chapter 2 arbitrage-free pricing. definition of arbitrage
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Chapter 2Arbitrage-Free Pricing
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Definition of Arbitrage
•Suppose we can invest in n assets.
Price of asset i at time t :
Units of asset I :
Portfolio value :
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Definition of Arbitrage
• Besides the definition given above, the principle of no arbitrage has the following equivalent forms :▫We can not construct a riskless portfolio which returns
more than ▫ If two portfolio have identical future cashflows with
certainty, then the two portfolio must have the same value at the present time.
套利的定義,條件缺一不可
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2.1 Example of Arbitrageparallel yield curve shifts
•Suppose that
• is the initial forward-rate curve at t=0
•Parallel shifts model dictates that at t=1 the forward-rate curve will be :
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2.1 Example of Arbitrageparallel yield curve shifts
•At t=1
此處的結果會在之後的投影片中用到
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2.1 Example of Arbitrageparallel yield curve shifts
•Let be the number of units held at t=0 of the bond maturing at , i=1~3
•For an arbitrage we require
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•The value of portfolio at t=1 is2.1 Example of Arbitrage
parallel yield curve shifts
此處乃應用稍早第 5 張投影片的結果而求得之結果,
至於把 T2 獨立出來的目的,則是為了方便之後的運算。且由於 V1(ε) 中,左邊分數之分子分母皆大於零,表示 V1(ε) 的正負、大小僅與 g(ε) 有關
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• For an arbitrage , we require that for all, and since we must have first order condition
2.1 Example of Arbitrageparallel yield curve shifts
因為 g(0)=0 , 又,所以 =0 必定為g() 的最低點。
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•And S.O.C
2.1 Example of Arbitrageparallel yield curve shifts
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Example 2.1
•Suppose that for all t > 0, and that, for all t > 0,
where I= 0 or 1 is a random variable. In other words, the spot- and forward-rate curves will both have a shift up or down of 2%.
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Example 2.1
Suppose that we hold , and units of the bonds maturing at times 1, 2 and 3 respectively, such that
運用到的條件:1. 假定2. 3. F.O.C.
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Example 2.1
•At time 1 the value of this portfolio is 0.00021 if I=1 or 0.00022 if I=0.
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Example 2.1
•The model is not arbitrage free.
•Hence, parallel shifts in the yield curve cannot occur at any time in the future.
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2.2 Fundamental Theorem of Asset Pricing•Suppose risk-free rate r(t) is stochastic.
Randomness in r(t) is underpinned by the probability triple , P is the real world probability measure.
•Let cash account be
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•Theorem 2.21. Bond price evolve in a way that is arbitrage free if
and only if there exists a measure Q, equivalent to P, under which, for each T, the discounted price process P(t,T)/B(t) is a martingale for all t: 0<t<T
2. If 1. holds, then the market is complete if and only if Q is the unique measure under which the P(t ,T)/B(t) are martingales.
The measure Q is often referred to, consequently, as the equivalent martingale measure.
2.2 Fundamental Theorem of Asset Pricing
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•Value of zero coupon bond at time t :(since P(T,T)=1)
• If X is some -measurable derivative payment payable at T, V(t) is the fair value of this derivative contract
2.2 Fundamental Theorem of Asset Pricing
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Example 2.5 forward pricing
•A forward contract has been arranged in which a price K will be paid at time T in return for a repayment of 1 at time S (T<S). Equivalently, K is paid at T in return for delivery at the same time T of the S-bond which has a value at that time of P(T,S). How much is this contract worth at time t<T ?
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Example 2.5 forward pricing• As an interest rate derivative contract, this has value
at time T.•
-K
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• If we choose K to ensure that V(t)=0, then
where
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• , the long term spot rate.•Empirical research (Cairns 1998) suggests that l(t)
fluctuates substantially over long periods of time.•None of the models we will examine later in this
book allow l(t) to decrease over time.•Almost all arbitrage-free models result in a constant
value for l(t) over time.•This suggest that a fluctuating l(t) is not consistent
with no arbitrage.
2.3 The Long-Term Spot Rate
),(lim)( TtRtlT
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•Theorem2.6 (Dybvig-Ingersoll-Ross Theorem) Suppose that the dynamics of term structure are
arbitrage free. Then l(t) in non-decreasing almost surely.
proof•At time 0, we invest an amount 1/[T(T+1)] in the bond
maturing at time T.•
1)1(
1)0(
1
T TTV
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Dybvig-Ingersoll-Ross Theorem• Assume• Goal: check V(1).
)0()1( ll
0
0
(0) (1)Let 0, there exists 0 such that
3 | (0) (0, ) |
(0) (0, ) or (0, ) (0)
(0, ) ( (0) )
l lT
T T l R T
l R T R T l
R T l
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Dybvig-Ingersoll-Ross Theorem
11
11
)1(
1)0(
11
TT TTTTV
Tl
TlT
T TTT e
e
TTTPTT
TP
TPTT
TPV
))0((
))1((1
11
0
0)1(
1
),0()1(
),1(
),0()1(
),1()1(
TT
T TT
eTTTPTT
TP 1
1
0
0)1(
1
),0()1(
),1( HopitalL'
(0, ) ( (0) )0(0, ) as .R T T l TP T e e T T
(1, ) ( (1) )0
With similar argument, we can get
(1, ) as .R T T l TP T e e T T
• • •
•
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Dybvig-Ingersoll-Ross Theorem
•Since dynamics are arbitrage free, there exists an equivalent martingale measure, , such that V(1)/B(1) is a martingale (Theorem 2.2)
where is the cash account. is a.e. real-valued.
Q
0
(1) (0)i.e. 1
(1) (0)Q
V VE
B B
)1(/)1( BV
0))1(/)1(( BVQ
0( )
( )tr s ds
B t e
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Dybvig-Ingersoll-Ross Theorem
(equivalent measure)• is non-decreasing almost surely under the real
world measure P.•What the D-I-R Theorem tell us is that we will not be
able to construct an arbitrage-free model for the term structure that allows the long-term rate l(t) to go down.
0)0()1(
0)1()0()1(
0)1(
llP
VQllQ
VQ
)(tl
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Example 2.7
•This example is included here to demonstrate that we can construct models under which l(t) may increase over time.
• In practice, many models we consider have a recurrent stochastic structure which ensures that l(t) is constant. In other models l(t) is infinite for all t > 0.
theorem.DIR by the indicated as ,increasingor constant is )(
0.06)(or 04.0)1(04.0
lim),1(log1
lim)1(
yprobabilit equal with or toequal is ),1( 1, At time )1(06.0)1(04.0
tl
T
TTP
Tl
eeTP
TT
TT
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2.6 Put-Call Parity• Consider European call and put options
with the same exercise date T, a strike price K, and the underlying S-bond, P(t,S), S>T
• Time=t• Time=T
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•By the law of one price, the values of the two portfolio at any earlier time must also be equal
2.6 Put-Call Parity
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Example 2.7
•Suppose under the equivalent martingale measure that
0.5y probabilitwith 106.0
0.5y probabilitwith 104.0
1005.0
)(
tfor
tfor
tfor
tr
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Example 2.7
15.0
5.05.0),0(
1Tfor Then,
02.002.004.001.0
)1(06.0)1(04.005.0
TT
TT
ee
eeeTP
04.0
1log1
5.0log1
04.0lim
),( ),0(log1
lim),0(lim)0(
02.002.001.0
),()(
T
T
TtRtT
TT
eT
eT
eTtPTPT
TRl