Score contribution per author:
α: calibrated so average coauthorship-adjusted count equals average raw count
The long-term trends of urbanization suggest: not only have more cities formed, but the leading metropolises have grown larger, with a number of peripheral subcenters developing over time. Conventional models of urban growth are limited, in that commuting cost and congestion eventually result in decreasing returns in a monocentric city as population becomes very large. We construct a general-equilibrium model with dynamic interactions between spatial agglomeration and urban development, driven by location-dependent knowledge spillovers. Our contribution allows endogenous development of subcenters to capture benefits from knowledge spillovers and offset diminishing returns from urban congestion, thus permitting more sustained city growth.