimistic if
well above trend, optimistic if well below
Panic when random downswing causes sudden
collapse of optimistic mood

62
System dynamics of Stock Market

Basic mechanics of model
Starts in some state (say below long-term value)
Fundamental traders buy shares
Trend traders jump on the bandwaggon also buy
Combined demand drives price/earnings ratio up
Upward trend causes rising optimism
Share price rises to above long-term value
keeps rising
But eventually
Fundamental traders sell in increasing volumes
Mood sours as divergence above long term P/E
grows
Weight of fundamental sales plus declining mood
sales starts downswing
P/E ratio starts to fall system runs in reverse
Random shocks Panic response causes crashes

63
System dynamics of Stock Market

Generates cycle in P/E ratios

Add random shocks panics pattern looks like
actual stock market data

64
System dynamics of Stock Market

Model implemented as numerical flowchart (like
Minsky model in Vissim)

Knowledge of differential equations nonlinear
dynamics needed to develop this sort of model

65
Minority Game

Computing-based model
Basic idea model stock market as multi-player
game
Players bet whether market will go up or down
Those gambling on up bid to buy
Those gambling on down bid to sell
Sum of buy sell positions determines actual
movement
If majority bids up, price rises, sellers make a
profitminority wins
If majority bids down, price falls, buyers get
bargainsminority wins again
No equilibrium strategy possible if winning
strategy emerges, majority adopts it turns it
into losing strategy

66
Minority Game

Mathematics of model dynamics largely solved
Fokker-Planck-Einstein (from quantum
mechanics!) equation captures gt 90 of model
dynamics
Far too complex to understand (PhD in theoretical
physics needed)
Dynamics of model mimic some but not all aspects
of real market
often it is convenient to join the majority
trend
During the Internet stock follies, it was
possible to reap considerable profits by going
along with the explosive boom, provided one got
off in time
But majority situations may actually have
minority elements embedded in them
being different from the crowd at the right time
is the key to success. In a booming trend, it is
the minority of those who get off first who win,
while others lose. (Challet et al. pp. 12-13)

67
Whew! Next week

Overview of conventional trade theory
Final week critique of comparative advantage
outline of competitive advantage

68
Behavioural Finance

Problem 4 You have to choose between two
alternatives
A Lose 45 with certainty
B 5050 chance of losing either 100 or 0
What would you choose option A or option B?
Problem 5 You have to choose between two
alternatives
A 10 chance of losing 45 and a 90 chance of
0
B 5 chance of losing 100 and a 95 chance of
0
What would you choose option A or option B?
Write your choices down
4 A or B
5 A or B

69
Behavioural Finance

Most experimental subjects choose 4B and 5A
Preference reversal again
Choice of 4B implies
U(-45)lt U(EV0.5 x -100 0.5 x 0)
U(EV-500)
U(-45)lt U(EV-50)
Choice of 5A implies
U(EV0.1 x -45 0.9 x 0) gt U(EV0.05 x -100
0.95 x 0)
U(EV-4.5) gt U(EV-5)
Multiply by ten (double all prices incomes)
U(EV-45) gt U(EV-50)
Repeating 1000 times makes 4A 5B only sensible
choices
4A 45,000 loss vs 4B 50,000 loss
5B 2,500 loss vs 5A 4,500 loss

70
The Payback Period

Risk Outcome has a known chance of being one of
a finite number of known outcomes
Roll dice how many outcomes, what are chances of
a 6?
Bet on a football game?
Recent form a passable guide
Win/lose/draw the only possible outcomes
Uncertainty Outcome has an unknown chance of
being one of a possibly infinite number of
unknown outcomes
Odds rival firms beats you to an invention?
Odds of discovering a cure for cancer?
Odds new technology making your products
obsolete?
Odds that Wall Street will crash in October?

71
The Payback Period

Well-developed techniques to understand and cope
with risk
Odds, Probability, Statistics, all based on
Known distribution of outcomes
Ability to repeat experiment time and time
again
How to understand, cope with uncertainty?
Cant understand what we dont even know, but we
have to cope. Investment involves the future, and
the future is uncertain. Keynes 1937

The game of roulette is not subject to
uncertainty the prospect of a European war is
uncertain, or the rate of interest twenty years
hence, or the obsolescence of a new invention,
About these matters there is no scientific basis
on which to form any calculable probability
whatever. We simply do not know.

72
The Payback Period

Can adjusting the discount rate for riskthe
Risk Adjusted Discount Rate (RADR)do it?
Example Investing in drilling for oil in the
East Timor Sea
Risk-free discount rate 7
Main risk (really uncertainty) military action
in Indonesia disrupts operations
Can we just double discount rate, say?
Consider example cash flows
Initial investment 1,000 million
Expected cash flows 200 million p.a. for ten
years

73
The Payback Period

NPV using risk-free and risk-adjusted discount
rates

NPV using risk-adjusted discount rates still
positive, so youd go ahead
But what if disaster strikes oil rig blown up in
military conflict in year 5?

74
The Payback Period

Cash flows stop in Year 5

Both methods give negative NPV
Higher discount rate doesnt really help when
uncertainty really affects HOW LONG you expect
cash flows to last.

