Dual Beta Model Ho Ken Jom, Li Wenru, Zhang Jian Department of Mathematics, NUS, 14 March 2011.
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Transcript of Dual Beta Model Ho Ken Jom, Li Wenru, Zhang Jian Department of Mathematics, NUS, 14 March 2011.
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Dual Beta Model
Ho Ken Jom, Li Wenru, Zhang JianDepartment of Mathematics, NUS, 14 March 2011
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The Reference Paper
Does beta react to market conditions? Estimates ‘bull’ & ‘bear’ betas using a nonlinear market model with an endogenous threshold parameter
-by George Woodward; Heather M.Anderson, Quantitative Finance, 25 March 2009
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Outline of The Presentation
• The Model
• Strategy
• Back Testing
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Trend-based scheme
Definition of “Bull” and “Bear” market
How to differentiate market states
Compare market index to a critical threshold value
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Market indicator- transition variable R*
Jump in and out of market phases rapidly Much smoother path
Figure 1: Return on the market index Figure 2, The transition variable (R*)
R*= 12 month moving average of logarithmic returns• smoother• noise not “useful”
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Models
Dual-beta market model:
Bear state: Bull state :
: Market state indicator. critical threshold value for each industry
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Logistic Smooth Transition Market Model
Models
When is large and negative When is large and positive
F is the logistic smooth transition function, : smoothness parameter
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Data
• 24 industry groupings within the Australian Stock Exchange• Observations are monthly• Return series are calculated as the difference of the logarithms of prices.
industry Duration Sample size
19 industries Dec. 1979 to Dec. 2001 265
solid fuels, oil and gas,and entrepreneurial
investors
Dec. 1979 to Oct. 1996 203
miscellaneousservices
Dec. 1979 to Aug. 1997 213
tourism and leisure Dec. 1990 to Dec. 2001 144
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Data
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Estimation—LSTM model
LSTM models :
• “Smooth” transition• estimate LSTM
•15 industries: significant at 5%• 6 industries: significant at 10%•11: negative•10: positive
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Estimation—DBM model
• Parameter estimates are almost identical
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Estimation—DBM model
• DBM fits the data well(R2)
• Stocks spend more time in ‘bull’-market
•ESS is not affected
LSTM model
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Summary
•‘Bull’ and ‘bear’ betas are significantly different for most industries •Transition between states is abrupt, supporting a dual-beta market modeling framework•For many industries, stocks spend more time in ‘bull’-market than ‘bear’-market states.•The risk associated with ‘bull’ states is not always smaller than the risk in ‘bear’ market states.
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Strategies for Dual Beta Market Model
• Terms used • Model Calibration• Theory behind the strategy• Calculate the “fair” return of index• Search mispriced spots and trade • The shortage of the strategy
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Terms
• Rm, Ri: Market/Index return• βu,βd: Beta in “up”/”down” state• α: Alpha• c: Threshold (defined on Rm)• Tu,Td: Upper and lower thresholds (for trading)• RMA: Rolling moving average• ε: the deviation from fair rate
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Bull & Bear
• Paper suggests dual beta model– Differing betas for different market states– Relatively sudden transition
• Suggests a market inefficiency
• Use a 12-month MA to determine state– Market state only changes a few times (2-5 years)
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Up and Down
• Attempts with a 12-month MA yielded losses– Not suitable for forecasting, trading on– Long-term/”slow” changes not useful
• Trials with daily market data (Rm) successful– State can (and does) change from day to day
• Investor sentiment• Smaller, but still significant changes
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Model
• For a given c (Threshold value) partition data into “up”/”down” sets– Fit a dual beta (single alpha model)– Choose the c, α, βu,βd that provide the best fit (R2)– Look for significant change in beta
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Model Calibration
• Calibration for single beta model (SBM)• Use the α of SBM to initiate a search for
parameters of dual beta single alpha model(DBSAM)
• The DBSAM should have a higher R-square as expected
• Trade on pairs of high R-square
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Data Process
• For a given set of estimated model parameters– Calculate Rm, compare with c to obtain state– Calculate Ri, compare with (α + βRm)
• Check where difference lies w.r.t thresholds
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Fair Rate (Model Predicted rate)• For a given set of estimated model parameters
