Development of Demand Estimation Models for the Virginia Department of Transportation’s Park and Ride Facilities PDF Download
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Author: Yiqing Xu Publisher: ISBN: Category : Fringe parking Languages : en Pages : 81
Book Description
The construction and maintenance of park and ride lots represents a substantial public investment that if used judiciously can reduce congestion and emissions through the use of transit or the sharing of vehicle trips. With 297 lots scattered throughout Virginia, the Virginia Department of Transportation (VDOT) needs an approach for forecasting demand for these lots so that investments can be made wisely. Unfortunately, direct application of an existing approach yielded absolute differences (between forecast occupancy and observed occupancy) that depending on the VDOT district were 14 to 141 times larger than the observed occupancy. Calibrating an existing approach to Virginia-specific traffic volumes for the roadway serving the lot and the highest volume roadway within 2.5 miles of the lot reduced the scale of this error but still yielded forecasts where the mean testing error exceeded the mean occupancy for a majority of models. Accordingly, 19 Virginia-specific models were developed that reflected distinct regions in Virginia. These models followed VDOT district boundaries for three of VDOT’s nine districts (Lynchburg, Richmond, and Northern Virginia); planning district commission (PDC) or metropolitan planning organization (MPO) boundaries for four VDOT districts (Bristol, Culpeper, Salem, and Staunton); and urban/rural categorizations for two VDOT districts (Fredericksburg and Hampton Roads). A key finding was that determinants of occupancy varied by location. Statistically significant determinants included residents with a commute of 50+ miles (used in four models affecting 10% of Virginia’s lots, such as those in the Lenowisco PDC in the Bristol District); the availability of transit service or the number of commuters who choose transit (used as a positive factor in seven models affecting more than one-half [151] of Virginia’s lots, such as those in the urbanized portion of the Culpeper District); amenities such as lighting (a variable in two models reflecting 15% of Virginia’s lots such as those in the low population density areas of the Fredericksburg District); traffic volume (a factor in five models representing 46% of Virginia’s lots, such as those in the Lynchburg District); and the provision of bicycle spaces (a factor in the model for 78 of the Northern Virginia District lots, or about 26% of the statewide total). Thus, the models can help forecast how key changes (such as an increase in traffic, the introduction of transit service, or the addition of lighting) may influence demand at an existing lot. The median-adjusted R-squared value (coefficient of determination) for the 19 models was 87%. The Richmond District was representative: a model based on the average 24-hour traffic volume of all facilities within 2.5 miles of the lot and the nearest peak hour expansion factor explained 86.7% of the variation in occupancy for the 11 lots in that district. When the models were tested on a dataset not used to build the models, the median ratio of mean testing error to mean occupancy was 56%. A typical model in this regard was for the lots in the Roanoke Valley-Alleghany Regional Commission (in the Salem District) where occupancy was based on the presence of transit service and the proportion of nearby residents with commutes of 25 to 50 miles: the mean testing error was 14 compared to a mean lot occupancy of 25, for a ratio of 56%. The models thus explained a portion of the variation in demand and can inform forecasts for new lots, although these results demonstrated that additional site-specific factors not included in each model also influenced demand.
Author: Yiqing Xu Publisher: ISBN: Category : Fringe parking Languages : en Pages : 81
Book Description
The construction and maintenance of park and ride lots represents a substantial public investment that if used judiciously can reduce congestion and emissions through the use of transit or the sharing of vehicle trips. With 297 lots scattered throughout Virginia, the Virginia Department of Transportation (VDOT) needs an approach for forecasting demand for these lots so that investments can be made wisely. Unfortunately, direct application of an existing approach yielded absolute differences (between forecast occupancy and observed occupancy) that depending on the VDOT district were 14 to 141 times larger than the observed occupancy. Calibrating an existing approach to Virginia-specific traffic volumes for the roadway serving the lot and the highest volume roadway within 2.5 miles of the lot reduced the scale of this error but still yielded forecasts where the mean testing error exceeded the mean occupancy for a majority of models. Accordingly, 19 Virginia-specific models were developed that reflected distinct regions in Virginia. These models followed VDOT district boundaries for three of VDOT’s nine districts (Lynchburg, Richmond, and Northern Virginia); planning district commission (PDC) or metropolitan planning organization (MPO) boundaries for four VDOT districts (Bristol, Culpeper, Salem, and Staunton); and urban/rural categorizations for two VDOT districts (Fredericksburg and Hampton Roads). A key finding was that determinants of occupancy varied by location. Statistically significant determinants included residents with a commute of 50+ miles (used in four models affecting 10% of Virginia’s lots, such as those in the Lenowisco PDC in the Bristol District); the availability of transit service or the number of commuters who choose transit (used as a positive factor in seven models affecting more than one-half [151] of Virginia’s lots, such as those in the urbanized portion of the Culpeper District); amenities such as lighting (a variable in two models reflecting 15% of Virginia’s lots such as those in the low population density areas of the Fredericksburg District); traffic volume (a factor in five models representing 46% of Virginia’s lots, such as those in the Lynchburg District); and the provision of bicycle spaces (a factor in the model for 78 of the Northern Virginia District lots, or about 26% of the statewide total). Thus, the models can help forecast how key changes (such as an increase in traffic, the introduction of transit service, or the addition of lighting) may influence demand at an existing lot. The median-adjusted R-squared value (coefficient of determination) for the 19 models was 87%. The Richmond District was representative: a model based on the average 24-hour traffic volume of all facilities within 2.5 miles of the lot and the nearest peak hour expansion factor explained 86.7% of the variation in occupancy for the 11 lots in that district. When the models were tested on a dataset not used to build the models, the median ratio of mean testing error to mean occupancy was 56%. A typical model in this regard was for the lots in the Roanoke Valley-Alleghany Regional Commission (in the Salem District) where occupancy was based on the presence of transit service and the proportion of nearby residents with commutes of 25 to 50 miles: the mean testing error was 14 compared to a mean lot occupancy of 25, for a ratio of 56%. The models thus explained a portion of the variation in demand and can inform forecasts for new lots, although these results demonstrated that additional site-specific factors not included in each model also influenced demand.
