Endogenous Production Networks and Non-Linear Monetary ...
Transcript of Endogenous Production Networks and Non-Linear Monetary ...
![Page 1: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/1.jpg)
Endogenous Production Networks andNon-Linear Monetary Transmission
Mishel Ghassibe
University of Oxford
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 2: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/2.jpg)
Motivation: non-linear monetary transmission to GDP
Recession vs Expansion
Tenreyro and Thwaites (2016)
Tight vs Loose credit
Jorda et al. (2019)
Large vs Small shocks
Ascari and Haber (2019)
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 3: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/3.jpg)
Motivation: non-linear monetary transmission to GDP
Recession vs Expansion
Tenreyro and Thwaites (2016)
Tight vs Loose credit
Jorda et al. (2019)
Large vs Small shocks
Ascari and Haber (2019)
100bp tightening in a fully non-linear medium-scale New Keynesian Model:
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 4: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/4.jpg)
This Paper
A novel tractable framework to rationalize a range of non-linearities in monetarytransmission, with the key mechanism supported by evidence using aggregate, sectoraland firm-level data
1 Develop sticky-price New Keynesian model with input-output linkages across sectorsthat are formed endogenously
I Key novel mechanism: dense network in ”good times”, sparse network in ”bad times”→state-dependent strength of complementarities in price seing
2 Jointly rationalize empirically established monetary non-linearities:I Cycle dependence: monetary policy’s eect on GDP is procyclical (Tenreyro and Thwaites,
2016; Jorda et al., 2019; Alpanda et al., 2019)
I Path dependence: monetary policy’s eect on GDP is stronger following past loose monetarypolicy (Jorda et al., 2019)
I Size dependence: large monetary shocks a have disproportionate eect on GDP (Ascari andHaber, 2019)
3 Novel model-free empirical evidence on network responses to shocks
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 5: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/5.jpg)
Contribution to the literature
Endogenous production networks in macroeconomics: Carvalho andVoightlaender (2015); Oberfield (2018); Taschereau-Dumouchel (2019); Acemoglu andAzar (2020)
I Contribution 1: first model with endogenous production networks and nominal rigidities
I Contribution 2: model-free econometric evidence on network responses to identifiedproductivity and monetary shocks
State dependence in monetary transmission: Tenreyro and Thwaites (2016); Bergeret al. (2018); Jorda et al. (2019); Ascari and Haber (2019); Alpanda et al. (2019);Eichenbaum et al. (2019); McKay and Wieland (2019)
I Contribution 3: first framework to use cyclical variation in the shape of the network to jointlyrationalize the observed state dependence in monetary transmission
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 6: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/6.jpg)
A TWO-PERIOD MODEL
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 7: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/7.jpg)
Model primitives
Labour
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 8: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/8.jpg)
Firms: production and choice of suppliers
K sectors, continuum of firms Φk in each sector
Roundabout Production (for firm j in sector k):
Yk(j) = ψ(S,Ω)Ak(Sk)Nk(j)1−∑
r∈Skωkr∏r∈Sk
Zkr (j)ωkr , ∀k,∀j ∈ Φk
where Sk ⊂ 1, 2, ...,K is sector k’s choice of suppliers, Ak(.) is the technologymapping, ωkr = [Ω]kr are input-output weights
Marginal Cost (conditional on supplier choice):
MCk =1
Ak(Sk)W 1−
∑r∈Skt
ωkr∏r∈Sk
Pωkrr , ∀k, ∀j ∈ Φk
Optimal Network:S∗k ∈ argmin
SkMCk(S, P), ∀k
where S = [S1, S2, ..., SK ]′ and P = [P1, P2, ..., PK ]′
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 9: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/9.jpg)
Firms: pricing under nominal rigidities
Profit maximization:
maxP∗k (j)
Πk(j) = [P∗k (j)Yk(j)− (1 + τk)MCkYk(j)] s.t. Yk(j) =
(Pk(j)
Pk
)−θYk , τk = − 1
θ
Optimal price:
Pk = (1 + µk)MCk , (1 + µk) = (1 + τk)θ
θ − 1, ∀k,∀j ∈ Φk
Calvo loeries (probability of non-adjustment αk ):
Pk =
αkP1−θk,0 + (1− αk)
1 + µk
Ak(Sk)W∏r∈Sk
(Pr
W
)ωkr
1−θ
11−θ , ∀k
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 10: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/10.jpg)
Households and Monetary Policy
Flow Utility : U = log C − N , C ≡∏K
k=1 Cωckk .
