Author : Carlos Sun
Publisher :
Page : 56 pages
File Size : 48,49 MB
Release : 1998
Category : Algorithms
ISBN :
Author : W.F. Chen
Publisher : CRC Press
Page : 2898 pages
File Size : 15,64 MB
Release : 2002-08-29
Category : Technology & Engineering
ISBN : 1420041215
First published in 1995, the award-winning Civil Engineering Handbook soon became known as the field's definitive reference. To retain its standing as a complete, authoritative resource, the editors have incorporated into this edition the many changes in techniques, tools, and materials that over the last seven years have found their way into civil
Author :
Publisher :
Page : 598 pages
File Size : 43,14 MB
Release : 2000
Category : Air travel
ISBN :
Author : Richard C Dorf
Publisher : CRC Press
Page : 3082 pages
File Size : 18,12 MB
Release : 2018-10-03
Category : Technology & Engineering
ISBN : 1420039873
First published in 1995, The Engineering Handbook quickly became the definitive engineering reference. Although it remains a bestseller, the many advances realized in traditional engineering fields along with the emergence and rapid growth of fields such as biomedical engineering, computer engineering, and nanotechnology mean that the time has come to bring this standard-setting reference up to date. New in the Second Edition 19 completely new chapters addressing important topics in bioinstrumentation, control systems, nanotechnology, image and signal processing, electronics, environmental systems, structural systems 131 chapters fully revised and updated Expanded lists of engineering associations and societies The Engineering Handbook, Second Edition is designed to enlighten experts in areas outside their own specialties, to refresh the knowledge of mature practitioners, and to educate engineering novices. Whether you work in industry, government, or academia, this is simply the best, most useful engineering reference you can have in your personal, office, or institutional library.
Author : A. Emily Parkany
Publisher :
Page : 132 pages
File Size : 10,8 MB
Release : 2005
Category : Computer algorithms
ISBN :
Author : Francesc Soriguera MartÃ
Publisher : Springer
Page : 226 pages
File Size : 14,20 MB
Release : 2015-11-30
Category : Technology & Engineering
ISBN : 3662488582
This monograph presents a simple, innovative approach for the measurement and short-term prediction of highway travel times based on the fusion of inductive loop detector and toll ticket data. The methodology is generic and not technologically captive, allowing it to be easily generalized for other equivalent types of data. The book shows how Bayesian analysis can be used to obtain fused estimates that are more reliable than the original inputs, overcoming some of the drawbacks of travel-time estimations based on unique data sources. The developed methodology adds value and obtains the maximum (in terms of travel time estimation) from the available data, without recurrent and costly requirements for additional data. The application of the algorithms to empirical testing in the AP-7 toll highway in Barcelona proves that it is possible to develop an accurate real-time, travel-time information system on closed-toll highways with the existing surveillance equipment, suggesting that highway operators might provide their customers with such an added value with little additional investment in technology.
Author :
Publisher :
Page : 702 pages
File Size : 48,59 MB
Release : 2005
Category : Image processing
ISBN :
Author :
Publisher :
Page : 940 pages
File Size : 14,31 MB
Release : 2000
Category : Electronic apparatus and appliances
ISBN :
Author : Sing Yiu Cheung
Publisher :
Page : 502 pages
File Size : 39,54 MB
Release : 2006
Category :
ISBN :
Author : William L. Eisele
Publisher :
Page : 322 pages
File Size : 40,9 MB
Release : 2001
Category : Business logistics
ISBN :
This report presents both survey results and field data analysis investigating information needs for motor carrier logistics. Relevant research in the area of estimating travel time characteristics is presented. Survey results of trucking companies and trucking professionals are also included. Although the sample size is low, useful insight obtained from the respondents is discussed. The accurate estimation of travel time data is valuable for a variety of real-time and off-line transportation applications including motor carriers. This report includes methodologies for estimating corridor travel time mean and variance from field data collection at two test sites. The test sites are two limited-access freeway corridors: one instrumented with automatic vehicle identification (AVI) antennas and one instrumented with dual inductance loop detectors at 0.5 mile spacings. The estimates using the intelligent transportation system (ITS) data were compared to simultaneous instrumented test vehicle and commercial vehicle travel time data. A procedure was outlined for using the loess nonparametric statistical technique to obtain corridor travel time mean and variance estimates from each ITS data source, commercial vehicles and instrumented test vehicles. The estimates from each data source were then aggregated to five minutes, and the ITS data source estimates were compared to the commercial vehicle and instrumented test vehicle corridor travel time estimates. A methodology for testing the accuracy of instrumented test vehicle drivers along a corridor was also developed. The research demonstrates that commercial vehicles have statistically different travel time mean and standard deviation than AVI-equipped vehicles, which suggests it may be beneficial to provide traveler information in real-time for commercial vehicles. It was also found that AVI-equipped vehicles were not statistically different than the instrumented test vehicles and that an AVI system with an adequate number of tag reads could replace traditional data collection methods. By comparing inductance loop travel time estimates to the commercial vehicle and test vehicle data sources, the research quantifies how aggregated inductance loop detector travel time estimates do not capture the travel time variance characteristics of individual vehicles.
