METHODS AND SYSTEMS FOR DYNAMIC WORKFLOW PRIORITIZATION AND TASKING
First Claim
1. A computer-implemented system comprising:
- a plurality of metrological interface devices, each said metrological interface device comprising a printed circuit board (PCB) comprising at least one metrological sensor communication interface, and at least one first wireless communication interface, wherein each said metrological interface device is in communication with a metrological sensing device via said metrological sensor communication interface, wherein each metrological sensing device is configured to detect metrological data from a physical asset, each said metrological interface device is configured to receive the metrological data from the metrological sensing device; and
a portable computing device, said portable computing device comprising a memory device, a processor coupled to said memory device, and further comprising a second wireless communication interface coupled to said memory device and to said processor, wherein said second wireless communication interface is configured to communicate with said plurality of metrological interface devices via said first wireless communication interface, said portable computing device configured to;
a) receive a metrological data set that substantially represents data associated with the physical asset at a point in time;
b) process, by said processor, the metrological data set and an asset data model into a processed metrological data set that substantially represents a model of the physical asset associated with the metrological sensing device and further associated with said metrological interface device;
c) upon determining, based on the processed metrological data set, a metrological variance, recalibrate the asset data model and return to step (a); and
d) upon determining no metrological variance, report the metrological data set and the asset data model to at least one report recipient.
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Accused Products
Abstract
A computer-implemented system includes a plurality of metrological interface devices. Each metrological interface device is in communication with a metrological sensing device configured to detect metrological data from a physical asset. The computer-implemented system also includes a portable computing device. The portable computing device is configured to a) receive a metrological data set, the metrological data set substantially representing data associated with the physical asset at a point in time, b) process the metrological data set and an asset data model into a processed metrological data set, c) upon determining, based on the processed metrological data set, a metrological variance, recalibrating the asset data model and returning to step (a), and d) upon determining no metrological variance, reporting the metrological data set and the asset data model to at least one report recipient.
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Citations
25 Claims
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1. A computer-implemented system comprising:
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a plurality of metrological interface devices, each said metrological interface device comprising a printed circuit board (PCB) comprising at least one metrological sensor communication interface, and at least one first wireless communication interface, wherein each said metrological interface device is in communication with a metrological sensing device via said metrological sensor communication interface, wherein each metrological sensing device is configured to detect metrological data from a physical asset, each said metrological interface device is configured to receive the metrological data from the metrological sensing device; and a portable computing device, said portable computing device comprising a memory device, a processor coupled to said memory device, and further comprising a second wireless communication interface coupled to said memory device and to said processor, wherein said second wireless communication interface is configured to communicate with said plurality of metrological interface devices via said first wireless communication interface, said portable computing device configured to; a) receive a metrological data set that substantially represents data associated with the physical asset at a point in time; b) process, by said processor, the metrological data set and an asset data model into a processed metrological data set that substantially represents a model of the physical asset associated with the metrological sensing device and further associated with said metrological interface device; c) upon determining, based on the processed metrological data set, a metrological variance, recalibrate the asset data model and return to step (a); and d) upon determining no metrological variance, report the metrological data set and the asset data model to at least one report recipient. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A computer-based method performed by a portable computing device, the portable computing device including a memory device, a processor coupled to the memory device, and further including a second wireless communication interface coupled to the memory device and to the processor, wherein the second wireless communication interface is configured to communicate with a plurality of metrological interface devices, the plurality of metrological interface devices in communication with a plurality of metrological sensing devices, the metrological sensing devices configured to detect metrological data from a physical asset, the method comprising:
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a) receiving a metrological data set, the metrological data set substantially representing data associated with the physical asset at a point in time; b) processing the metrological data set and an asset data model into a processed metrological data set, the asset data model substantially representing a model of the physical asset associated with the metrological sensing device and further associated with the metrological interface device; c) upon determining, based on the processed metrological data set, a metrological variance, recalibrating the asset data model and returning to step (a); and d) upon determining no metrological variance, reporting the metrological data set and the asset data model to at least one report recipient. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17, 18)
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19. A computer-readable storage device, having processor-executable instructions embodied thereon, wherein a portable computing device includes at least one processor and a memory device coupled to the processor, the portable computing device further including a second wireless communication interface coupled to the memory device and to the processor, wherein the second wireless communication interface is configured to communicate with a plurality of metrological interface devices, the plurality of metrological interface devices in communication with a plurality of metrological sensing devices, the metrological sensing devices configured to detect metrological data from a physical asset, the processor-executable instructions cause the portable computing device to:
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a) receive a metrological data set, the metrological data set substantially representing data associated with the physical asset at a point in time; b) process, by the processor, the metrological data set and an asset data model into a processed metrological data set, the asset data model substantially representing a model of the physical asset associated with the metrological sensing device and further associated with the metrological interface device; c) upon determining, based on the processed metrological data set, a metrological variance, recalibrate the asset data model and returning to step (a); and d) upon determining no metrological variance, report the metrological data set and the asset data model to at least one report recipient. - View Dependent Claims (20, 21, 22, 23, 24, 25)
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Specification