Cash-in-Advance Constraint : P cC =M
Money supply rule: M =M0 exp(εm)
Equilibrium fixed point problem:
Pk =
αkP1−θk,0 + (1− αk)
minSk
1 + µk
Ak(Sk)M∏r∈Sk
(Pr
M
)ωkr
1−θ
11−θ , ∀k
Proposition (Equilibrium)
Equilibrium in my economy: (i) exists; (ii) sectoral prices and final consumptions are unique;(iii) supplier choices and remaining quantities are generically unique.
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 11: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/11.jpg)
BASELINE (εm = 0)
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 12: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/12.jpg)
Baseline: a two-sector example
Two sectors: ωkk = 0, τk = − 1θ, θ → 1+, ∀k = 1, 2
Sector 1 Sector 2a(.) a1(∅) = 1, a1(2) = a a2(∅) = 1, a2(1) = aΩ ω12 = ωc1 = 0.5 ω21 = ωc1 = 0.5α α1 = 0 α2 = 0.5
Real marginal costs: (mck,0 − m0) = −ak(Sk,0) + 1−k∈Sk,012 (p−k,0 − m0)
Optimal network choice over (real) marginal costs (mck − m0):
S2 = ∅ S2 = 1S1 = ∅ (−1,−1) (−1,−a− 1
2 )
S1 = 2 (−a− 14m0 − 1
4 ,−1)(27 −5a− m0 , 2
7 −6a− 0.5m0)
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 13: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/13.jpg)
Recession vs Expansion
Recession: a = 0∅ 1
∅ (−1,−1) (−1,− 12 )
2 (−0.25,−1) (0, 0)
Normal: a = 0.65∅ 1
∅ (−1,−1) (−1,−1.15)
2 (−0.9,−1) (−0.92,−1.11)
Expansion: a = 0.8∅ 1
∅ (−1,−1) (−1,−1.30)
2 (−1.05,−1) (−1.14,−1.37)
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 14: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/14.jpg)
Tight vs Loose money
Tight money: m0 = 0∅ 1
∅ (−1,−1) (−1,− 12 )
2 (−0.25,−1) (0, 0)
Normal money: m0 = 4∅ 1
∅ (−1,−1) (−1,− 12 )
2 (−1.25,−1) (−1.14,−0.57)
Loose money: m0 = 8∅ 1
∅ (−1,−1) (−1,− 12 )
2 (−2.25,−1) (−2.28,−1.14)
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 15: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/15.jpg)
Baseline: density of the network and activity
Lemma (Baseline supplier choices)
Suppose the marginal cost is quasi-submodular in (Sk ,Ak(Sk)),∀k. Consider any two baselinepairs (A,M0), (A,M0) such that either A ≥ A,M0 =M0 or A = A,M0 ≥M0, then:
Sk(A,M0) ⊇ Sk(A,M0)
for all k = 1, 2, ...,K.
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 16: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/16.jpg)
MONETARY SHOCKS
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 17: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/17.jpg)
Comparative Statics: C and S following εm 6= 0
Lemma (Comparative statics aer a monetary shock)
Suppose the marginal cost is quasi-submodular in (Sk ,Ak(Sk)),∀k. A positive monetary shockεm > 0, such thatM >M0, is (weakly) expansionary and makes the network (weakly) denser:
Sk(A,M) ⊇ Sk(A0,M0) Ck(A,M) ≥ Ck(A,M0), ∀k
The opposite holds for a negative monetary shock εm < 0, such thatM <M0.
Definition (Small monetary shock)
Define a monetary shock εm to be small with respect to the initial state (A,M0) if and onlyif it leaves the equilibrium network unchanged relative to the baseline:
Sk(A,M) = Sk(A,M0), ∀k
Otherwise, define the monetary shock to be large with respect to the initial state (A,M0).
