Patents by Inventor Sureyya Tarkan
Sureyya Tarkan 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).
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Patent number: 11934410Abstract: A computer-implemented system and method for planning recurring events is provided. Event objects for events are stored in a database. A trigger notifying the beginning of an event is received and an event object representing the event is generated in response to the trigger. An event class is associated with a set of parameters and is assigned to the event object. A set of activity data is created for the event object and each activity data includes structured and unstructured data describing an event activity occurred during the event. At least one event object is retrieved from the database as a model and the parameter values of the model event object are displayed. At least one of the parameter values of the model event object is modified and the modification is reflected against other parameter values of the model event object that are dependent on the modified parameter value.Type: GrantFiled: July 16, 2018Date of Patent: March 19, 2024Assignee: Conduent Business Services, LLCInventors: Mark J. Stefik, Daniel G. Bobrow, Hoda Eldardiry, Robert T. Krivacic, Pai Liu, Sureyya Tarkan, Ed Wu
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Patent number: 11157860Abstract: A system and method for motivating parking enforcement officer performance with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: GrantFiled: August 26, 2016Date of Patent: October 26, 2021Assignee: Conduent Business Services, LLCInventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Gaurang Gavai, Robert T. Krivacic, Sureyya Tarkan
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Patent number: 11151494Abstract: A system and method for visualizing parking enforcement officer movement in real time with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: GrantFiled: August 26, 2016Date of Patent: October 19, 2021Assignee: Palo Alto Research Center IncorporatedInventors: Mudita Singhal, Mark J. Stefik, Sureyya Tarkan, Eric A. Bier, Robert T. Krivacic
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Patent number: 11126942Abstract: A system and method for facilitating parking enforcement officer performance in real time with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: GrantFiled: August 26, 2016Date of Patent: September 21, 2021Assignee: Conduent Business Services, LLCInventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Hoda Eldardiry, Gaurang Gavai, Lu (Kate) Jia, Robert T. Krivacic, Sureyya Tarkan
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Patent number: 11120375Abstract: A system and method for monitoring parking enforcement officer performance with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: GrantFiled: August 26, 2016Date of Patent: September 14, 2021Assignee: Conduent Business Services, LLCInventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Hoda Eldardiry, Gaurang Gavai, Lu (Kate) Jia, Robert T. Krivacic, Pai Liu, Sureyya Tarkan
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Patent number: 11062241Abstract: A system and method for facilitating parking enforcement officer dispatching in real time with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: GrantFiled: August 26, 2016Date of Patent: July 13, 2021Assignee: Conduent Business Services, LLCInventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Hoda Eldardiry, Gaurang Gavai, Robert T. Krivacic, Pai Liu, Sureyya Tarkan
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Patent number: 10817814Abstract: A system and method for coordinating parking enforcement officer patrol in real time with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and ongoing activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: GrantFiled: August 26, 2016Date of Patent: October 27, 2020Assignee: Conduent Business Services, LLCInventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Hoda Eldardiry, Gaurang Gavai, Robert T. Krivacic, Sureyya Tarkan
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Patent number: 10664480Abstract: A system and method for tagging and integrating event data into operational data with the aid of a digital computer is provided. A plurality of categories of tags are maintained, each of the categories comprising a plurality of tags. A note comprising data about an event from a user is received. One or more of the tags are assigned to the note based on the user and the data. One or more of the tags is received from the user and the note is tagged with the received tags. Operational data comprising workflow data of an objective nature is defined. The note is integrated into the workflow data using the received tags, the assigned tags, and the categories of the received tags and the assigned tags. The workflow data with the integrated note is displayed on a display.Type: GrantFiled: July 2, 2018Date of Patent: May 26, 2020Assignee: CONDUENT BUSINESS SERVICES, LLCInventors: Mark Jeffrey Stefik, Craig Eldershaw, Lu Jia, Pai Liu, Makiko Taniguchi, Sureyya Tarkan, Francisco Eduardo Torres, Edward Wu, Peter Jarvis
