Two-State Option Pricing



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Rendleman and Bartter [1] present a simple two-state model of option pricing. The states of the world evolve like the branches of a tree. Given the current state, there are two possible states next period. Using an arbitrage argument, one prices the option by working backwards from the future to the present. 1

Notation Let the subscript 0 denote the current state. Subscripts 1 and 2 denote the two possible states that may occur in the future. A stock worth s 0 in the current period is worth either s 1 or s 2 in the future period. A call worth c 0 in the current period is worth either c 1 or c 2 in the future period. There is also a risk-free asset. 2

Numerical Example We illustrate the model by a numerical example. A stock worth s 0 = 100 in the current period is worth either s 1 = 120 or s 2 = 90 in the future period. For simplicity, suppose that the risk-free rate of return is zero. 3

Call Suppose that the call expires in the future period, with exercise price 105. Thus the call is worth c 1 = s 1 105 = 15 if state 1 occurs (the call is exercised), and c 2 = 0 if state 2 occurs (the call is not exercised). We use an arbitrage argument to find the current price c 0. 4

Black-Scholes Argument Black and Scholes argue that one can form a risk-free portfolio from the stock and the call. The difference in stock value between the two future states is s 1 s 2 = 120 90 = 30, and the difference in call value between the two future states is c 1 c 2 = 15 0 = 15. 5

Hence the hedge ratio is Hedge Ratio 15 30 = 1 2. In the current period, form a risk-free portfolio by buying one share of stock and selling two calls. The net cost of this portfolio is s 0 2c 0. 6

Risk-Free Portfolio If state 1 occurs, the portfolio is worth s 1 2c 1 = 120 2 15 = 90. If state 2 occurs, the portfolio is worth s 2 2c 2 = 90 2 0 = 90. The portfolio is indeed risk-free. 7

Call Price for No Arbitrage If there is no opportunity for arbitrage profit, the rate of return on this portfolio must equal the risk-free rate of return: (s 0 2c 0 ) (1 + risk-free return)=90. Hence so (100 2c 0 ) (1 + 0)=90, c 0 = 5. 8

Pricing Kernel One obtains the same call price via the pricing kernel (stochastic discount factor). Let p i denote the state price of one dollar in state i. Since there are two states and two assets (the stock and the risk-free asset), there exists a unique portfolio of these assets having payoff 1 in state i and payoff 0 in the other state. The state price p i is the cost of this portfolio. For an asset having payoff $ i in state i, its price must be p 1 $ 1 + p 2 $ 2, to avoid an opportunity for profitable arbitrage. 9

For the stock, so s 0 = p 1 s 1 + p 2 s 2, 100 = 120p 1 + 90p 2. For the risk-free asset, 1 = p 1 + p 2, as the risk-free rate of return is zero. 10

Solving yields the state prices p 1 = 1 3 p 2 = 2 3. Pricing the call via the state prices gives c 0 = p 1 c 1 + p 2 c 2 = 1 3 15 + 2 3 0 = 5, identical to the result found above. 11

Probability and Mean Return The probability of each state is irrelevant to the call price. This result is natural, since the call pricing is based on an arbitrage argument, and whether there is an arbitrage opportunity is independent of the probability of each state. The irrelevance of the probability corresponds to the property of the Black-Scholes model that the mean rate of return on the stock is irrelevant. In the two-state model, changing the probability of the two states changes the mean rate of return but has no effect on the call price. 12

The Black-Scholes Model as a Limit Wiener-Brownian motion can be derived as the limit of a binomial random walk. Using this relationship, by a complicated argument it is possible to derive the Black-Scholes formula for the call price by taking the limit of the call price derived in the two-state model. 13

References [1] Richard J. Rendleman, Jr. and Brit J. Bartter. Two-state option pricing. Journal of Finance, XXXIV(5):1093 1110, December 1979. HG1J6. 14

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