LF logo
by learnformula
search
Log in
search
Courses/Engineering/Transportation Engineering

FHWA Countermeasures for Intersection Crashes

In this online engineering PDH course, estimates are discussed of the crash reduction expected if various countermeasures are implemented with respect to intersection crashes.

Created byMark Rossow, PhD, PE (retired)
5.0
(22 reviews)
BeginnerUpdated May 3, 2022
FHWA Countermeasures for Intersection Crashes

What You'll Learn

check_circleUnderstand the concept of Crash Reduction Factors (CRFs) and their role in evaluating intersection safety improvements.
check_circleLearn to identify CRFs for signalization, geometric, and signs/markings/operational countermeasures.
check_circleExplore how crash severity and existing control information influence the selection of appropriate countermeasures.
check_circleGain knowledge of how to apply CRFs to estimate the impact of countermeasures on intersection crash reductions.

About This Course

In this online engineering PDH course, estimates are discussed of the crash reduction expected if various countermeasures are implemented with respect to intersection crashes. The estimates are presented as Crash Reduction Factors (CRFs). Traffic engineers and other transportation professionals can use the information contained in this course when asking the following types of question: Which countermeasures might be considered at the signalized intersection of Maple and Elm streets, an intersection experiencing a high number of total crashes and left-turn crashes? What change in the number of total crashes and left-turn crashes can be expected with the implementation of the various countermeasures? To answer questions like these, in this course CRFs are presented in separate tables for signalization, geometric, and signs/markings/operational countermeasures.

Topics: This course teaches the following specific knowledge and skills: Define “crash reduction factors”; Identify CRFs for signalization, geometric, and signs/markings/operational countermeasures; Explain how crash severity is taken into account in choosing an appropriate countermeasure; and Explain how existing control information, such as no signal, signal, stop, or stop/yield is taken into account in choosing an appropriate countermeasure. 

Intended Audience: This course is intended for engineers and other transportation professionals concerned with the design of intersections. 

Publication Source: "Toolbox of Countermeasures and Their Potential Effectiveness for Intersection Crashes FHWA-SA-10-005 – November 2009, which can be accessed at https://safety.fhwa.dot.gov/intersection/other_topics/fhwasa10005/docs/brief_8.pdf.

Your Instructor

Mark Rossow, PhD, PE (retired)
Mark Rossow, PhD, PE (retired)

Civil Engneering faculty member for 27 years

menu_book133 courses
star3,887 reviews

Dr. Rossow is a graduate of the University of Michigan with B.S., M.S., and Ph.D. degrees. He is a licensed Professional Engineer in the State of Illinois. He taught civil engineering for over 35 years, including six years at Washington University in St. Louis and 29 years at Southern Illinois University Edwardsville, where he was the Chair of the Civil Engineering Department for ten years. His areas of expertise are in civil engineering and mechanics. He has consulted for various organizations, including government agencies and an international offshore drilling company. He has published numerous technical journal articles and technical reports for a variety of governmental agencies and private sector organizations. Mark P. Rossow, PE, PhD Licensed Professional Engineer in State of Illinois License No. 062.040560 Dr. Rossow is a graduate of the University of Michigan with B.S., M.S., and Ph.D. degrees. He taught civil engineering for over 35 years, including six years at Washington University in St. Louis and 29 years at Southern Illinois University Edwardsville, where he was the Chair of the Civil Engineering Department for ten years. His areas of expertise are in civil engineering and mechanics. He has consulted for various organizations, including government agencies and an international offshore drilling company. He has published many journal articles and technical reports.

Credit Information

What Students Are Saying

5.0
Student's Choice
22 reviews

Frequently Asked Questions

We are a registered provider with 327+ associations and regulatory bodies worldwide. We operate across 29 global markets including Canada, the US, Australia, and the UK. Every course page clearly displays its specific accreditations. Upon completion, you receive a professional certificate that can be validated online. Our certificates include all necessary accreditation details, credit hours, and completion dates, and are formatted specifically to meet the submission requirements of most global regulatory bodies.