Patents by Inventor KARL F. PETTY

KARL F. PETTY has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 9576488
    Abstract: Animation and visualization of roadway performance analytics in a dashboard presentation in an integrated performance measurement system comprises analyzing collected traffic data to generate measured congestion information that reflects current conditions in one or more links, segments, or corridors comprising a roadway. The measured congestion information is presented in one or more sets of indicia on a graphical user interface so that current congestion conditions can be viewed and analyzed by a user. The measured congestion information is represented as gauges displaying percentage increases or decreases relative to a particular time, as animated maps showing a selectable set of current congestion conditions, as one or more graphs of current congestion conditions over time, as chart-based displays of costs and causes of current congestion conditions, and a data feed listing textual live updates.
    Type: Grant
    Filed: November 8, 2013
    Date of Patent: February 21, 2017
    Assignee: ITERIS, INC.
    Inventors: Robert C. Hranac, Karl F. Petty, Eric Mai, Brian A. Derstine, Nicholas Hartman
  • Patent number: 9330565
    Abstract: Traffic congestion detection, classification and identification includes analysis of link-speed data representative of vehicular speed and capacity on one or more roadway segments to determine non-linear, multi-segment traffic bottlenecks in a transportation network graph. Link-speed data is processed to detect bottleneck conditions, classify bottlenecks and bottleneck-like traffic features according to their complexity, and identify sustained or recurring bottlenecks. Such a system and method of traffic congestion detection, classification and identification provides a framework for using this link-speed data to detect the head and queue of bottlenecks on a directed graph representing the transportation network, classify the resulting bottlenecks and bottleneck-like traffic features according to the shape of their queue, and identify and measure sustained or recurrent bottlenecks even when the location, or head, of the bottleneck varies slightly across multiple time periods or across multiple days.
    Type: Grant
    Filed: September 18, 2014
    Date of Patent: May 3, 2016
    Assignee: ITERIS, INC.
    Inventors: Karl F. Petty, Andrew J. Moylan
  • Patent number: 9293040
    Abstract: Quality assessment of probe data collected from GPS systems is performed by a system and method of determining a value of data points provided by different vendors of such data. Incoming raw probe data is initially analyzed for removal of extraneous data points, and is then mapped to roadway links and smoothed out. The resulting output is processed to determine the coverage value of data provided by a given vendor and enable a comparison between different vendors. Such a model of probe data processing also enables an evaluation of a contribution of further vendors of raw probe data to an existing dataset. Additionally, a real-time performance evaluation of continually-ingested probe data includes building historical and data count profiles, and generating output data represented by a number of data points for a specific distance within a geo-box representing a geographical area, to project a value of raw probe data for a next incremental time period.
    Type: Grant
    Filed: July 1, 2014
    Date of Patent: March 22, 2016
    Assignee: ITERIS, INC.
    Inventors: Jaimyoung Kwon, Karl F. Petty, Alex A. Kurzhanskiy, Andrew J. Moylan
  • Patent number: 9129522
    Abstract: Estimation of traffic speed includes applying data processing functions to determine missing speed information by smoothing spatial and temporal GPS data to achieve an accurate estimation of link speed over all links of a transportation network at all time periods. This estimation of traffic speed uses one link's observed speed information to estimate neighboring links without observed speed information and therefore provides a system and method of processing collected GPS data to obtain a thorough understanding of traffic flow conditions for all represented links without further collection of GPS data. The present invention also provides a framework for analyzing and improving real-time collection of GPS speed data.
    Type: Grant
    Filed: July 1, 2014
    Date of Patent: September 8, 2015
    Assignee: ITERIS, INC.
    Inventors: Jaimyoung Kwon, Karl F. Petty, Alex A. Kurzhanskiy, Andrew J. Moylan
  • Publication number: 20150081196
    Abstract: Traffic congestion detection, classification and identification includes analysis of link-speed data representative of vehicular speed and capacity on one or more roadway segments to determine non-linear, multi-segment traffic bottlenecks in a transportation network graph. Link-speed data is processed to detect bottleneck conditions, classify bottlenecks and bottleneck-like traffic features according to their complexity, and identify sustained or recurring bottlenecks. Such a system and method of traffic congestion detection, classification and identification provides a framework for using this link-speed data to detect the head and queue of bottlenecks on a directed graph representing the transportation network, classify the resulting bottlenecks and bottleneck-like traffic features according to the shape of their queue, and identify and measure sustained or recurrent bottlenecks even when the location, or head, of the bottleneck varies slightly across multiple time periods or across multiple days.