Is there any technique which can cope with this
aspect of uncertainty?
The Payback Period
Focus on making a profit and avoiding disaster

75
The Payback Period

Focus not on risk
Variance in returns matters
Low variance, low risk
High variance, High Risk
Higher returns associated with higher risk
(variance)
But on uncertainty and avoidance of disaster
Variance comparatively irrelevant
Area below zero matters
High return may mean low risk

76
The Payback Period
CAPM variance matters
Uncertainty downside matters
High odds of disaster
Low odds of disaster
77
The Payback Period

NPV calculated using constant discount rate
But possibility of disaster an increasing
function of time
more time for competitor to invent rival product
greater likelihood of downturn in business cycle
etc.
More distant cashflows should be discounted more
heavily than more immediate cash flows
Simplest method
possibility of disaster rises linearly with time
so discount term on cash flows rises linearly
with NPV, discount rate risk free rate (r) for
all time
as well, disaster discount rate needed with (b x
t) term (b a constant) chance of disaster grows
with time (approximation only actual situation
more complex still)

78
The Payback Period

NPV formula in discrete form is

Expected value
Inflow in year i
Discount rate

In continuous time form this is

Cash flows as a function of time

If disaster strikes at time s, then the NPV of
cash flows only will be

Since all cash flows after time s are zero
(ignoring disaster related negativese.g., Exxon
Valdize cleanup costs)

79
The Payback Period

s can vary between t0 (disaster immediately) and
tinfinity (no disaster ever).
Have to sum this over all possible values
If disaster at time s is a rising function of
time

Sum of all possible values up to time t is
integral of this over time

This gives us a new factor by which NPV can be
multiplied to take account of possibility of
disaster at any time in the future

Complicated integration actually needed to get to
this point
80
The Payback Period

Multiplied by a probability of disaster factor
which rises very sharply as time goes on

Expected value of cash flows when disaster
explicitly allowed for

Normal NPV term

Disaster term has little effect early on
But eventually totally dominates discount term

81
The Payback Period
Discount reduces value to 60 nominal after 10
years
Disaster reduces value to 8 nominal after 10
years
82
The Payback Period

An example
Two projects A and B
Same Initial investment cost of 100 million
A has expected cash flows which
Start in year 1 at zero and rise to 25 million
by the years end
Rise at 25 p.a. till year 8, then stop
completely
B has expected constant cash flows of 50 million
p.a.
Compare projects using
NPV with discount rate of 5
NPV with discount rate of 5 AND disaster
probability of 5

83
The Payback Period

Formula for continuous time discounting is

For A, start is 1, end is 8, C(t) is?

Equals zero in year 1, 25 m at end of year 2
Start date of 1 gets round -25 m value for
beginning of year 0

B is much simpler

84
The Payback Period

On NPV grounds, A is much better than B

But when the possibility of disaster is
considered

85
The Payback Period

Values drastically lower than NPV levels
strong impact of uncertainty
Priority reversed
more immediate cash flows of B preferred to
higher but delayed cash flows of A
Almost the same result for less accurate discrete
formulas
As with discount, discrete disaster term
approximates continuous term

86
The Payback Period
Using these discrete formulas
A is the hands-down winner
B now preferred, as with continuous case
87
The Payback Period

Taking stock
NPV formula is

Discounts, but ignores issue of uncertainty
or

Uncertainty-aware formula is

or
Discounts and makes some allowance for uncertainty
Which is more sophisticated? No contest!
88
The Payback Period

Do businessmen use anything so complicated?
Of course not
(but might expect their financial advisers to do
so!)
Is there anything businesses commonly use that
approximates to this?
Yes The Payback Period
Payback period
Puts maximum time M allowed for project to cover
initial costs
Ranks projects within time limit on basis of
expected revenues
We can relate M to previous formulas and idea of
probability of disaster D striking before payback
period M

89
The Payback Period

Take the disaster weight at M as indicator of
possibility of disaster-free operation up until M

Subjective possibility of a disaster D before M
is thus

This lets us derive b from D and M

Using logs

How to interpret D?

90
The Payback Period

Firm willing to accept a very high acceptable
risk of disaster applies a very low uncertainty
discount to future cash flows
So high acceptable level of D (say, acceptance of
95 chance that disaster will occur before
payback period M)
translates as very low level of D actually
applied to future cash flows (5 for acceptable
level of 95)

Acceptable level of disaster (failure to payback
within M years) to firm
Uncertainty discount applied to expected future
cash flows
91
The Payback Period

An example
Firm has WACC of 10, payback period of 4 years,
accepts projects with 95 chance of succeeding
within payback period
Same as accepting projects with 5 or less chance
of disaster
Therefore

So we have derived b (argument in
uncertainty/possibility of disaster function)
from
maximum acceptable payback period M
Possibility D of disaster (not paying back
investment) before M
Disaster odds function thus incorporates
uncertainty
How to interpret b?

92
The Payback Period

b an argument in expression

Expression returns a number
M is dimensioned by time and is squared
Thus b must be dimensioned by time-2

Define T

Dimensions cancel out so that T is a period of
time
using previous example

In general
93
The Payback Period

Interpreting T
Something like the horizon of uncertainty
Time so far in the future (subjectively for given
firm) that all bets are off credence given to
hypothetical cash flows after time T drops off
rapidly.
Putting this all together
M shows maximum acceptable payback period
D shows maximum acceptable risk of disaster
before M
Together these yield T, horizon of uncertainty
for this firm
These determine uncertainty-aware discounting
function