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 18: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/18.jpg)
Small Monetary Shocks
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 19: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/19.jpg)
IRFs to a small monetary expansion across the cycle a
Recession: a = 0 Normal: a = 0.65 Expansion: a = 0.8
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 20: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/20.jpg)
IRFs to a small monetary expansion across initial m0
Tight money: m0 = 0 Normal money: m0 = 4 Loose money: m0 = 8
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 21: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/21.jpg)
Small shock εm 6= 0 across baselines
Proposition (Path dependence)
Let ck(A,M0) ≡ ln Ck(A,M)− ln Ck(A,M0), ∀k. Consider any two baseline pairs (A,M0),(A,M0), and εm > 0 which is small, and Pk,0 = (1 + µk)g(M0)MCk(A,M0):
c(A,M0)− c(A,M0) =[L(A,M0)− L(A,M0)
]Em
where c = [c1, c2, ..., cK ]′, Em = [εm, εm, ..., εm]′ and L is a Leontief inverse given by:
L(A,M0) = [I − (I − A)Γ(M0)Ω(A,M0)]−1 [I − (I − A)Γ(M0)]
where A = diag(α1, ..., αK ), Γ(M0) = diag(γ1(M0), ..., γK (M0)), γk = 1αk (g(M0))1−θ+1−αk
and [Ω(A,M0)]kr = ωkr if r ∈ Sk and 0 otherwise.
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 22: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/22.jpg)
Cycle Dependence of the eect of a small εm 6= 0
Proposition (Cycle dependence)
Let ck(A,M0) ≡ ln Ck(A,M)− ln Ck(A,M0), ∀k. Consider any two baseline pairs (A,M0),(A,M0), and εm > 0 which is small, and Pk,0 = (1 + µk)g(M0)MCk(A,M0), and A ≥ A:
c(A,M0)− c(A,M0) =[L(A,M0)− L(A,M0)
]Em
where c = [c1, c2, ..., cK ]′, Em = [εm, εm, ..., εm]′ and L is a Leontief inverse given by:
L(A,M0) = [I − (I − A)Γ(M0)Ω(A,M0)]−1 [I − (I − A)Γ(M0)]
where A = diag(α1, ..., αK ), Γ(M0) = diag(γ1(M0), ..., γK (M0)), γk = 1αk (g(M0))1−θ+1−αk
and [Ω(A,M0)]kr = ωkr if r ∈ Sk and 0 otherwise.
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 23: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/23.jpg)
Path Dependence of the eect of a small εm 6= 0
Proposition (Path dependence)
Let ck(A,M0) ≡ ln Ck(A,M)− ln Ck(A,M0), ∀k. Consider any two baseline pairs (A,M0),(A,M0), and εm > 0 which is small, and Pk,0 = (1 + µk)g(M0)MCk(A,M0), andM0 ≥M0:
c(A,M0)− c(A,M0) =[L(A,M0)− L(A,M0)
]Em
where c = [c1, c2, ..., cK ]′, Em = [εm, εm, ..., εm]′ and L is a Leontief inverse given by:
L(A,M0) = [I − (I − A)Γ(M0)Ω(A,M0)]−1 [I − (I − A)Γ(M0)]
where A = diag(α1, ..., αK ), Γ(M0) = diag(γ1(M0), ..., γK (M0)), γk = 1αk (g(M0))1−θ+1−αk
and [Ω(A,M0)]kr = ωkr if r ∈ Sk and 0 otherwise.
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 24: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/24.jpg)
Large Monetary Shocks
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 25: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/25.jpg)
Large monetary expansions
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 26: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/26.jpg)
Large monetary expansions
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 27: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/27.jpg)
Large monetary contractions
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 28: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/28.jpg)
Time Dependent pricing, Size Dependent eects
Proposition (Large monetary expansion)
Let Em+ > 0 be a large expansionary monetary shock, and εm
+ > 0 be a small expansionarymonetary shock, both with respect to (A,M0); further, denote SE+ ≡ S∗
(A,M0 exp(EM
+ )),
then:
L(S0)A(Em+ − εm
+) ≤ c(A,M0; Em+)− c(A,M0; ε
m+) ≤ L(SE+) A(Em
+ − εm+)
+ h.o.t. + h.o.t.
Hence, large monetary expansions have a more than proportional eect on GDP than smallmonetary expansions.
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 29: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/29.jpg)
Time Dependent pricing, Size Dependent eects
Proposition (Large monetary contraction)
Let Em− < 0 be a large contractionary monetary shock, and εm
− > 0 be a small contractionarymonetary shock, both with respect to (A,M0); further, denote SE− ≡ S∗
(A,M0 exp(EM
−)),
then:
L(S0)A(Em− − εm
−) ≥ c(A,M0; Em−)− c(A,M0; ε
m−) ≥ L(SE−)A(Em
− − εm−)
+ h.o.t. + h.o.t.
Hence, large monetary contractions have a more less proportional eect on GDP than smallmonetary contractions.