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Publication number: 20180322173Abstract: A computer-implemented system and method for performing trend analysis is provided. Event objects for events are stored in a database. A trigger for notifying a beginning of an event is received and an event object representing the event is generated. An event class is associated with a set of parameters and is assigned to the event object. A set of activity data for the event object is created. A time period for trend analysis and previous time periods are defined. Trends among the event objects during the trend analysis time period and among the event objects for the previous time periods are defined. The trends of the event objects of the trend analysis period are compared with the trends of the event objects for the previous time periods and significant trend changes between the compared trends are identified. A trend object is generated for each significant trend change.Type: ApplicationFiled: July 16, 2018Publication date: November 8, 2018Inventors: Mark J. Stefik, Daniel G. Bobrow, Hoda Eldardiry, Robert T. Krivacic, Pai Liu, Sureyya Tarkan, Ed Wu
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Publication number: 20180322172Abstract: A computer-implemented system and method for planning recurring events is provided. Event objects for events are stored in a database. A trigger notifying the beginning of an event is received and an event object representing the event is generated in response to the trigger. An event class is associated with a set of parameters and is assigned to the event object. A set of activity data is created for the event object and each activity data includes structured and unstructured data describing an event activity occurred during the event. At least one event object is retrieved from the database as a model and the parameter values of the model event object are displayed. At least one of the parameter values of the model event object is modified and the modification is reflected against other parameter values of the model event object that are dependent on the modified parameter value.Type: ApplicationFiled: July 16, 2018Publication date: November 8, 2018Inventors: Mark J. Stefik, Daniel G. Bobrow, Hoda Eldardiry, Robert T. Krivacic, Pai Liu, Sureyya Tarkan, Ed Wu
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Publication number: 20180314738Abstract: A system and method for tagging and integrating event data into operational data with the aid of a digital computer is provided. A plurality of categories of tags are maintained, each of the categories comprising a plurality of tags. A note comprising data about an event from a user is received. One or more of the tags are assigned to the note based on the user and the data. One or more of the tags is received from the user and the note is tagged with the received tags. Operational data comprising workflow data of an objective nature is defined. The note is integrated into the workflow data using the received tags, the assigned tags, and the categories of the received tags and the assigned tags. The workflow data with the integrated note is displayed on a display.Type: ApplicationFiled: July 2, 2018Publication date: November 1, 2018Inventors: Mark Jeffrey Stefik, Craig Eldershaw, Lu Jia, Pai Liu, Makiko Taniguchi, Sureyya Tarkan, Francisco Eduardo Torres, Edward Wu, Peter Jarvis
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Patent number: 10025829Abstract: A computer-implemented method for analyzing organizational performance from episodic data is provided. Event objects for events is maintained in a database. A trigger for notifying beginning of an event is received. An event object is generated in response to the trigger. Activity data is created for the event object and each of the activity data includes notes of a subjective nature having received and messages of an objective nature. Each of the activity data is associated with event tags. Each of the event objects is classified in an event class and the event class includes a pattern of parameters. Analytics of the event objects is performed based on the event tags and the event class. Filters received from a reviewer is defined for search. A list of the analytics of the event objects which pattern of parameters matches with the filters is displayed on a display.Type: GrantFiled: December 19, 2014Date of Patent: July 17, 2018Assignee: Conduent Business Services, LLCInventors: Mark J. Stefik, Daniel G. Bobrow, Hoda Eldardiry, Robert T. Krivacic, Pai Liu, Sureyya Tarkan, Edward Wu
