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Growth and agglomeration in the heterogeneous space: A generalized AK approach

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  • Boucekkine, R.
  • Fabbri, G.
  • Federico, S.
  • Gozzi, F.

Abstract

We provide an optimal growth spatio-temporal setting with capital accumulation and diffusion across space in order to study the link between economic growth triggered by capital spatio-temporal dynamics and agglomeration across space. The technology is AK, K being broad capital. The social welfare function is Benthamite. In sharp contrast to the related literature, which considers homogeneous space, we derive optimal location outcomes for any given space distributions for technology and population. Both the transitional spatio-temporal dynamics and the asymptotic spatial distributions are computed in closed form. Concerning the latter, we find, among other results, that: (i) due to inequality aversion, the consumption per capital distribution is much atter than the distribution of capital per capita; (ii) endogeneous spillovers inherent in capital spatio-temporal dynamics occur as capital distribution is much less concentrated than the (pre-specified) technological distribution; (iii) the distance to the center (or to the core) is an essential determinant of the shapes of the asymptotic distributions, that is relative location matters.

Suggested Citation

  • Boucekkine, R. & Fabbri, G. & Federico, S. & Gozzi, F., 2018. "Growth and agglomeration in the heterogeneous space: A generalized AK approach," Working Papers 2018-02, Grenoble Applied Economics Laboratory (GAEL).
  • Handle: RePEc:gbl:wpaper:2018-02
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    More about this item

    Keywords

    GROWTH; AGGLOMERATION; HETEROGENEOUS AND CONTINUOUS SPACE; CAPITAL MOBILITY; INFINITE DIMENSIONAL OPTIMAL CONTROL PROBLEMS;
    All these keywords.

    JEL classification:

    • R1 - Urban, Rural, Regional, Real Estate, and Transportation Economics - - General Regional Economics
    • O4 - Economic Development, Innovation, Technological Change, and Growth - - Economic Growth and Aggregate Productivity
    • C61 - Mathematical and Quantitative Methods - - Mathematical Methods; Programming Models; Mathematical and Simulation Modeling - - - Optimization Techniques; Programming Models; Dynamic Analysis

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