A Quest for Knowledge - GitHub Pages
Transcript of A Quest for Knowledge - GitHub Pages
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A Quest for Knowledge
Johannes Schneider Christoph WolfMay 2021
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Motivation
In his 1945 letter to Roosevelt—Science, the Endless Frontier—which paved the wayfor the creation of the NSF, Vannevar Bush emphasizes the importance ofresearch and scientific freedom.
But...
• How do researchers act under scientific freedom?• What are implications for the evolution of knowledge?• How can funding institutions affect the researchers’ actions?
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Framework
We propose a microfounded model of knowledge and research with three mainfeatures:
1. Existing knowledge determines benefit and cost of research.2. Successful research improves conjectures about similar questions.3. Researchers are free to choose which questions to study and to what extent.
We conceptualize research as
• the selection of one out of many questions with correlated answers and• the costly search for its answer building on existing knowledge.
Society values knowledge as it improves conjectures about optimal policies.
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Contribution
Our framework endogenously links
• the novelty of a research question and• the probability of discovering its answer.
Expanding the knowledge frontier is more desirable than deepening the existingknowledge only if the area between the frontiers is sufficiently well-understood.
Apply model to classical topics in the economics of science:
• Evolution of knowledge: dynamic externality of knowledge creation.Ñ Short-run suboptimal novelty may improve the evolution of knowledge.
• Science funding: which choices can a budget-constrained funder implement?Ñ Derive implementable set of output and novelty.
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Literature
• Science of Science:Aghion, Dewatripont and Stein (2008), Bramoullé and Saint-Paul (2010),Foster, Rzhetsky and Evans (2015), Fortunato et al. (2018), Iaria, Schwarz andWaldinger (2018), Liang and Mu (2020), ...
• Discovering a Brownian path:Rob and Jovanovic (1990), Callander (2011), Garfagnini and Strulovici (2016),Callander and Clark (2017), Prendergast (2019), Bardhi (2020), Bardhi andBobkova (2021), ...
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Agenda
1. Model of Knowledge2. Benefit of Discovery3. Cost of Research4. Researcher’s Choices5. Application: Moonshots6. Application: Science Funding
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Model of Knowledge
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Truth, Knowledge and Research Areas
Questions: Each x P R is a question.Answers: The answer to x is the realization y(x) P R of a random variable Y(x).Truth: The realization of a standard Brownian path determining all y(x).
Knowledge: Set of known question-answer pairs
Fk = t(x1, y(x1)
), . . . ,
(xk, y(xk)
)u , with x1 ă x2 ă ... ă xk.
Knowledge partitions questions into research areas
t(´8, x1)looomooon
area 0
, [x1, x2)loomoon
area 1
, ¨ ¨ ¨ , [xk´1, xk)loooomoooon
area k´1
, [xk,8)loomoon
area k
u.
Research area i has length Xi := xi+1 ´ xi.
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Conjectures
A conjecture is the distribution of the answer y(x) to a question x: Gx(Y|Fk).
Brownian path determines answers: Y(x) „ N(µx(Y|Fk), σ2
x (Y|Fk))with
µx(Y|Fk) =
$
’
’
&
’
’
%
y(x1) if x ă x1y(xi) + (x´ xi)
y(xi+1)´y(xi)Xi if x P [xi, xi+1)
y(xk) if x ě xk
σ2x (Y|Fk) =
$
’
’
&
’
’
%
x1 ´ x if x ă x1(xi+1´x)(x´xi)
Xi if x P [xi, xi+1)
x´ xk if x ě xk.7
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Model of Knowledge - Graphically
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Truth and Knowledge
-2 -1 0 1 2
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Questions
Answers
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Conjectures
-2 -1 0 1 2
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Questions
Answers
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Expanding knowledge...
-2 -1 0 1 2
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Questions
Answers
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...on both sides
-2 -1 0 1 2
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Questions
Answers
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Deepening Knowledge
-2 -1 0 1 2
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Questions
Answers
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Society as Decision Maker
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Decision Making
We represent society by a single decision maker that observes knowledge, Fk.Society makes decisions on all questions, x P R, and can either
• make a proactive choice: a(x) P R or• stick with status quo: a(x) = ∅
with per-question payoffs
u(a(x), x) =
$
&
%
1 ´(a(x)´y(x))2
q , if a(x) P R
0 , if a(x) = ∅.