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 30: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/30.jpg)
EMPIRICAL EVIDENCE
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 31: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/31.jpg)
Sectoral Data
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 32: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/32.jpg)
Cost share of intermediate inputs (BEA, US)
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 33: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/33.jpg)
Cyclical fluctuations in intermediates intensity
Use BEA annual sectoral accounts (KLEMS) to construct sectoral measures ofintermediates intensity between 1987-2017 for 65 sectors (Summary level):
δkt =Expenditure on Intermediateskt
Expenditure on Intermediateskt + Compensation of Employeeskt
which exactly matches to∑
r∈Sktωkr , ∀k, in our theoretical framework
Linear local projection:
δk,t+H = αk,H + βHst + γHxk,t−1 + εk,t+H
Non-linear local projection:
δk,t+H = αk,H + βlinH st + β
signH st × 1st > 0+ βsize
H st × |st |+ γHxk,t−1 + εk,t+H,
Use Fernald’s TFP shocks and Romer-Romer monetary shocks
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 34: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/34.jpg)
Intermediates intensity response: linear local projection
Eect of +1% productivity expansion
-.002
0.0
02.0
04.0
06
0 2 4 6Horizon (years)
Intermediates share
Eect of -100bp monetary easing
-.005
0.0
05.0
10 2 4 6
Horizon (years)
Intermediates share
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 35: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/35.jpg)
Productivity shocks: non-linear local projection
Productivity expansions
-.04
-.02
0.0
2.0
4.0
6.0
8.1
0 2 4 6Horizon (years)
+1% TFP +2% TFP+3% TFP
Productivity contractions
-.04
-.02
0.0
2.0
4.0
6.0
8.1
0 2 4 6Horizon (years)
-1% TFP -2% TFP-3% TFP
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 36: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/36.jpg)
Monetary shocks: non-linear local projection
Monetary expansions
-.05
0.0
5.1
.15
0 2 4 6Horizon (years)
-100 bp -200 bp-300 bp
Monetary contractions
-.05
0.0
5.1
.15
0 2 4 6Horizon (years)
+100 bp +200 bp+300 bp
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 37: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/37.jpg)
Firm-level Data
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 38: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/38.jpg)
Cyclical fluctuations in the number of suppliers
Measure the number of suppliers at firm level, using data on ”in-degree” computed byAtalay et al. (2011) for US publicly listed firms available in Compustat
Linear local projection:
indegk,t+H = αk,H + βHst + γHxk,t−1 + εk,t+H
Non-linear local projection:
indegj,t+H = αj,H + βlinH st + β
signH st × 1st > 0+ βsize
H st × |st |+ γHxj,t−1 + εj,t+H,
Use Fernald’s TFP shocks and Romer-Romer monetary shocks
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 39: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/39.jpg)
Number of suppliers response: linear local projection
Eect of +1% productivity expansion
-.20
.2.4
0 2 4 6Horizon (years)
Number of suppliers
Eect of -100bp monetary easing
-1-.5
0.5
11.
50 2 4 6
Horizon (years)
Number of suppliers
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 40: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/40.jpg)
Productivity shocks: non-linear local projection
Productivity expansions
-20
24
68
0 2 4 6Horizon (years)
+1% TFP +2% TFP+3% TFP
Productivity contractions
-20
24
68
0 2 4 6Horizon (years)
-1% TFP -2% TFP-3% TFP
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 41: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/41.jpg)
Monetary shocks: non-linear local projection
Monetary expansions
-10
-50
510
0 2 4 6Horizon (years)
-100 bp -200 bp-300 bp
Monetary contractions
-10
-50
510
0 2 4 6Horizon (years)
+100 bp +200 bp+300 bp
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 42: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/42.jpg)
Conclusion
Develop a sticky-price New Keynesian model with endogenous input-output linkagesacross sectors
Results rationalize observed non-linearities associated with monetary transmission:cycle dependence, path dependence and size dependence (without usingstate-dependent pricing)
Novel empirical evidence in support of the mechanism
antify the mechanisms in a calibrated multi-sector seing
Future work: endogenous networks across countries, monetary transmission undervarying ”openness”
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission
![Page 43: Endogenous Production Networks and Non-Linear Monetary ...](https://reader031.fdocuments.net/reader031/viewer/2022020910/61fff8db412ec824ef440c72/html5/thumbnails/43.jpg)
APPENDIX
Mishel Ghassibe (University of Oxford) Endogenous Production Networks and Non-Linear Monetary Transmission