Internet inter-domain traffic engineering and optimizatioon

Lam, Fung, 林峰

January 2001

published_or_final_version / Electrical and Electronic Engineering / Master / Master of Philosophy

BGP (Computer network protocol)

Traffic engineering - Data processing.

Electrical circuit simulation of traffic flow

Furber, Conan Paul, 1936-

January 1973

No description available.

Traffic flow -- Mathematical models.

Merging and mainstream control techniques for an automated highway system.

January 1968

Bibliography: p. 82-83. / Issued also as a M.S. thesis in the Dept. of Electrical Engineering, 1968. / DSR Project no. 79723.

TK7855.M41 E387 no.347

Traffic engineering Mathematical models

Motor vehicle driving

Automatic control

Hybrid optimization in traffic networks

Tan, Han-Ngee.

January 1979

Thesis: M.S., Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science, 1979 / Includes bibliographical references. / by Han-Ngee Tan. / M.S. / M.S. Massachusetts Institute of Technology, Department of Electrical Engineering and Computer Science

Hybrid computer simulation.

Mathematical optimization.

Decision making.

Stochastic dynamic traffic assignment for intermodal transportation networks with consistent information supply strategies

Abdelghany, Khaled Faissal Said, 1970-

11 March 2011

Not available / text

Intelligent transportation systems

Intersection discharge performance

Savage, Alpha Badamasie

January 1980

No description available.

Traffic flow -- Arizona -- Tucson.

Traffic flow -- Mathematical models.

Roads -- Interchanges and intersections.

Schedule delay of work trips in Hong Kong: anempirical analysis

Li, Lok-man, Jennifer., 李諾文.

January 2008

published_or_final_version / Economics and Finance / Master / Master of Philosophy

Logits

Commuting - China - Hong Kong.

Commuting - Mathematical models.

A model for the economic analysis of road projects in an urban network with interrelated incremental traffic assignment method

Lloyd, Evan Robert

January 2005

[Truncated abstract] In an urban network, any change to the capacity of a road or an intersection will generally result in some traffic changing its route. In addition the presence of intersections creates the need for frequent stops. These stops increase the fuel consumption by anywhere between thirty to fifty percent as evidenced by published standardised vehicle fuel consumption figures for urban and for country driving. Other components of vehicle operating costs such as tyre and brake wear and time costs will also be increased by varying amounts. Yet almost all methods in use for economic evaluation of urban road projects use open road vehicle operating costs (sometimes factored to represent an average allowance for stopping at intersections) for one year or sometimes two years in the analysis period and then make assumptions about how the year by year road user benefits may change throughout the period in order to complete the analysis. This thesis will describe a system for estimating road user costs in an urban network that calculates intersection effects separately and then adds these effects to the travel costs of moving between intersections. Daily traffic estimates are used with a distribution of the flow rate throughout the twenty-four hours giving variable speed of travel according to the level of congestion at different times of the day. For each link, estimates of traffic flow at two points in time are used to estimate the year-by-year traffic flow throughout the analysis period by linear interpolation or extrapolation. The annual road user costs are then calculated from these estimates. Annual road user benefits are obtained by subtracting the annual road user costs for a modified network from the annual road user costs for an unmodified network. The change in the road network maintenance costs are estimated by applying an annual per lane maintenance cost to the change in lane-kilometres of road in the two networks. The Benefit Cost Ratio is calculated for three discount rates. An estimate of the likely range of error in the Benefit Cost Ratio is also calculated

Traffic assignment -- Economic aspects

Traffic engineering -- Economic aspects

Assignment

Intersection delays

Urban project evaluation

Road user costs