Status quo guarantees a finite payoff but proactive choices can be beneficial ifsufficiently good—error tolerance of ?q.
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Benefit of Discovery
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What is the Value of Knowledge?
Jacob Marschak (1974):Knowledge is useful if it helps to make the best decisions.
Hjort, Moreira, Rao and Santini (2021):
• science fosters the adoption of effective policies and• more precise information improves policies further.
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The Value of Knowledge
Knowledge benefits society via more precise conjectures about optimal policies.
a˚(x) =
$
&
%
µx(Y|Fk) , if σ2x (Y|Fk) ď q
∅ , if σ2x (Y|Fk) ą q
Only if society’s conjecture about the answer is sufficiently precise, a proactivechoice is optimal.
Society’s value of knowledge is
v(Fk) :=ż 8
´8
max"
1 ´σ2x (Y|Fk)q , 0
*
loooooooooooooomoooooooooooooon
=u(a˚(x),x)
dx.
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Benefit of a Discovery
The discovery of an answer y(x) to question x enhances knowledge
Fk+1 = Fk Y (x, y(x)).
The benefit of a discovery is the improvement in society’s decision making
V(x;Fk) := v(Fk Y (x, y(x))) ´ v(Fk).
x1 and xk are the frontiers of knowledge. A discovery
• expands knowledge if x R [x1, xk] and• deepens knowledge if x P [x1, xk].
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Change of Variables
The problem simplifies by focusing on
• the distance to knowledge, d(x;Fk) := minξPtx1,...,xku
|x´ ξ|
• the length of the research area in which x lies, X.
Applying this rewriting to the variance,
σ2(d; X) := σ2x (Y|Fk) =
d(X´ d)X .
Note that for expanding knowledge
σ2(d; X = 8) = d.
Benefit of discovery determined by the question’s distance to existing knowledged and the length of the research area X, V(d; X).
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Benefit of Discovery - Characterization
PropositionConsider a discovery (x, y(x)) in a research area of length X with distance toexisting knowledge d. The benefit of the discovery is
V(d; X) = 1
6q
(2Xσ2(d; X) + 1dą4q
?d(d´ 4q)3/2
+ 1X´dą4qa
X´ d (X´ d´ 4q)3/2
´ 1Xą4q?X(X´ 4q)3/2
).
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Benefit of Expanding Knowledge
-5q -4q -3q -2q -1q 0 1q 2q0
q q
ąąą
x
σ2 x(Y|F)
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Benefit of Expanding Knowledge
-5q -4q -3q -2q -1q 0 1q 2q0
q q
ąąą
x
σ2 x(Y|F)
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Benefit of Expanding Knowledge
-5q -4q -3q -2q -1q 0 1q 2q0
q q
ąąą
x
σ2 x(Y|F)
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Benefit of Deepening Knowledge
-6q -3q 00
q q
x
σ2 x(Y|F)
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Deepening Knowledge
-8q -4q 00
q qą
x
σ2 x(Y|F)
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Benefit-Maximizing Distance
CorollaryThe benefit-maximizing distance d0(X) in a research area of length X has thefollowing properties:
• If X = 8, d0(8) = 3q.• If X ď rX0 P (6q, 8q), d0(X) = X/2.• If X P (rX0,8), d0(X) P (3q, X/2).• d0(X) is increasing in X for X ă rX0 and decreasing for X ą rX0.
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Properties of Benefit of Discovery
CorollaryThere are two cutoff area lengths, 4q ă pX0 ă 6q ă qX0 ă 8q, such that:
• The maximum benefit of deepening knowledge in an area i is increasing inthe area length if Xi ă qX0; it is decreasing if Xi ą qX0.
• The benefit of optimally expanding knowledge by 3q dominates the benefit ofdeepening knowledge in area i if and only if Xi ă pX0.
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Benefit of Discovery by Area Length
0 pX0 qX0 rX0
V8
Area Length X
BenefitV
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Cost of Research
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Research as Search for an Answer
The researcher searches for an answer y(x) by sampling an interval [a,b] Ď R.
The researcher discovers the answer y(x) iff y(x) P [a,b].
Searching for an answer is costly: c([a,b]) = η(b´ a)2.
PropositionGiven a question x with distance d in a research area of length X, the lowest-costsearch interval such that the answer is contained in the interval with probabilityρ has length
23/2erf´1(ρ)σ(d; X)
and costc(ρ,d; X) = η8
(erf´1(ρ)
)2σ2(d; X).