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Patent number: 10013459Abstract: A computer-implemented system and method for integrating user observations into operational data is provided. A database maintains notes each having received from a user and comprising a subjective observation. Operational data including workflow data of an objective nature is defined. Each of the notes is associated with one or more tags. The note associated with the tags is further maintained in the database. Criteria for retrieving the note are defined for the workflow data and forming a query for each of the workflow data. The query to select the note associated with the tags is executed for the workflow data based on the criteria and the selected note is integrated into the workflow data. The workflow data with the integrated note is displayed on a display.Type: GrantFiled: April 29, 2014Date of Patent: July 3, 2018Assignee: CONDUENT BUSINESS SERVICES, LLCInventors: Mark Jeffrey Stefik, Craig Eldershaw, Lu Jia, Pai Liu, Makiko Taniguchi, Sureyya Tarkan, Francisco Eduardo Torres, Edward Wu, Peter Jarvis
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Publication number: 20180060796Abstract: A system and method for monitoring parking enforcement officer performance with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: ApplicationFiled: August 26, 2016Publication date: March 1, 2018Inventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Hoda Eldardiry, Gaurang Gavai, Lu (Kate) Jia, Robert T. Krivacic, Pai Liu, Sureyya Tarkan
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Publication number: 20180060783Abstract: A system and method for motivating parking enforcement officer performance with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: ApplicationFiled: August 26, 2016Publication date: March 1, 2018Inventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Gaurang Gavai, Robert T. Krivacic, Sureyya Tarkan
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Publication number: 20180060790Abstract: A system and method for coordinating parking enforcement officer patrol in real time with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and ongoing activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: ApplicationFiled: August 26, 2016Publication date: March 1, 2018Inventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Hoda Eldardiry, Gaurang Gavai, Robert T. Krivacic, Sureyya Tarkan
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Publication number: 20180060798Abstract: A system and method for facilitating parking enforcement officer dispatching in real time with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: ApplicationFiled: August 26, 2016Publication date: March 1, 2018Inventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Hoda Eldardiry, Gaurang Gavai, Robert T. Krivacic, Pai Liu, Sureyya Tarkan
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Publication number: 20180060775Abstract: A system and method for visualizing parking enforcement officer movement in real time with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: ApplicationFiled: August 26, 2016Publication date: March 1, 2018Inventors: Mudita Singhal, Mark J. Stefik, Sureyya Tarkan, Eric A. Bier, Robert T. Krivacic
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Publication number: 20180060795Abstract: A system and method for facilitating parking enforcement officer performance in real time with the aid of a digital computer is provided. A time-based active representational model of the city is created by fusing sensory data collected from various sources around a city with numerical data gleaned from historical and on-going activities, including parking regulation citation and warning numbers, resource allocations, and so on. The model can be used to form quantitative predictions of expected violations, revenue stream, and so forth, that can then be used as recommendations as to where to enforce and when, so as to maximize the utilization of the limited resources represented by the officers on the street. Moreover, the performance of the officers can be weighed against expectations of performance postulated from the quantitative predictions.Type: ApplicationFiled: August 26, 2016Publication date: March 1, 2018Inventors: Mark J. Stefik, Mudita Singhal, Kevin Albanese, Farrukh Ali, Eric A. Bier, Daniel G. Bobrow, Eduardo Cardenas Sanchez, Matthew T. Darst, Hoda Eldardiry, Gaurang Gavai, Lu (Kate) Jia, Robert T. Krivacic, Sureyya Tarkan
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Publication number: 20160179900Abstract: A computer-implemented method for analyzing organizational performance from episodic data is provided. Event objects for events is maintained in a database. A trigger for notifying beginning of an event is received. An event object is generated in response to the trigger. Activity data is created for the event object and each of the activity data includes notes of a subjective nature having received and messages of an objective nature. Each of the activity data is associated with event tags. Each of the event objects is classified in an event class and the event class includes a pattern of parameters. Analytics of the event objects is performed based on the event tags and the event class. Filters received from a reviewer is defined for search. A list of the analytics of the event objects which pattern of parameters matches with the filters is displayed on a display.Type: ApplicationFiled: December 19, 2014Publication date: June 23, 2016Inventors: Mark J. Stefik, Daniel G. Bobrow, Hoda Eldardiry, Robert T. Krivacic, Pai Liu, Sureyya Tarkan, Edward Wu