– Calculate Rm, compare with c to obtain state – Calculate the fair rate of index return
if(Rm<C) α + βd Rm
if(Rm>C) α + βu Rm
– The deviation is given as
ε = Ri-(α+ βu Rm)
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Thresholds
• Above +Tu: over-performing or “cheap”– Buy
• Below –Tu: under-performing or “expensive”– (Short) Sell
• Between ±Td: No significant difference (noise)– Close out positions
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Thresholds
• Higher thresholds are more conservative– Buy only during bigger differences– Close out positions more quickly
• Thresholds estimated by backtesting– Conservative thresholds give less gains/losses– Important to determine the best threshold
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Strategy
• Impose a position limit +1, -1• For p=0: if(ε >Tu), p = 1; else p =-1• For p=1: if(abs(ε) <Td), p = 0, update P&L; else
if(ε <-Tu), p = -1, update P&L• For p=-1: if(abs(ε) <Td), p = 0, update P&L; else
if(ε >Tu), p = 1, update P&L
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The Shortage of The Strategy
• Vulnerable to Systematical Risk (suppose p=1 but the market drops during holding period, or p=-1, but the market rise)
• Does not consider transaction cost • Solution: impose further restrictions -impose positive condition for each cycle of trading
-when return is very high, don’t short, and vice versa; do not hold for a long time for a long position, etc…
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Back Testing
• Setup • Stationary Trading• Dynamical Trading• Stress Testing• Future Works• Conclusion
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Setup
• Data Selection• Using Spot rate of return instead of RMA• Calibrating dual beta single alpha model (DBSAM)• Parameterization of the strategy• Which return to use?• The state transition probability
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Data Selection • Market variable: S&P 500(^GSPC)• Target indices scanned:
NYSE Composite (^NYA) NASDAQ Composite ( ^IXIC) Vanguard Index Trust 500 Index (VFINX) PHLX OIL SERVICE SECTOR INDEX ( ^OSX) Bank of America (BAC) • Period: 01/01/2009~04/03/2011 (546 days), by YahooEOD Add some plots to show the betas here
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NYA and S&P500, 1/1/2009~6/03/2011
NYA and S&P500
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
9/ 9/ 2008
12/ 18/ 2008
3/ 28/2009
7/ 6/ 2009
10/ 14/ 2009
1/ 22/2010
5/ 2/ 2010
8/ 10/2010
11/ 18/ 2010
2/ 26/2011
6/ 6/ 2011
Data
Adj
Quot
e
S&P500NYA
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R-Square for the First 294 Days
*Sector index and single stock has low R-square thus trade
S&P500 & NYA
Target NYA IXIC VFINX OSX BAC
R2-SBM 0.978 0.923 0.999 0.717 0.481
R2-DBSAM 0.979 0.925 0.999 0.728 0.504
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Using Spot Rate of return
RMA data yields a bad fitting, and even fails itself, so chose spot rate return of S&P500 for trading
mLag 1 2 3 5 10
SBM R2 0.978 0.117 0.083 0.064 0.020
DBMSA R2 0.979 0.757 0.589 0.390 0.179
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Calibration of DBSAM
• First conduct an SBM OLS on the whole 294 days data• Then partition the data to lower wing and upper wing with
different candidate threshold values• Then for each partition, generate α-grid (see below), search
for α and the associate βd & βu such that the composite R-square is maximized
• In my program, s = 0.01, i = -25, …,25, but is still expensive in computing
isSBM
isSBM
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OSX ~ S&P500 SBM Fitting
R2 = 0.69, Beta = 1.46, ALPHA = 0.175
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OSX~NYA DBSAM Fitting R2 = 0.76, Beta Lower = 1.56, Beta Upper = 1.44, ALPHA = 0.415
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Parameterization of The Strategy
nTrade number of trading days in US, set as 252 ND number of days in data, in our case this is 546 NRD number of days for regression NRD = 546-NBT NBT number of days for back-testing TH the threshold weight to partition the market E the average modeling error Tu the threshold to trigger a position in scales of E Td threshold to close a position in scales of E Limit position limit, set as +1, -1 S the resolution for search for alpha, fixed as 0.01 FEE fees, set as zero for the time-being
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Which Return to use?
• Program uses daily holding period return• Test shows log return performs better• However, for the purpose of consistency, I keep
using daily holding return
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State Transition Probability(1)
Define modeling error at t, t=0,1,..,N as Et. Assume :
For all positive E’s, sum over both sides
Similarly, we have
Once we know r, we can estimate the volatility using
tE
dBrEE tt 1
0, 0, 0,0,0,
)/()(t t ttt Et Et Et
ttttEtEt
t EErErdBErE
0, 0, 0,0,0,
)/()(t t ttt Et Et Et
ttttEtEt
t EErErdBErE
1 tt ErEdB
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State Transition Probability(2)
Now, suppose the initial error is Et which is less than Td. After 1 time unit, the error distribution is given as
Then the probability that a long position will be triggered is
Eventually this will enable us to estimate the holding period.