Cost function is separable in probability ρ and precision of conjectures about y(x). 25
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Researcher’s Choice
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How to Choose Research Questions?
Biologist and Nobel laureate Peter Medawar (1976):Research is surely the art of the soluble. (…) Good scientists study the mostimportant problems they think they can solve.
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Researcher’s Decision Problem
Researcher stands on shoulders of giants and observes Fk.
Researcher’s payoff consists of the benefit of discovery and the cost of search.
Researcher decides on a research question x P R and a search interval [a,b] Ď R.
The choice of x and [a,b], can be reduced to a choice of
• a research area denoted by its length, X,• a distance to existing knowledge, d,• a success probability of search, ρ.
maxXPtX0,...,Xku
maxdP[0,X/2],ρP[0,1]
ρV(d; X) ´ c(ρ,d; X)
looooooooooooooooomooooooooooooooooon
=:UR(X) 27
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Output & Novelty: Substitutes or Complements?
Proposition
Suppose η ą 0.
1. When the researcher expands knowledge, distance, d, and probability ofdiscovery, ρ, are substitutes.
2. When the researcher deepens knowledge, d and ρ are• independent if X ď 4q,• complements if X P (4q, 5
2´?
3/2q),
• substitutes for d P (0, d(X)) and complements for d P (d(X), X2 ) ifX P ( 5
2´?
3/2q, 8q),
• substitutes if X ą 8q.
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Why Substitutes and Complements?
A ceteris paribus increase in novelty affects both
• the marginal benefit of ρ, V(d; X), and• the marginal cost of ρ, d
dρ(erf´1(ρ)
)2σ2(d; X).
Success probability and novelty are complements if
ddd
(V(d; X)σ2(d; X)
)ą 0 ðñ
Vd(d; X)V(d; X) ą
σ2d(d; X)
σ2(d; X) .
σ2d(d;X)
σ2(d;X) is increasing and concave in X.For X ă 4q, V(d; X)9 σ2(d; X) implying that d and ρ are independent.
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Why Substitutes and Complements?
A ceteris paribus increase in novelty affects both
• the marginal benefit of ρ, V(d; X), and• the marginal cost of ρ, d
dρ(erf´1(ρ)
)2σ2(d; X).
Success probability and novelty are complements if
ddd
(V(d; X)σ2(d; X)
)ą 0 ðñ
Vd(d; X)V(d; X) ą
σ2d(d; X)
σ2(d; X) .
When X just exceeds 4q, the increase in Vd(d;X)V(d;X) accelerates as questions addressed
proactively that were not before. d and ρ are complements.As X increases, σ
2d(d;X)
σ2(d;X) dominates for small d whereσ2d(d;X)
σ2(d;X) is highest implying thatd and ρ are substitutes. 29
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Why Substitutes and Complements?
A ceteris paribus increase in novelty affects both
• the marginal benefit of ρ, V(d; X), and• the marginal cost of ρ, d
dρ(erf´1(ρ)
)2σ2(d; X).
Success probability and novelty are complements if
ddd
(V(d; X)σ2(d; X)
)ą 0 ðñ
Vd(d; X)V(d; X) ą
σ2d(d; X)
σ2(d; X) .
As d Ñ X/2, the marginal cost effect σ2d Ñ 0 implying that if Vd(d; x) ą 0 d and ρ
are complements.Whenever d is such that Vd(d; X) ă 0, d and ρ are substitutes.
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Optimal Choice: Distance, Novelty and Research Area
Proposition
Suppose η ą 0. There is a set of cutoff values pX ď X ď qX ď rX ă 8q such that thefollowing holds:
• The researcher expands knowledge if and only if all available research areasare shorter than pX.
• The researcher’s payoffs, UR(X) are single peaked with a maximum at qX.• The optimal choices of distance, d(X), and probability of discovery, ρ(X), arenon-monotone in X. The probability ρ(X) has a maximum at X, the distanced(X) at rX.
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Novelty by Area Length
pX X qX rX
d8
X
d
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Output by Area Length
pX X qX rX
ρ8
X
ρ
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Researcher’s Value by Area Length
pX X qX rX
U8R
X
UR
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Takeaways: Researcher
The microfounded model of research provides insights for classical topics in theeconomics of science.
1. Output and novelty are endogenously linked via the cost of research andexisting knowledge. They can be substitutes or complements.When expanding knowledge: more novelty Ñ more risk.