Author: Bruce D. Spear Publisher: ISBN: Category : Choice of transportation Languages : en Pages : 176
Book Description
The report documents the application of individual choice (disaggregate) travel demand models in urban transportation planning. Three general areas of application are covered: (1) The traditional travel demand forecasting process; (2) short range, transportation systems management evaluation; and (3) patronage and revenue forecasting for new transportation systems. For each application, the suitability of the model is discussed, recent applications are summarized, and two detailed case studies are presented to demonstrate how the models were used. A short primer on individual choice models is included to provide the planner with enough information to understand how the models work and their differences from more conventional planning models.
Author: National Academies of Sciences, Engineering, and Medicine Publisher: National Academies Press ISBN: 0309392527 Category : Transportation Languages : en Pages : 273
Book Description
There are approximately 4,000 fatalities in crashes involving trucks and buses in the United States each year. Though estimates are wide-ranging, possibly 10 to 20 percent of these crashes might have involved fatigued drivers. The stresses associated with their particular jobs (irregular schedules, etc.) and the lifestyle that many truck and bus drivers lead, puts them at substantial risk for insufficient sleep and for developing short- and long-term health problems. Commercial Motor Vehicle Driver Fatigue, Long-Term Health and Highway Safety assesses the state of knowledge about the relationship of such factors as hours of driving, hours on duty, and periods of rest to the fatigue experienced by truck and bus drivers while driving and the implications for the safe operation of their vehicles. This report evaluates the relationship of these factors to drivers' health over the longer term, and identifies improvements in data and research methods that can lead to better understanding in both areas.
Author: Publisher: Transportation Research Board ISBN: 0309098653 Category : Local transit Languages : en Pages : 139
Book Description
"The third edition Traveler Response to Transportation System Changes Handbook provides comprehensive information on travel demand effects of alternative urban transportation policies, operating approaches and systems, and built environment options, by building upon, expanding, and selectively replacing the earlier editions to provide a contemporary assessment of the experience and insights gained from the application and analysis of various system changes and alternatives. The focus is on aiding transportation, transit, and land use planners in their conduct of travel demand and related analyses, and to inform elected officials, administrators, operators, designers, and the general public as well. The Traveler Response to Transportation System Changes Handbook consists of the Chapter 1 introductory materials and 15 stand-alone published topic area chapters. Each topic area chapter provides traveler response findings including supportive information and interpretation, and also includes case studies and a bibliography consisting of the references utilized as sources. Please note that Chapters 4, 7, and 8 have been deferred for a future TCRP project effort. The Handbook findings derive primarily from reported results and analyses of real-world transportation system and policy applications and trials. Experimental or quasi-experimental empirical data have been the information source of choice. Other empirical data derivations and simple accounts of outcomes have been employed as necessary. Forecasts and other estimates derived from travel demand model applications and similar techniques have been used, but on a very selective basis; mostly for augmenting the empirical data where gaps exist, and for providing additional insights and context. TCRP Report 95: Traveler Response to Transportation System Changes Handbook will be of interest to transit, transportation, and land use planning practitioners; transportation engineers; land developers, employers, and school administrators; researchers and educators; and professionals across a broad spectrum of transportation and planning; metropolitan planning organizations; and local, state, and federal government agencies."--taken from publisher web site.
Author: Yiqing Xu
Author: Yiqing Xu
Author: Janet Nordstrom
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Author: Lisa G. Nungesser
Author: Institute of Transportation Engineers. Meeting
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Author: 
Author: Bruce D. Spear
Author: National Academies of Sciences, Engineering, and Medicine
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