Title :
Optimal stochastic enforcement of parking regulations
Author :
Han, T.S. ; Levis, Alexander H.
Author_Institution :
Bell Laboratories, Indian Hill, IL, USA
fDate :
6/1/1976 12:00:00 AM
Abstract :
Effective enforcement of no parking regulations, an essential operation in urban areas, is labor intensive and thus costly. Efficient, implementable enforcement strategies that can raise and keep compliance at a desired high level are needed. It is the objective of this work to determine such strategies. First a model relating enforcement (input) to compliance (output) was obtained on the basis of experimental data; its form is that of a homogeneous bilinear Markov process. Then several optimization problems that reflect different operating conditions were formulated and the corresponding enforcement strategies were derived via dynamic programming. Finally, simulations were used to analyze the practical implications of the results.
Keywords :
Bilinear systems, discrete-time; Law enforcement; Optimal stochastic control; Road transportation; Stochastic automata; Stochastic optimal control; Urban areas; Analytical models; Cities and towns; Costs; Dynamic programming; Fires; Impedance; Markov processes; Protection; Stochastic processes; Urban areas;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.1976.1101219
