Toward a risk framework in prioritizing ancillary transportation assets for management.

Boadi, Richard S.

18 November 2011

A growing number of transportation agencies have begun to manage selected ancillary transportation assets systematically--culverts, guardrails, pavement markings, sidewalks and curbs, street lighting, traffic signals, traffic signs, utilities and manholes, earth retaining structures, and environmental mitigation features. Given prevailing budget limitations, several agencies are interested in prioritizing these assets for inclusion in their existing management systems. This paper discusses critical elements of a framework for assessing the risks, benefits and costs of incorporating ancillary assets in existing Transportation Asset Management programs. The paper reviews some basic elements of a risk theory, examines risk applications in transportation asset management, water mains, and storm water management, and identifies the basic elements of a risk-benefit-cost framework for prioritizing ancillary assets for management. These elements can be used as a basis for developing a decision analysis framework to make a business case for the formal management of ancillary transportation assets and to prioritize them for inclusion in existing Transportation Asset Management programs. Using these elements, we have developed a risk ranking model that can be used by transportation officials to prioritize their ancillary asset classes for management. A demonstration of the model is presented in this paper to show its effectiveness. The study concludes that tracking and documentation of ancillary transportation asset failures would help agencies better understand the risks associated with failure. Tracking and documenting the failures of ancillary transportation assets would also help in identifying trends/probability of failure as well as quantifying the consequences associated with these failures. Such information could also be used to estimate risk factors to prioritize individual asset classes for inclusion in existing management systems.

Asset management

Risk management

Ancillary transportation assets

Decision making

Value analysis (Cost control)

Cost effectiveness

Use of Data Analytics and Machine Learning to Improve Culverts Asset Management Systems

Gao, Ce

10 June 2019

No description available.

Civil Engineering

Culvert Management

Machine Learning

Selective Inspection Scheduling

Data Analytics

Transportation Assets Management

Analysis of storm surge impacts on transportation systems in the Georgia coastal area

Restrepo, Ana Catalina

18 November 2011

Many Climate Scientists believe that global warming will produce more extreme weather events such as tropical storms, hurricanes, intense rainfall, and flooding. These events are considered to be the most catastrophic natural events for transportation systems especially in coastal areas. Due to the severe damage from storm surge and flooding. Evaluating the magnitude of possible storm surges and their impacts on transportation systems in coastal areas is fundamental to developing adaptation plans and impact assessments to mitigate the damage. This thesis focuses on existing transportation systems in the Georgia coastal area that could be affected by several storm surges. An existing storm surge model is used to estimate the storm surges and the surge heights based on the category, direction, and forward speed of a storm. The ground elevation of the ports, interstates, state roads, railroads, and the principal airports on the Georgia coast are identified through a GIS analysis using the national elevation data set. Having the storm surge elevation and the elevation of the existing infrastructure, a GIS study is performed to identify those parts of the transportation system that will be affected by each type of storm giving results such as the length or sections of transportation assets under or above the surge elevation. A literature review of storm surge, rising sea levels, and their impacts on coastal bridges, roads, airports, ports, and railroads is presented in the thesis. Also, a description of the software used to analyze and estimate the impacts of climate change on transportation systems is described.

Raster files

Maximum surge elevation

Storm direction

Ground elevation

Scour

Wave forces

Forward speed average surge elevation

Transportation systems

Railroads

Interstate roads

Roads

Georgia coast

Storm surge

Transportation assets

Transportation impacts

Hurricane category

Inundation

Landfall

Tropical cyclone

Transportation maps

Counties along the Georgia coast

Geographic information system

Vector files

Storm surge model

Hypothetical storm

Airports

Ports

Bridges

Hurricane

Global warming

Storm surges

Floods