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Optimal Consumption over Many Periods Facts About Consumption Consumption Under Certainty Permanent Income Hypothesis Uncertainty and Rational Expectations Facts About Consumption • Conflicting Consumption Data! MPC out of long-term changes in income higher than short-term (over business cycle). • Total consumption is smoother than income over time. • Consumption of non-durables is much less volatile than income while consumption of durables is more volatile than income. FIGURE 3: Consumer Spending and Disposable Income 2004 2003 2002 2001 2000 1998 1997 $5,619 1995 1994 1992 1990 1991 1989 1988 1987 1986 1999 1996 1985 1984 1979 1980 1978 1976 1974 $3,036 1970 1964 1960 1955 1947 1945 1941 1942 1943 1939 1929 0 $3,432 Real Disposable Income $6,081 Copyright © 2006 South-Western/Thomson Learning. All rights reserved. Figure 3.9 Percentage Deviations from Trend in Real Consumption (black line) and Real GDP (colored line) 1947–2006 Figure 8.6 Percentage Deviations from Trend in GDP and Consumption, 1947– 2006 A Multi-Period Model • Consider the case where individuals live for T periods. • Let a0 = s0(1+r) represent initial wealth. • Consumers choose {ct} for t = 1,2,…,T which solves max U (c1, c2 ,, cT ) subject to yt st 1 (1 r ) ct st (BC) • Combining (BC) for each period gives the multi-period lifetime (intertemporal) BC: T T yt ct s0 (1 r ) t 1 t 1 ( 1 r ) ( 1 r ) t 1 t 1 PDV of Lifetime PDV of Lifetime Income + Initial Wealth Consumption Method 1 • LaGrangian: T T yt ct L U (c1 , c2 , cT ) s0 (1 r ) t 1 t 1 ( 1 r ) ( 1 r ) t 1 t 1 FOC: U ct (1 r )t 1 for t = 1,…,T Combining gives U ct U ct 1 (1 r ) MRSct,ct+1 = (1+r) Method 2 • LaGrangian: T L U (c1 , c2 , cT ) t { yt st 1 (1 r ) ct st } t 1 FOC: U ct t for t = 1,…,T t (1 r )t 1 for t = 1, … T-1 Combining gives U ct U ct 1 (1 r ) MRSct,ct+1 = (1+r) • An optimal sequence {ct*} for t=1,…,T solves U ct U ct 1 (1 r ) (T-1 equations) and the lifetime BC: T T yt ct s0 (1 r ) t 1 t 1 ( 1 r ) ( 1 r ) t 1 t 1 • Example: Time-separable utility function U (c1 , c2 ,, cT ) u (c1 ) bu (c2 ) b 2u (c3 ) b T 1u (cT ) T b u (ct ) t 1 t 1 where b < 1 is the time discount factor: b 1 /(1 r ) and r is the rate of time preference. • Hence an optimal sequence {ct*} for t=1,…,T solves u' (ct ) bu ' (ct 1 )(1 r ) (T-1 equations) and T T yt ct s0 (1 r ) t 1 t 1 ( 1 r ) ( 1 r ) t 1 t 1 Consumption with Certainty • The optimal consumption decision, given r, is {ct} for t = 1,2,…,T solving U ct (c1 ,, cT ) U ct 1 (c1 ,, cT ) (1 r ) for t = 0,1,…,T-1, and T T yt ct we a0 t 1 t 1 t 1 (1 r ) t 1 (1 r ) • Simple Example: (i) Time separable utility with r = 0 (b=1). (ii) Zero interest rate: r = 0. 1T c yt a0 T t 1 The permanent income hypothesis – consumption decisions are based upon a constant proportion of lifetime wealth (“permanent income”) – M. Friedman. • Consumption is smoother than income. • Conflicts with traditional view of the importance of current income. (current income by itself doesn’t matter!) • Statistical estimation of simple consumption functions may not be useful: C a b(Y T ) • Saving will be very sensitive to income (in example, st st 1 yt c ) • Problem – if future income is known with certainty, then there should be no consumption fluctuations. (see Graph) PIH with Uncertainty • Consumers have information about current income but not sure about future income. • Let Et be the expectation based upon all information