MATH3075 Financial Derivatives

ASSIGNMENT 1
MATH3075 Financial Derivatives (Mainstream)
Due by 11:59 p.m. on Sunday, 8 September 2024

1. [12 marks] Single-period multi-state model. Consider a single-period market
   model M = (B, S) on a finite sample space Ω = {ω1, ω2, ω3}. We assume that the
   money market account B equals B0 = 1 and B1 = 4 and the stock price S = (S0, S1)
   satisfies S0 = 2.5 and S1 = (18, 10, 2). The real-world probability P is such that
   P(ωi) = pi > 0 for i = 1, 2, 3.
   (a) Find the class M of all martingale measures for the model M. Is the market
   model M arbitrage-free? Is this market model complete?
   (b) Find the 代 写MATH3075 Financial Derivatives replicating strategy (ϕ) for the contingent claim X = (5, 1, −3)
   and compute the arbitrage price π0(X) at time 0 through replication.
   (c) Compute the arbitrage price π0(X) using the risk-neutral valuation formula
   with an arbitrary martingale measure Q from M.
   (d) Show directly that the contingent claim Y = (Y (ω1), Y (ω2), Y (ω3)) = (10, 8, −2)
   is not attainable, that is, no replicating strategy for Y exists in M.
   (e) Find the range of arbitrage prices for Y using the class M of all martingale
   measures for the model M.
   (f) Suppose that you have sold the claim Y for the price of 3 units of cash. Show
   that you may find a portfolio (x, ϕ) with the initial wealth x = 3 such that
   V1(x, ϕ) > Y , that is, V1(x, ϕ)(ωi) > Y (ωi) for i = 1, 2, 3.

2. [8 marks] Static hedging with options. Consider a parametrised family of
   European contingent claims with the payoff X(L) at time T given by the following
   expression
   X(L) = min
   2|K − ST | + K − ST , L
   
   
   where a real number K > 0 is fixed and L is an arbitrary real number such that
   L ≥ 0.
   (a) For any fixed L ≥ 0, sketch the profile of the payoff X(L) as a function of ST ≥ 0
   and find a decomposition of X(L) in terms of the payoffs of standard call and
   put options with maturity date T (do not use a constant payoff). Notice that a
   decomposition of X(L) may depend on the value of the parameter L.
   (b) Assume that call and put options are traded at time 0 at finite prices. For
   each value of L ≥ 0, find a representation of the arbitrage price π0(X(L)) of
   the claim X(L) at time t = 0 in terms of prices of call and put options at time
   0 using the decompositions from part (a).
   (c) Consider a complete arbitrage-free market model M = (B, S) defined on some
   finite state space Ω. Show that the arbitrage price of X(L) at time t = 0 is a
   monotone function of the variable L ≥ 0 and find the limits limL→3K π0(X(L)),
   limL→∞ π0(X(L)) and limL→0 π0(X(L)) using the representations from part (b).
   (d) For any L > 0, examine the sign of an arbitrage price of the claim X(L) in any
   (not necessarily complete) arbitrage-free market model M = (B, S) defined on
   some finite state space Ω. Justify your answer.

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