PREDICTIVE TRAFFIC MANAGEMENT USING VIRTUAL LANES
First Claim
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1. A system for providing predictive traffic management and lane allocation based on a vehicle'"'"'s current position, comprising:
- a) a plurality of sensors adapted for positioning along a roadway, detecting the movement of vehicles operatively passing said sensor and generating vehicle movement data, and transmitting said vehicle movement data;
b) a public transfer system;
c) a vehicle sub-system, comprising;
i) a first geo-location based transmitter adapted for attachment to the vehicle and generating and transmitting vehicle position; and
ii) a navigation assistant; and
d) a computing system located remote from said plurality of sensors, said public transfer system, and said vehicle sub-system, and is configured to exchange data with said public transfer system, comprising;
i) a digital receiver configured to receive said vehicle movement data transmitted from said plurality of sensors, and further configured to aggregate the vehicle movement data from the plurality of sensors into aggregate vehicle movement data;
ii) a digital controller adapted to receive;
(i) said aggregate vehicle movement data from said digital receiver; and
(ii) said vehicle position data from said first geo-location based transmitter;
iii) a traffic control management module configured to process traffic data and transmit said processed traffic data to said digital controller;
iv) a predictive traffic flow modeler comprising an inference engine configured to generate predictive traffic data model which predicts one or more traffic patterns on the roadway, wherein the predictive traffic flow modeler is configured to send said predictive traffic data model to said digital controller;
v) a traffic flow optimizer configured to optimize said processed traffic data utilizing at least said aggregate vehicle movement data and said predictive traffic data model, to generate optimized traffic flow data comprising one or more optimized routes, wherein the traffic flow optimizer is configured to send said optimized traffic flow data to said digital controller; and
vi) a digital transmitter configured to receive optimized route guidance data from said digital controller and transmit said data to said navigation assistantwherein the digital controller is further adapted to generate said optimized route guidance data based at least in part on said predictive traffic data model and said optimized traffic flow data.
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Abstract
A computing system for predictive traffic management using virtual lanes. In an embodiment, the system dynamically monitors and collects traffic conditions in real time, performs analytics on the collected traffic data, utilizes a neural network or other self-learning computer to assist in predictive traffic modeling, and interfaces with a public transfer system to provide an allocation/reallocation of lanes available for traffic use to optimize traffic flow and/or control traffic signals, and can provide vehicles (human driver or driverless/self-driving) with real time optimal route guidance, including use of alternate routes and a holographic image that shows and may also provide audio indications of lane allocation.
37 Citations
17 Claims
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1. A system for providing predictive traffic management and lane allocation based on a vehicle'"'"'s current position, comprising:
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a) a plurality of sensors adapted for positioning along a roadway, detecting the movement of vehicles operatively passing said sensor and generating vehicle movement data, and transmitting said vehicle movement data; b) a public transfer system; c) a vehicle sub-system, comprising; i) a first geo-location based transmitter adapted for attachment to the vehicle and generating and transmitting vehicle position; and ii) a navigation assistant; and d) a computing system located remote from said plurality of sensors, said public transfer system, and said vehicle sub-system, and is configured to exchange data with said public transfer system, comprising; i) a digital receiver configured to receive said vehicle movement data transmitted from said plurality of sensors, and further configured to aggregate the vehicle movement data from the plurality of sensors into aggregate vehicle movement data; ii) a digital controller adapted to receive;
(i) said aggregate vehicle movement data from said digital receiver; and
(ii) said vehicle position data from said first geo-location based transmitter;iii) a traffic control management module configured to process traffic data and transmit said processed traffic data to said digital controller; iv) a predictive traffic flow modeler comprising an inference engine configured to generate predictive traffic data model which predicts one or more traffic patterns on the roadway, wherein the predictive traffic flow modeler is configured to send said predictive traffic data model to said digital controller; v) a traffic flow optimizer configured to optimize said processed traffic data utilizing at least said aggregate vehicle movement data and said predictive traffic data model, to generate optimized traffic flow data comprising one or more optimized routes, wherein the traffic flow optimizer is configured to send said optimized traffic flow data to said digital controller; and vi) a digital transmitter configured to receive optimized route guidance data from said digital controller and transmit said data to said navigation assistant wherein the digital controller is further adapted to generate said optimized route guidance data based at least in part on said predictive traffic data model and said optimized traffic flow data. - View Dependent Claims (2, 5, 6, 7, 8, 9)
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3-4. -4. (canceled)
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10. A method for providing predictive traffic management and lane allocation based on a vehicle'"'"'s current position, comprising the steps of:
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a) receiving in a computing system data representative of sensed vehicular traffic from traffic lanes on a roadway, wherein the data comprises vehicle positions transmitted by a plurality of geo-location based transmitters each attached to a vehicle; b) aggregating said sensed vehicular traffic data in a computer controller; c) receiving in said computing system geolocation data for a vehicle; d) providing said computing system with data representative of preferred traffic guidance for said vehicle; e) generating, by a predictive traffic flow modeler of said computing system and comprising an inference engine, modeled data representative of predictive traffic flow for said traffic lanes; f) generating, by a traffic flow optimizer of said computing system using said vehicle data representative of route guidance instructions based upon said predictive traffic flow data, said vehicular traffic data, and said preferred traffic guidance data, optimized vehicle route guidance instructions; g) transmitting, from said computing system to said vehicle, said optimized route guidance instructions; and h) transmitting from said computing system to a public transfer system data to control traffic lights and lane allocations. - View Dependent Claims (11, 12, 13)
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14. A computer program product providing predictive traffic management and lane allocation based on a vehicle'"'"'s current position, the computer program product comprising a computer readable storage medium having program instructions embodied therewith, wherein the computer readable storage medium is not a transitory signal per se, the program instructions are readable by a computer to cause the computer to perform a method comprising:
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a) receiving in a computing system data representative of sensed vehicular traffic from traffic lanes on a roadway, wherein the data comprises vehicle positions transmitted by a plurality of geo-location based transmitters each attached to a vehicle; b) aggregating said sensed vehicular traffic data in a computer controller; c) receiving in said computing system geolocation data for a vehicle; d) providing said computing system with data representative of preferred traffic guidance for said vehicle; e) generating, by a predictive traffic flow modeler of said computing system and comprising an inference engine, modeled data representative of predictive traffic flow for said traffic lanes; f) generating, by a traffic flow optimizer of said computing system using said vehicle data representative of route guidance instructions based upon said predictive traffic flow data, said vehicular traffic data, and said preferred traffic guidance data, optimized vehicle route guidance instructions; g) transmitting, from said computing system to said vehicle, said optimized route guidance instructions; and h) transmitting from said computing system to a public transfer system data to control traffic lights and lane allocations. - View Dependent Claims (15, 16, 17)
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Specification
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Current AssigneeDoorDash, Inc.
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Original AssigneeInternational Business Machines Corporation
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InventorsDhondse, Amol Ashok, NUNEZ, SELENE M.O., PIKLE, ANAND, SIVAKUMAR, GANDHI, VEERKAMP, ANA P.H.
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current
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CPC Class CodesG08G 1/0112 from the vehicle, e.g. floa...G08G 1/0116 from roadside infrastructur...G08G 1/0145 for active traffic flow con...G08G 1/056 with provision for distingu...G08G 1/07 Controlling traffic signalsG08G 1/08 according to detected numbe...G08G 1/087 Override of traffic control...G08G 1/09 Arrangements for giving var...G08G 1/096725 where the received informat...G08G 1/096741 where the source of the tra...G08G 1/096775 where the origin of the inf...
