Mid-block traffic detection and signal control
First Claim
Patent Images
1. A method for detection of vehicles at a mid-block approaching a traffic-signal-controlled intersection, comprising:
- (a) operating sensors to detect a vehicle on a traffic lane;
(b) inputting intersection data to a processor, the intersection data including intersection traffic flow conditions, intersection site-specific conditions and intersection weather conditions;
(c) determining predetermined parameters of a heavy commercial vehicle (HCV) from the sensors;
(d) recording data of the predetermined parameters of the HCV;
(e) determining from an output of the sensors if the vehicle detected thereby is either a car or a HCV, andonly if the detected vehicle is a HCV, then(f) determining if the traffic signal at the intersection is in a red phase, green phase or amber phase;
(g) determining whether behavior conditions for the HCV for safely traversing the intersection have been satisfied by evaluating a traffic condition based on speed of the HCV, at least one of the predetermined parameters of the HCV and the intersection data; and
(h) operating the processor to control the traffic signal at the intersection in response to the evaluation of the traffic condition and the phase of the traffic signal to enable the HCV safely to traverse the intersection, wherein in the event the traffic signal at the intersection is in a green phase or an amber phase, then operating the processor to calculate a time “
y”
in seconds to extend the green phase or the amber phase of the traffic signal necessary for the HCV safely to traverse the intersection, and extending the green phase or the amber phase of the traffic signal by the calculated time “
y”
, and wherein step (h) includes,(h1) determining if the HCV is at rest at a distance “
X”
from the traffic signal when the traffic signal is in a red phase,(h2) determining whether the HCV is able safely to traverse the intersection during a routine duration of the green phase of the traffic signal based on the distance “
X”
from which the HCV is at rest from the traffic signal and at least one of the pre-determined parameters of the HCV, and(h3) in the event the HCV is unable safely to traverse the intersection during the green phase of the traffic signal, then calculating the time “
y”
in seconds to extend the green phase of the traffic signal necessary for the HCV safely to traverse the intersection, and extending the green phase of the traffic signal by the time “
y”
.
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Abstract
A method and system for a mid-block traffic detection and traffic signal control system is provided herein that is suited to monitoring heavy commercial vehicles such as trucks is provided. The method comprises detecting a vehicle and determining at least one pre-determined parameter of the vehicle. A traffic condition is evaluated based on the at least one pre-determined parameter. In response to the evaluation of the traffic condition, a traffic signal is controlled.
14 Citations
6 Claims
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1. A method for detection of vehicles at a mid-block approaching a traffic-signal-controlled intersection, comprising:
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(a) operating sensors to detect a vehicle on a traffic lane; (b) inputting intersection data to a processor, the intersection data including intersection traffic flow conditions, intersection site-specific conditions and intersection weather conditions; (c) determining predetermined parameters of a heavy commercial vehicle (HCV) from the sensors; (d) recording data of the predetermined parameters of the HCV; (e) determining from an output of the sensors if the vehicle detected thereby is either a car or a HCV, and only if the detected vehicle is a HCV, then (f) determining if the traffic signal at the intersection is in a red phase, green phase or amber phase; (g) determining whether behavior conditions for the HCV for safely traversing the intersection have been satisfied by evaluating a traffic condition based on speed of the HCV, at least one of the predetermined parameters of the HCV and the intersection data; and (h) operating the processor to control the traffic signal at the intersection in response to the evaluation of the traffic condition and the phase of the traffic signal to enable the HCV safely to traverse the intersection, wherein in the event the traffic signal at the intersection is in a green phase or an amber phase, then operating the processor to calculate a time “
y”
in seconds to extend the green phase or the amber phase of the traffic signal necessary for the HCV safely to traverse the intersection, and extending the green phase or the amber phase of the traffic signal by the calculated time “
y”
, and wherein step (h) includes,(h1) determining if the HCV is at rest at a distance “
X”
from the traffic signal when the traffic signal is in a red phase,(h2) determining whether the HCV is able safely to traverse the intersection during a routine duration of the green phase of the traffic signal based on the distance “
X”
from which the HCV is at rest from the traffic signal and at least one of the pre-determined parameters of the HCV, and(h3) in the event the HCV is unable safely to traverse the intersection during the green phase of the traffic signal, then calculating the time “
y”
in seconds to extend the green phase of the traffic signal necessary for the HCV safely to traverse the intersection, and extending the green phase of the traffic signal by the time “
y”
. - View Dependent Claims (2, 3)
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4. A system for detection of vehicles at a mid-block approaching a traffic-signal-controlled intersection comprising:
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(a) a traffic signal located at the intersection, the traffic signal having selectable red, green and amber phases; (b) a sensor for detecting a vehicle in a traffic lane and for determining if the detected vehicle;
which is detected thereby, is either a car or a heavy commercial vehicle (HCV); and(c) a processor operatively connected to the sensor and to the traffic signal, the processor comprising downloaded intersection data including intersection traffic flow conditions, intersection site-specific conditions and intersection weather conditions, wherein (d) the processor is structured to determine predetermined parameters of the HCV from the sensor and is structured to evaluate a traffic condition based on the speed of the HCV, at least one of the predetermined parameters thereof and of the intersection data; and
wherein(e) the processor is structured to control the traffic signal at the intersection and the phase of the traffic signal to enable the HCV safely to traverse the intersection, wherein in the event that the traffic signal at the intersection is in a green phase or an amber phase;
the processor is structured first to calculate a time “
y”
in seconds to extend the green phase of the traffic signal or the amber phase of the traffic signal for a time in seconds, which is necessary for the HCV safely to traverse the intersection and then, after such calculation the processor is structured to extend the green phase of the traffic signal or the amber phase of the traffic signal for the time “
y”
in seconds, which is necessary for the HCV safely to traverse the intersection, and whereinthe processor is further structured to (i) determine if the HCV is at rest at a distance “
x”
from the traffic signal when the traffic signal is in a red phase;(ii) determine whether the HCV is able safely to traverse the intersection during a routine duration of the green phase of the traffic signal based on the distance “
x”
from which the HCV is at rest from the traffic signal and at least one of the predetermined parameters of the HCV; and(iii) in the event that the HCV is unable safely to traverse the intersection during the green phase of the traffic signal, then the processor is structured to calculate the time “
y”
in seconds which would be necessary to extend the green phase of the traffic signal for a time which is necessary for the HCV safely to traverse the intersection and then to extend the green phase or the amber phase, by the calculated time “
y”
in seconds, thereby allowing the HCV safely to traverse the intersection. - View Dependent Claims (5, 6)
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Specification
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Current AssigneeInternational Road Dynamics Incorporated (Quarterhill Inc. (f/k/a Wi-LAN Inc.))
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Original AssigneeInternational Road Dynamics Incorporated (Quarterhill Inc. (f/k/a Wi-LAN Inc.))
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InventorsBushman, Robert J.
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Primary Examiner(s)Ghayour, Mohammad
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Assistant Examiner(s)TUN, NAY L
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Application NumberUS12/338,961Publication NumberTime in Patent Office1,692 DaysField of Search340/907, 340916-921, 340/910, 340/911, 340/923US Class Current340/923CPC Class CodesG08G 1/08 according to detected numbe...G08G 1/164 Centralised systems, e.g. e...
