What type of duties does a Traffic Flow Analyst perform?
A Traffic Flow Analyst typically monitors and evaluates traffic flow patterns, studies roadways to identify potential problems, and designs solutions to improve traffic flow. They may also develop and implement traffic engineering plans, analyze speed and volume data, and identify and address safety issues. Other duties may include working with public agencies to develop and implement traffic control plans, conducting field studies to collect data, and preparing reports and presenting findings to decision makers.
Other Questions about Traffic Flow Analyst
- What qualifications are needed to become a Traffic Flow Analyst?
In order to become a Traffic Flow Analyst, you will need at least a Bachelor’s degree in civil engineering, urban studies, regional planning, or a related field. You may also need additional certifications related to traffic analysis or additional post-graduate work in a related field. In addition, you will need experience working with traffic data, conducting traffic studies, and understanding traffic laws and regulations. Strong analytical, problem-solving, and communication skills are also important for this role.
- How much does a Traffic Flow Analyst make?
The average salary for a Traffic Flow Analyst is $57,180 per year.
- What kind of education is required for a Traffic Flow Analyst?
A Traffic Flow Analyst typically requires a Bachelor's degree in civil engineering, transportation engineering, systems engineering, or a related field. Additional certifications and skills in data analysis, traffic modeling, and engineering software may be beneficial for a Traffic Flow Analyst.
- What type of software do Traffic Flow Analysts use?
Traffic Flow Analysts typically use specialized software designed for managing and analyzing traffic data. Examples of this type of software include ArcGIS, PTV Vissim, and TransModeler.
- What type of technical skills are needed for Traffic Flow Analysis?
Traffic Flow Analysis requires a strong understanding of data science and analytics tools, such as Python, R, SAS, and MATLAB. Additionally, experience with geographic information systems (GIS) and mapping software such as ArcGIS, MapInfo, and QGIS is helpful. Other technical skills that may be beneficial include knowledge of transportation engineering principles and traffic simulation tools such as VISSIM, TRANSYT, and Paramics.