Distributed data processing systems for processing remotely captured sensor data
First Claim
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1. A computing platform, comprising:
- at least one processor;
a communication interface; and
memory storing computer-readable instructions that, when executed by the at least one processor, cause the computing platform to;
receive, via the communication interface, from a first user computing device, sensor data captured by the first user computing device using one or more sensors built into the first user computing device during a trip in a vehicle;
analyze the sensor data received from the first user computing device to determine whether a user of the first user computing device was located in a front portion of the vehicle during the trip or a rear portion of the vehicle during the trip;
based on determining that the user of the first user computing device was located in the front portion of the vehicle during the trip;
generate front-rear detection data indicating that the user of the first user computing device was located in the front portion of the vehicle during the trip; and
store, in at least one database, the front-rear detection data indicating that the user of the first user computing device was located in the front portion of the vehicle during the trip; and
based on determining that the user of the first user computing device was located in the rear portion of the vehicle during the trip;
generate front-rear detection data indicating that the user of the first user computing device was located in the rear portion of the vehicle during the trip; and
store, in the at least one database, the front-rear detection data indicating that the user of the first user computing device was located in the rear portion of the vehicle during the trip.
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Abstract
Aspects of the disclosure relate to processing remotely captured sensor data. A computing platform having at least one processor, a communication interface, and memory may receive, via the communication interface, from a user computing device, sensor data captured by the user computing device using one or more sensors built into the user computing device. Subsequently, the computing platform may analyze the sensor data received from the user computing device by executing one or more data processing modules. Then, the computing platform may generate trip record data based on analyzing the sensor data received from the user computing device and may store the trip record data in a trip record database. In addition, the computing platform may generate user record data based on analyzing the sensor data received from the user computing device and may store the user record data in a user record database.
59 Citations
20 Claims
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1. A computing platform, comprising:
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at least one processor; a communication interface; and memory storing computer-readable instructions that, when executed by the at least one processor, cause the computing platform to; receive, via the communication interface, from a first user computing device, sensor data captured by the first user computing device using one or more sensors built into the first user computing device during a trip in a vehicle; analyze the sensor data received from the first user computing device to determine whether a user of the first user computing device was located in a front portion of the vehicle during the trip or a rear portion of the vehicle during the trip; based on determining that the user of the first user computing device was located in the front portion of the vehicle during the trip; generate front-rear detection data indicating that the user of the first user computing device was located in the front portion of the vehicle during the trip; and store, in at least one database, the front-rear detection data indicating that the user of the first user computing device was located in the front portion of the vehicle during the trip; and based on determining that the user of the first user computing device was located in the rear portion of the vehicle during the trip; generate front-rear detection data indicating that the user of the first user computing device was located in the rear portion of the vehicle during the trip; and store, in the at least one database, the front-rear detection data indicating that the user of the first user computing device was located in the rear portion of the vehicle during the trip. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method, comprising:
at a computing platform comprising at least one processor, a communication interface, and memory; receiving, by the at least one processor, via the communication interface, from a first user computing device, sensor data captured by the first user computing device using one or more sensors built into the first user computing device during a trip in a vehicle; analyzing, by the at least one processor, the sensor data received from the first user computing device to determine whether a user of the first user computing device was located in a front portion of the vehicle during the trip or a rear portion of the vehicle during the trip; based on determining that the user of the first user computing device was located in the front portion of the vehicle during the trip; generating, by the at least one processor, front-rear detection data indicating that the user of the first user computing device was located in the front portion of the vehicle during the trip; and storing, by the at least one processor, in at least one database, the front-rear detection data indicating that the user of the first user computing device was located in the front portion of the vehicle during the trip; and based on determining that the user of the first user computing device was located in the rear portion of the vehicle during the trip; generating, by the at least one processor, front-rear detection data indicating that the user of the first user computing device was located in the rear portion of the vehicle during the trip; and storing, by the at least one processor, in the at least one database, the front-rear detection data indicating that the user of the first user computing device was located in the rear portion of the vehicle during the trip. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. One or more non-transitory computer-readable media storing instructions that, when executed by a computing platform comprising at least one processor, a communication interface, and memory, cause the computing platform to:
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receive, via the communication interface, from a first user computing device, sensor data captured by the first user computing device using one or more sensors built into the first user computing device during a trip in a vehicle; analyze the sensor data received from the first user computing device to determine whether a user of the first user computing device was located in a front portion of the vehicle during the trip or a rear portion of the vehicle during the trip; based on determining that the user of the first user computing device was located in the front portion of the vehicle during the trip; generate front-rear detection data indicating that the user of the first user computing device was located in the front portion of the vehicle during the trip; and store, in at least one database, the front-rear detection data indicating that the user of the first user computing device was located in the front portion of the vehicle during the trip; and based on determining that the user of the first user computing device was located in the rear portion of the vehicle during the trip; generate front-rear detection data indicating that the user of the first user computing device was located in the rear portion of the vehicle during the trip; and store, in the at least one database, the front-rear detection data indicating that the user of the first user computing device was located in the rear portion of the vehicle during the trip. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification
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Current AssigneeAllstate Insurance Company (Allstate Corporation)
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Original AssigneeAllstate Insurance Company (Allstate Corporation)
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InventorsHarish, Pratheek M., Yeomans, Benjamin Robertson, Herrmann, Alexander, Schmitt, Kyle Patrick, Tammali, Venu Madhav
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Primary Examiner(s)Feild, Joseph H
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Assistant Examiner(s)Mahase, Pameshanand
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Application NumberUS16/267,541Publication NumberTime in Patent Office175 DaysField of SearchUS Class CurrentCPC Class CodesG01C 21/20 Instruments for performing ...G01C 21/3461 Preferred or disfavoured ar...G01C 21/3476 using point of interest [PO...G01C 21/3617 using user history, behavio...G01C 21/362 received from an external d...G01P 1/07 Indicating devices, e.g. fo...G01P 13/00 Indicating or recording pre...G05D 1/0011 associated with a remote co...G05D 1/0212 with means for defining a d...G05D 1/0276 using signals provided by a...G05D 1/223 Command input arrangements ...G05D 1/247 using signals provided by a...G05D 1/646 Following a predefined traj...G06F 16/22 Indexing; Data structures t...G06F 3/0484 for the control of specific...G06F 3/14 Digital output to display d...G06F 3/1454 involving copying of the di...G06F 3/147 using display panelsG06F 9/542 Event management; Broadcast...G06Q 40/08 InsuranceView All
