METHODS, APPARATUS, AND SYSTEMS FOR ACQUIRING AN ENHANCED POSITIVE RESPONSE FOR UNDERGROUND FACILITY LOCATE AND MARKING OPERATIONS
1 Assignment
0 Petitions
Accused Products
Abstract
Multiple elements of information relating to a locate and marking operation are integrated so as to provide an enhanced positive response to one or more entities associated with requesting the locate and marking operation (e.g., an excavator, a home owner or property owner, other contractor). The locate and marking operation is performed by a locate technician in response to at least one locate request ticket by applying at least one physical locate mark on ground, pavement, or other surface to indicate a presence or an absence of at least one underground facility within a dig area, wherein at least a portion of the dig area is planned to be excavated or disturbed by an excavator during excavation activities.
1 Citation
30 Claims
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1. (canceled)
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2. A system for providing a positive response for a locate and marking operation performed by a locate technician in response to at least one locate request ticket generated by a one-call center, the system comprising:
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a data-enabled marking device used by the locate technician to dispense a marking material on ground, pavement, or other surface during the locate and marking operation so as to form a plurality of physical locate marks to indicate a presence or an absence of at least one underground facility in a dig area identified in the at least one locate request ticket, wherein at least a portion of the dig area is planned to be excavated or disturbed by an excavator during excavation activities, the data-enabled marking device comprising a location tracking system to provide location data identifying respective geographic locations of the plurality of physical locate marks formed by the dispensed marking material; and a locate personnel device used by the locate technician to document the locate and marking operation performed by the locate technician, the locate personnel device comprising; a display device; a communication interface; a memory to store processor-executable instructions to implement an electronic manifest (EM) application; and at least one processor communicatively coupled to the display device, the communication interface and the memory, wherein upon execution of the processor-executable instructions by the at least one processor, the at least one processor; A) controls the display device so as to display at least one digital geo-referenced image of a geographic area proximate to and including the dig area, the at least one digital geo-referenced image including geospatial metadata; B) controls the communication interface to read in the location data from the data-enabled marking device; C) implements the EM application to form, on the display device, an EM image of the locate and marking operation by; C1) processing the location data from the data-enabled marking device to render a graphical depiction of the locate and marking operation; and C2) superimposing on the at least one digital geo-referenced image the graphical depiction of the locate operation so as to form the EM image, wherein the graphical depiction includes a plurality of locate mark indicators corresponding to the plurality of physical locate marks; and D) controls the communication interface to electronically transmit, via a network to at least one other computing device, positive response information or a first link to a first website at which the positive response information is available, wherein the positive response information includes electronic data representing at least one of; locate mark information representing the plurality of locate mark indicators in the EM image; the digital geo-referenced image including the geospatial metadata; and the EM image, so as to facilitate rendering of the EM image by at least one of the one-call center and the excavator, wherein the EM image serves as at least a portion of the positive response for the locate and marking operation to reduce uncertainty relating to a completeness and/or a quality of performance of the locate and marking operation and reduce a risk of damage to the at least one underground facility during the excavation activities. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
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28. A system for providing a positive response for a locate and marking operation performed by a locate technician in response to at least one locate request ticket generated by a one-call center, the system comprising:
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a data-enabled marking device used by the locate technician to dispense a marking material on ground, pavement, or other surface during the locate and marking operation so as to form a plurality of physical locate marks to indicate a presence or an absence of at least one underground facility in a dig area identified in the at least one locate request ticket, wherein at least a portion of the dig area is planned to be excavated or disturbed by an excavator during excavation activities, the data-enabled marking device comprising; a location tracking system to provide location data identifying respective geographic locations of the plurality of physical locate marks formed by the dispensed marking material, the location tracking system comprising a global positioning system (GPS) receiver to provide the location data as a first plurality of geographic coordinates identifying the respective geographic locations of the plurality of physical locate marks formed by the dispensed marking material, wherein the location tracking system determines the location data within less than approximately thirty centimeters of at least some of the respective geographic locations of the plurality of physical locate marks; and a locate personnel device used by the locate technician to document the locate and marking operation performed by the locate technician, the locate personnel device comprising; a display device; a