00824500

Component

https://doi.org/10.3141/1776-14

http://scholar.google.com...ndel&publication_year=2001

Average stopped delay has been used to determine the level of service (LOS) of signalized intersections. This work has mostly been done offline by using manual field observation methods, analytical models, and simulation software. Dynamic evaluation of the LOS of signalized intersections has been difficult because the use of conventional methods requires a large amount of labor and cost if such analyses were conducted periodically. However, many traffic operations centers wish to be able to coordinate surface street and freeway management when congestion occurs. It is demonstrated that image analysis can be used to dynamically determine average stopped delay. Two methods--the gap method and the motion method--were developed and compared with the Institute of Transportation Engineers' field delay observation method. Traffic Software Integrated System software was used to create images of queued vehicles. To eliminate parallax problems, two simple assumptions were made: the queued vehicles were viewed from the direction normal to the pavement, and all lines of sight were parallel to the camera's view direction. At present, the algorithms are simple, but they produced promising results. Various analysis time intervals from 1 to 20 s were used to estimate stopped delay. The gap method gave a good result when the time interval was about 15 s; the motion method produced a good result when the time interval was 1 or 2 s. The manual observation method resulted in a good estimate similar to that which the simulation software produced, especially when the time interval was about 10 s or less.

This paper appears in Transportation Research Record No. 1776, Traffic Flow Theory and Highway Capacity 2001.

English

p. 106-113

2001

Transportation Research Record

0309072344

Figures (7) ; References (11)

Algorithms; Analysis; Average; Estimating; Image analysis; Image processing; Level of service; Signalized intersections; Stopped time delays; Time intervals

Highways; Operations and Traffic Management; I71: Traffic Theory

TRIS, TRB

Feb 5 2002 12:00AM

• ANALYSIS OF ARRIVAL TYPE ESTIMATION PROCEDURES
• CAPACITY AN UNSIGNALIZED INTERSECTIONS DERIVED BY CONFLICT TECHNIQUE
• CAPACITY ESTIMATIONS FOR TYPE B WEAVING AREAS BASED ON GAP ACCEPTANCE
• CHARACTERISTICS OF PASSING AND MEETING MANEUVERS ON EXCLUSIVE BICYCLE PATHS
• DEFINING FREEWAY CAPACITY AS FUNCTION OF BREAKDOWN PROBABILITY
• DELAY MODEL FOR PLANNING ANALYSIS OF MAIN-LINE TOLL PLAZAS
• DELAY MODEL FOR RIGHT-TURN LANES AT SIGNALIZED INTERSECTIONS WITH UNIFORM ARRIVALS AND RIGHT TURNS ON RED
• DERIVATION OF CAPACITY EQUATION FOR ROUNDABOUT ENTRY WITH MIXED CIRCULATING AND EXITING FLOWS
• EFFECT OF WEATHER ON FREE-FLOW SPEED
• ESTIMATING VEHICLE STOPS AT UNDERSATURATED AND OVERSATURATED FIXED-TIME SIGNALIZED INTERSECTIONS
• ESTIMATION OF DE FACTO LEFT-TURN LANES AT SIGNALIZED INTERSECTIONS
• EXAMINATION OF EFFECT OF DRIVER POPULATION AT FREEWAY RECONSTRUCTION ZONES
• FREEWAY NETWORK SIMULATION AND DYNAMIC TRAFFIC ASSIGNMENT WITH METANET TOOLS
• FREEWAY QUALITY OF SERVICE: WHAT REALLY MATTERS TO DRIVERS AND PASSENGERS?
• FREEWAY SYSTEMS RESEARCH BEYOND "HIGHWAY CAPACITY MANUAL" 2000
• HIGHWAY CAPACITY ANALYSIS AFTER "HIGHWAY CAPACITY MANUAL" 2000
• INTERVAL DISTRIBUTION FOR EXCLUSIVE, MIXED-USE BICYCLE PATHS
• INVESTIGATION OF DENSITY AND FLOW RELATIONSHIPS IN CONGESTED TRAFFIC WITH VIDEOGRAMMETRIC DATA
• MODEL OF FREE-FLOW SPEED FOR INDIANA ARTERIAL ROADS
• MULTIMODAL LEVEL-OF-SERVICE ANALYSIS AT PLANNING LEVEL
• MULTIVARIATE VEHICULAR TRAFFIC FLOW PREDICTION: EVALUATION OF ARIMAX MODELING
• NONLOCAL CONTINUOUS-SPACE MICROSCOPIC SIMULATION OF PEDESTRIAN FLOWS WITH LOCAL CHOICE BEHAVIOR
• PERCENT TIME-SPENT-FOLLOWING AS PERFORMANCE MEASURE FOR TWO-LANE HIGHWAYS
• PREDICTING RIGHT TURNS ON RED
• SATURATION FLOW ESTIMATION BY TRAFFIC SUBGROUPS
• SHOCK WAVE AND CUMULATIVE ARRIVAL AND DEPARTURE MODELS: PARTNERS WITHOUT CONFLICT
• SIMULATION-BASED STUDY OF TRAFFIC OPERATIONAL CHARACTERISTICS AT ALL-WAY-STOP-CONTROLLED INTERSECTIONS
• STOCHASTIC MODELING AND DESIGN OF VEHICULAR AND PEDESTRIAN NETWORKS