Institutional Collective Action and Local Goverance

This paper elaborates the institutional collective action framework and its applications to cooperative interlocal service agreements among governments in metropolitan areas. It begins by outlining the information, negotiation, enforcement and agency cost that pose obstacles to cooperative interlocal arrangements. Next it identifies how these transaction costs, and the ability of local actors to overcome them, depend on: 1) characteristics of services; 2) characteristics of communities; 3) political institutions; and 4) structures of policy networks. Specific propositions regarding evolution and effectiveness of interlocal cooperation are advanced and an agenda to investigate institutional collective action among local governments is presented

Interlocal Cooperation in the Supply of Local Public Goods: A Transaction Cost and Social Exchange Explanation

Although a multiplicity of local governments is often regarded as promoting efficiency in the supply of public services, political fragmentation can generate economies of scale and externality problems. Several exogenous solutions, including the creation of overlapping districts governments, consolidation of existing units and establishment of a metropolitan government, or direct state or federal intervention, have been offered. We argue that cooperative governance offers a potential endogenous solution to this dilemma. By combining transaction cost and social exchange theories within the institutional collective action framework, we investigate how local governments themselves address inefficiencies from externalities and economies of scale. An empirical analysis of Georgia cities reports that while cities’ choice of service collaboration is affected by the transaction characteristics of services, their level of service collaboration is greatly influenced by the previous exchange that builds trust and by the level of fiscal pressure they face

Pin++: An Object-oriented Framework for Writing Pintools

This paper presents a framework named Pin++. Pin++ is an object-oriented framework that uses template metaprogramming to implement Pintools, which are analysis tools for the dynamic binary instrumentation tool named Pin. The goal of Pin++ is to simplify programming a Pintool and promote reuse of its components across different Pintools. Our results show that Pintools implemented using Pin++ can have a 54% reduction in complexity, increase its modularity, and up to 60% reduction in instrumentation overhead

Competitors and Cooperators: A Micro‐Level Analysis of Regional Economic Development Collaboration Networks

Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/90044/1/j.1540-6210.2011.02501.x.pd