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Title: Agents in Economics: Pedagogy


1
Agents in Economics Pedagogy
  • Rob Axtell

2
Against the Nash Program
  • Nash claim (implicit) Observed macroscopic
    regularities result from agent-level equilibria
  • Nash program Deduce agent-level strategies as
    equilibria that correspond to empirical
    regularities
  • Alternative program 1 Nash claim is only
    sufficient, not necessary many empirical
    patterns result from agent dis-equilibria
  • Alternative program 2 Nash claim is necessary
    but not sufficient as certain agent-level
    equilibria are not attainable from wide classes
    of ICs

CSED
3
Why Agents?
  • Distinct uses
  • Agent model animates conventional model
  • Analytical difficulties make agents necessary
  • Agent model only way to understand

4
Is Social Science Possible?(Buss, Papadimitriou
and Tsitsiklis, Complex Systems 1991)
  • A identical automata each with S states
    (finite)
  • Coupled through global rule, G, a first order
    sentence
  • Initial condition, (s1, s2, ..., sA), specified
  • Problem determine the state of the system at
    time T
  • Analysis is useful if the number of computations
    is a polynomial in A, S, and log(T )
  • Analysis is impotent if this is not the case and
    an automata (agent) model is the best one can do

5
Automata Theoretic Social Science
  • Definition A poll, P(x), gives the number of
    automata in state x
  • Definition Global rule G is constant-free if it
    does not refer to any particular state of the
    automata
  • constant-free rule IF ?x ?y P(x) P(y) THEN 0
    ELSE 1
  • not a constant-free rule IF P(s1) gt A/2 THEN 0
    ELSE 1
  • sometimes hard to tell ?x P(x) P(s1) is
    equivalent to ?x?y P(x) P(y)
  • Theorem 1 If G is constant-free then the state
    can be determined in polynomial time
  • Theorem 2 If G is not constant-free then the
    system is PSPACE-complete.
  • Theorem 3 The set of constant-free G is
    undecidable

6
Why Not Agents?
  • Today
  • Build model but cant solve it
  • Solve it computationally (maybe with agents)
  • Find some special case that is analytically
    tractable
  • Publish the latter with computation secondary
  • Future?
  • Build model from interacting agent perspective
  • Make many realizations
  • Find some special case that is analytically
    tractable
  • Publish agent model with analysis in the appendix

7
Upshot
  • Take an economic principle and agentize it
  • Possible results
  • Agent model reproduces conventional result (rare)
  • Agent model enriches basic result (common)
  • Agent model overturns sub-field (???)
  • Generalize the model, add a front end (user
    interface) and put it on your websitethis is
    already a contribution!

8
The Canonical Experiment Adaptive agents
economic environment
  • Standard results
  • Theorem widening
  • Analytical brittleness-theorem is special
    case/measure zero lack of generality
  • Non-standard results
  • Conventional result effectively uncomputable
  • Conventional result simply fails to obtain
  • Agent result qualitatively different
  • Agent model generates new conceptualizations

9
Example Gale-Shapley Matching
  • Given a bipartite graph, with edges as
    preferences for the other nodes
  • Gale and Shapley 1962 came up with an algorithm
    for matching nodes such that the resulting match
    is stable (no individuals in distinct pairs would
    prefer each other)
  • Centralized matching
  • Poor welfare properties
  • Why is this used?

10
Two Schools Within theAgent Modeling Community
  • Power of agent models is to extend the corpus of
    received results, mainly by a process of adding
    on
  • For example, learning models, spatial games
  • Early dominant view
  • Power of such models lies in revisiting the
    foundations of social theory
  • Relaxing the heroic assumptions (concerning
    behavior, connectivity of agents) of earlier
    results
  • Riskier view, but higher payoffs if successful
  • Today, elements of both schools flourish

11
Thinking in Agents
  • When you catch the agent bug suddenly the whole
    world is just a multi-agent system
  • Risk is that then you want to model the whole
    world!
  • Particular risk for agent models is to build in
    too much
  • Schelling you are done when there is nothing
    else that can be taken away
  • KISS principle (Axelrod is well-known advocate)

12
What is Not a Multi-Agent System?
  • Is there any phenomenon that cannot be
    represented by
  • arbitrary numbers of
  • arbitrarily sophisticated automata
  • connected together via arbitrary graphs
  • running for arbitrary amounts of time?
  • Power of models derive not from their generality
    but from their specificity

13
Agents and Policy
  • Three big wins Traffic, military, disease
  • How soon Economic policy, social policy?
  • Need to teach analysts how to use tools
  • Need to teach policy-makers about these new
    ideas, this new tool
  • Last year Bielefeld
  • Next year Pensacola?
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