up to and including period t. • Consumer’s Problem: In each period t choose {ct} and {st} to maximize subject to T t t Et b u (ct ) t t yt st 1 (1 r ) ct st • The lifetime BC is given by: T T Et yt Et ct we s0 t t t t t t (1 r ) t t (1 r ) • For simplicity, assume (i) b = 1 (no time discounting) (ii) r = 0, (zero interest rate) 2 (iii) u (c) c (1 / 2)c (quadratic utility) • FOC at date t=1: u' (c1 ) E1u' (c2 ) • Law of Itterated Expecations: The expected value given time-t information of an expected value given time t+1 information of a future variable is the expected value of that future variable conditional on time-t information. • Example: Et Et 1 zt 2 Et zt 2 • Substituting utility function into FOC: c1 E1c2 or more generally ct Et ct 1 for t = 1, …, T-1 • Notice this implies: c1 E1c1 E1c2 E1cT • The lifetime BC is T T E c E y t 1 1 t t 1 1 t s0 Substituting in the FOC from previous slide: 1T c1 E1 yt s0 T t 1 This is the “uncertainty” version of PIH. • Calculating c2 and using c1 from above gives: T 1 T c2 c1 E2 ( yt E1 ( yt T 1 t 2 t 2 • This says that changes in consumption over time are due to revisions in the expectation of future income (i.e. new information) Random Walk Hypothesis • Robert Hall - “Stochastic Implications of the LifeCycle/ Permanent Income Hypothesis: Theory and Evidence,” 1978, Journal of Political Economy • Recall household FOC: E1c2 c1 • If consumers have rational expectations, then this implies consumption follows a random walk: where c2 c1 2 E1 2 0 and 1 T 2 [ E2 ( yt ) E1 ( yt )] T 1 t 2 • More generally, consumption follows ct 1 ct t 1 where Et t 1 0 • The random walk hypothesis (R. Hall) says (i) The best predictor of future consumption is current consumption. (ii) If current consumption is based upon efficiently utilizing all information about future income, changes in consumption are unpredictable (Dc = ) (iii) MPC out of permanent shocks to income are larger than MPC out of temporary shocks. • Implications (i) Anticipated changes in income should have no effect on consumption. (ii) All changes or “shocks” to consumption are permanent. (iii) Consumption Smoothing MPC out of temporary income shocks will be smaller than out of permanent shocks to income. • Empirical Evidence of Random Walk – anticipated (predictable) changes in income do increase consumption but by much less than 1-1 (50 cents to the $). • Reasons Random Walk Theory of Consumption does not hold 100%: (1) Borrowing Constraints: Inability of consumers to have easy access to credit markets. (2) Market Interest Rate Fluctuations: If all consumers want to borrow market rates are driven up! • Resolves conflict between various consumption data: MPC for temporary changes in income < MPC for permanent income changes. FIGURE 3: Consumer Spending and Disposable Income 2004 2003 2002 2001 2000 1998 1997 $5,619 1995 1994 1992 1990 1991 1989 1988 1987 1986 1999 1996 1985 1984 1979 1980 1978 1976 1974 $3,036 1970 1964 1960 1955 1947 1945 1941 1942 1943 1939 1929 0 $3,432 Real Disposable Income $6,081 Copyright © 2006 South-Western/Thomson Learning. All rights reserved. Figure 3.9 Percentage Deviations from Trend in Real Consumption (black line) and Real GDP (colored line) 1947–2006 Real GDP & Consumption: 2005-2009 Figure 8.10 Scatter Plot of Percentage Deviations from Trend in Consumption of Nondurables and Services Versus Stock Price Index Figure 8.9 Stock Prices and Consumption of Nondurables and Services, 1985–2006