    Type: Application
    Filed: September 18, 2014
    Publication date: March 19, 2015
    Inventors: KARL F. PETTY, ANDREW J. MOYLAN
  • Publication number: 20150006069
    Abstract: Quality assessment of probe data collected from GPS systems is performed by a system and method of determining a value of data points provided by different vendors of such data. Incoming raw probe data is initially analyzed for removal of extraneous data points, and is then mapped to roadway links and smoothed out. The resulting output is processed to determine the coverage value of data provided by a given vendor and enable a comparison between different vendors. Such a model of probe data processing also enables an evaluation of a contribution of further vendors of raw probe data to an existing dataset. Additionally, a real-time performance evaluation of continually-ingested probe data includes building historical and data count profiles, and generating output data represented by a number of data points for a specific distance within a geo-box representing a geographical area, to project a value of raw probe data for a next incremental time period.
    Type: Application
    Filed: July 1, 2014
    Publication date: January 1, 2015
    Inventors: JAIMYOUNG KWON, KARL F. PETTY, ALEX A. KURZHANSKIY, ANDREW J. MOYLAN
  • Publication number: 20150006068
    Abstract: Estimation of traffic speed includes applying data processing functions to determine missing speed information by smoothing spatial and temporal GPS data to achieve an accurate estimation of link speed over all links of a transportation network at all time periods. This estimation of traffic speed uses one link's observed speed information to estimate neighboring links without observed speed information and therefore provides a system and method of processing collected GPS data to obtain a thorough understanding of traffic flow conditions for all represented links without further collection of GPS data. The present invention also provides a framework for analyzing and improving real-time collection of GPS speed data.
    Type: Application
    Filed: July 1, 2014
    Publication date: January 1, 2015
    Inventors: JAIMYOUNG KWON, KARL F. PETTY, ALEX A. KURZHANSKIY, ANDREW J. MOYLAN
  • Publication number: 20140222321
    Abstract: An integrated traffic state estimation framework ingests information from multiple input data sources having an impact on traffic flow and correlated to specific road links in a segmented roadway network, and generates output data representative of predictive traffic states. The predictive traffic states are then modeled to generate routing information for traffic on a particular section of roadway. These multiple input data sources include general traffic data collected from one or more sensors or third parties, weather data, incident data, pavement condition data, and roadway operations data, each of which includes data relevant to traffic congestion. The input data is weighted and modeled with data processing modules configured to integrate known and predicted information to produce accurate routing information for particular roadway segments for media, telematics, and consumer uses.
    Type: Application
    Filed: February 5, 2014
    Publication date: August 7, 2014
    Inventors: KARL F. PETTY, ANDREW J. MOYLAN, JAIMYOUNG KWON, JOHN J. MEWES
  • Publication number: 20140136089
    Abstract: Animation and visualization of roadway performance analytics in a dashboard presentation in an integrated performance measurement system comprises analyzing collected traffic data to generate measured congestion information that reflects current conditions in one or more links, segments, or corridors comprising a roadway. The measured congestion information is presented in one or more sets of indicia on a graphical user interface so that current congestion conditions can be viewed and analyzed by a user. The measured congestion information is represented as gauges displaying percentage increases or decreases relative to a particular time, as animated maps showing a selectable set of current congestion conditions, as one or more graphs of current congestion conditions over time, as chart-based displays of costs and causes of current congestion conditions, and a data feed listing textual live updates.
    Type: Application
    Filed: November 8, 2013
    Publication date: May 15, 2014
    Inventors: ROBERT C. HRANAC, KARL F. PETTY, ERIC MAI, BRIAN A. DERSTINE, NICHOLAS HARTMAN