2. Knowledge determines choice of research area, novelty and output.Research areas of intermediate length have high novelty and output.
3. When knowledge is generated by a sequence of short-lived researchers,there is a dynamic externality:Research today affects the benefit of discoveries and the successprobabilities in the future.
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Application: Moonshots
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Incentivizing Moonshots
Is it beneficial to a long-lived society to incentivize very novel research; i.e., morenovel than myopically optimal, d ą 3q?
Consider the following variant of our model.
• Time is discrete, t = 1, 2, ..., with initial knowledge F1 = t0, y(0)u.• Society discounts time by δ P [0, 1).• Sequence of short-lived researchers that observe Ft and decide on x and ρ.Assume symmetric strategies: Same Ft ñ same choice of x and ρ.
• If research is successful, knowledge updates to Ft+1 = Ft Y (x, y(x)).Otherwise Ft+1 = Ft.
In period 1, society can costlessly pick x and ρ.
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Optimality of Moonshots
Society maximizes
maxx,ρ
E
[8ÿ
t=1
δt´1v(Ft+1)
].
where choices in periods t ě 2 are made by researchers individually.
Proposition
There is a non-empty interval (η, η) such that the decision maker strictly prefersa moonshot in t = 1 for any η P (η, η) provided δ is larger than a critical discountfactor δ(η) ă 1.
Low cost Ñ small distortion Ñ short-run losses dominate.
High cost Ñ small benefit of moonshot Ñ short-run losses dominate.
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Moonshots and Evolution of Knowledge (η = 1/8)
0t=3
t=2
t=1
x
Evolution without Moonshot
0t=3
t=2
t=1
x
Evolution with Moonshot
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Application: Science Funding
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Science Funding
Under scientific freedom, researchers can freely choose their research questions.
Assume a funder with budget K has two instruments with relative price κ:
1. Cost reductions: lowering a researcher’s cost by h, η = η0 ´ h.2. Prizes: awarding a prize ζ with probability mint
σ2(d;Fk)s , 1u where s ą 3q.
Which novelty-output combinations can a budget-constrained funder incentivize?Proposition
The research-possibility frontier d(ρ;κ, K) defined over [ρ(κ, K), ρ(κ, K)]
d(ρ;κ, K) = mint6q(K+ s´ κη0)ρcρ(ρ) ´ c(ρ)
2sρcρ(ρ) ´ sc(ρ) ´ κρ, su.
To incentivize any d ą 3q, the funder must award prizes for discoveries.38
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Research-Possibility Frontier: Substitutes and Complements
0.4 0.5 0.6 0.7 0.82
2.1
2.2
2.3
2.4
2.5
ρ
d
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Research-Possibility Frontier: Substitutes and Complements
0.4 0.52
2.1
2.2
2.3
2.4
2.5
ρ
d
40
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Maximizing Benefit of Discovery
Consider a funding institution that maximizes the static benefit of expandingknowledge:
maxζ,η
ρV(d;8)
s. t. ζ + κ(η0 ´ η) = K.
PropositionIf output and novelty are substitutes from the funder’s perspective, the optimalfunding mix never incentivizes excessive novelty, d ą 3q.
If output and novelty are complements from the funder’s perspective, theoptimal funding mix might incentivize excessive novelty, d ą 3q.
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Optimal Funding - Cost Reduction Cheap
0.3 ρ 0.5 ρ 0.8 10
2
4
6
ρ
d
42
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Optimal Funding - Cost Reduction Expensive
ρ 0.3 ρ 0.5 0.8 10
2
4
6
ρ
d
43
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Conclusion
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Conclusion
We propose a model of knowledge built on
1. a large pool of questions,2. knowledge informing conjectures about related questions,3. society applying knowledge to choose policies.
We conceptualize research as the
1. free choice of research questions and2. and the costly search for their answers.
Our model
• endogenously links novelty and research output and• highlights the importance of existing knowledge for research and knowledgeaccumulation.
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Applications of Model
Model is tractable and widely applicable in the economics of science.
1. Evolution of science• Dynamic externality Ñ suboptimal knowledge accumulation.• Moonshots can improve evolution of knowledge.
2. Optimal research incentives• Novelty and output can be complements for funding institutions.• Cost reductions alone cannot incentivize moonshots.
3. Consequences of null results (work in progress)4. Innovation, competition, ...
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