),(~ 21 tt rENE
uTL dErEEP ),,( 2
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Stationary Trading
The model is calibrated using the first NRD days data, and back-tested against the left NBT days data, assuming the model is stationary
• Search optimal Tu (trigger threshold)• Search optimal Td (closing threshold)• Search optimal TH (weighting threshold)• Different NBT (number of back-testing days)• High Frequency Trading
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Optimal Tu
*Setting: NBT = 126, Td = 0.1, TH = 0.2
Tu 2 3 4 5 6 7 8
SBM P&L -295.56 -392.94 -223.48 148.58 -47.18 -176.6 -341.26
DBSAM P&L -264.78 -236.48 15.12 214.66 251.08 272.44 -13.26
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Optimal Tu
Return f or Di ff erent Tu
- 12
- 10
- 8
- 6
- 4
- 2
0
2
4
6
8
0 1 2 3 4 5 6 7 8 9
Tu
Retu
rn SBMDBSAM
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Optimal Td
*Setting: NBT = 126, Tu = 5, TH = 0.2
Td 1 0.75 0.5 0.25 0.1
SBM Return 4.02% 4.65% 4.24% 4.74% 3.71%
DBSAM Return 10.33% 14.73% 9.52% 9.06% 5.37%
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Optimal TH
*Setting: NBT = 126, Td = 0.5, Tu = 5
Return VS TH
- 15
- 10
- 5
0
5
10
15
0 0. 05 0. 1 0. 15 0. 2 0. 25 0. 3 0. 35 0. 4 0. 45 0. 5
TH
Retu
rn (
%)
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Different NBT
Di ff erent Back Test i ng Days
0. 00%
10. 00%
20. 00%
30. 00%
40. 00%
50. 00%
60. 00%
0 50 100 150 200 250 300
NBT
Retu
rn DBSAMSBM
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High Frequency Trading with Different NBT
*It can be observed that (i) DBSAM is better (ii) return increases with NBT (Setting: Td = 1, Tu = 2, TH = 0.3)
NBT 60 90 126 180 252
SBM Return 24.85% 1.81% 4.02% 7.93% 19.75%
DBSAM Return 24.00% 5.61% 10.33% 10.76% 24.14%
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Dynamic Trading
• The issue of computing time -It takes 50s for Java to search the grid, for 252 days, weekly update, need
42m on Dell OptiFlex755
• Using C & CUDA -Reduce to 7m (on Nvidia GTX580)
• Some results
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Results: Dynamical SBM vs Stationary SBM
Dynamcal SBM and Stat i onary SBM
0. 00%
5. 00%
10. 00%
15. 00%
20. 00%
25. 00%
30. 00%
35. 00%
0. 00% 5. 00% 10. 00% 15. 00% 20. 00% 25. 00% 30. 00%
Stat i onary
Dyna
mica
l
Dynami cal SBMStat i onary SBM
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Results: Dynamic DBSAM vs Stationary DBSAM
Dynami cal DBSAM vs Stat i onary SBSAM
0. 00%
5. 00%
10. 00%
15. 00%
20. 00%
25. 00%
30. 00%
35. 00%
40. 00%
45. 00%
0. 00% 10. 00% 20. 00% 30. 00% 40. 00% 50. 00%
Stat i onary DBSAM
Dyn
DBSA
M
Dynami cal DBSAMStat i onary DBSAM
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Possible Reason for Under-Performance
My own OLS algorithm for regression passing through the
origin (consistent with matlab) yield slightly different parameters from AlgoQuant.
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Stress Testing (stationary): against 2007~2009 Crisis
• Case I: Regression before crisis and back testing in crisis(1 Jan 2007~6 Mar 2009)
• Case II: Both in crisis (3 Jan 2008~6 March 2010)• Case III: Regression in crisis and back testing out crisis? But no
such case!
Cases I II
SBM -3.75% 7.08%
DBSAM 0.077% 32.74%
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Conclusion
• The simple strategy works well after optimization for composite indices, and in most of the cases the DBSAM outperforms SBM. But the model is subject to Systematic risk .
• The Dynamical SBM outperforms Stationary SBM, this is not true for DBSAM, possibly due to the inconsistency OLS algorithm.
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Future Works
• Refine the model -Resolving the inconsistency of OLS algorithm
-Try daily model updating -Impose conditions to hedge the systematic risk -Apply to sector index (R2: 0.7~0.9) -Reduce the parameters of the model -Compute the Sharp ration/Sharp Omega if we have time
• Try DUAL BETA DUAL ALPHA MODEL• Try Pairs Trading with Dual & Dynamical Beta
Model
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Q& A!