Shariat Mohaymany A, Babaei M. Optimal resource allocation in urban transportation networks considering capacity reliability and connectivity reliability: a multi-objective approach. IJCE 2013; 11 (1) :33-42
URL:
http://ijce.iust.ac.ir/article-1-476-en.html
Abstract: (9604 Views)
Since the 1990’s, network reliability has been considered as a new index for evaluating transportation networks under uncertainty.
A large number of studies have been revealed in the literature in this field, which are mostly dedicated to developing relevant
measures that can be utilized for the evaluation of vulnerable networks under different sources of uncertainty, such as daily traffic
flow fluctuations, natural disasters, weather conditions, and so fourth. This paper addresses the resource allocation problem in
vulnerable transportation networks, in which multiple performance reliability measures should be met at their desired levels, while
the overall cost of upgrading links’ performances should be minimized simultaneously. For this purpose, a new approach has been
considered to formulate the two well-known performance measures, connectivity and capacity reliability, along with their application
in a bi-objective nonlinear mixed integer goal programming model. In order to take into account the uncertain conditions of supply,
links’ capacities have been assumed to be random variables and follow normal distribution functions. A computationally efficient
method has been developed that allows calculating the network-wise performance indices simply by means of a set of functions of
links’ performance reliabilities. Using this approach, as the performance reliability of links are themselves functions of the random
links’ capacities, they can be simply calculated through numerical integration. To achieve desirable levels for both connectivity
reliability and capacity reliability (as network-wise performance reliability measures) two distinct objectives have been considered.
One of the objectives seeks to maximize each of the measures regardless of what is happening to the other objective function which
minimizes the budget. Since optimization models with two conflicting objectives cannot be solved directly, the well-known goal
attainment multi-objective decision-making (MODM) approach has been adapted to formulate the model as a single objective model.
Then the resultant single objective model has been solved through the generalized gradient method, which is a straightforward
solution algorithm coded in existing commercial software such as MATLAB programming software. To show the applicability of the
proposed model, numerical results are provided for a simple network. Also, to show the sensitiveness of the model to decision maker’s
direction weights, the results of sensitivity analysis are presented..