communication interface; a memory to store processor-executable instructions to implement an electronic manifest (EM) application; and at least one processor communicatively coupled to the display device, the communication interface and the memory, wherein upon execution of the processor-executable instructions by the at least one processor, the at least one processor; A) controls the display device so as to display at least one digital geo-referenced image of a geographic area proximate to and including the dig area, the at least one digital geo-referenced image including geospatial metadata and having an image resolution of less than or equal to thirty centimeters per pixel; B) controls the communication interface to read in the location data from the data-enabled marking device; C) implements the EM application to form, on the display device, an EM image of the locate and marking operation by; C1) processing the location data from the data-enabled marking device to render a graphical depiction of the locate and marking operation; and C2) superimposing on the at least one digital geo-referenced image, based on the processed location data from the data-enabled marking device, the graphical depiction of the locate operation so as to form the EM image, wherein the graphical depiction includes a plurality of geo-referenced locate mark indicators corresponding to the plurality of physical locate marks; and D) controls the communication interface to electronically transmit, via a network to at least one other computing device, positive response information or a first link to a first website at which the positive response information is available, wherein the positive response information includes electronic data representing at least one of; locate mark information representing the plurality of locate mark indicators in the EM image, wherein the locate mark information is based on the first plurality of geographic coordinates from the GPS receiver identifying the respective geographic locations of the plurality of physical locate marks formed by the dispensed marking material; the digital geo-referenced image including the geospatial metadata; and the EM image, so as to facilitate rendering of the EM image by at least one of the one-call center and the excavator, wherein the EM image serves as at least a portion of the positive response for the locate and marking operation to reduce uncertainty relating to a completeness and/or a quality of performance of the locate and marking operation and reduce a risk of damage to the at least one underground facility during the excavation activities.
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29. A system for providing a positive response for a locate and marking operation performed by a locate technician in response to at least one locate request, the system comprising a central server including:
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a central server memory storing; central server processor-executable instructions including a positive response application; and a data store to store; a first locate request including a first virtual white line (VWL) image; and a first completed ticket including a first electronic manifest (EM) image; a central server communication interface to couple the central server to a network; and a central server processor, communicatively coupled to the central server memory and the central server communication interface, wherein upon execution of the processor-executable instructions by the central server processor, the central server processor; A) controls the central server communication interface to receive via the network, from a one-call center or an excavator device implementing a virtual white line (VWL) application, the first locate request including a first VWL image, the first VWL image including at least one geo-coded dig area indicator to provide an indication of a dig area at which the locate and marking operation is performed by the locate technician, wherein at least a portion of the dig area is planned to be excavated or disturbed by an excavator during excavation activities; B) controls the central server memory to store the first locate request in the data store; C) controls the central server communication interface to receive via the network, from a data-enabled marking device, locate data regarding the locate and marking operation, wherein; the data-enabled marking device is used by the locate technician to dispense a marking material on ground, pavement, or other surface during the locate and marking operation so as to form a plurality of physical locate marks to indicate a presence or an absence of at least one underground facility in the dig area identified in the first locate request; the data-enabled marking device comprises a location tracking system to provide location data identifying respective geographic locations of the plurality of physical locate marks formed by the dispensed marking material; and the data-enabled marking device further comprises at least one of a marking material detection mechanism, a temperature sensor, a humidity sensor, a light sensor, a compass, an inclinometer, an accelerometer, a digital recorder, and an audio recorder to provide at least some of the locate data to the central server regarding the locate and marking operation; D) controls the central server communication interface to receive via the network, from a locate personnel device implementing an electronic manifest (EM) application, a first completed ticket including a first EM image, wherein the first EM image includes; at least one digital geo-referenced image of a geographic area proximate to and including the dig area, the at least one digital geo-referenced image including geospatial metadata; and a graphical depiction of the locate and marking operation superimposed on the at least one digital geo-referenced image and including a plurality of locate mark indicators corresponding to the plurality of physical locate marks, wherein the plurality of locate mark indicators are based on the location data provided by the location tracking system of the data-enabled marking device; E) controls the central server memory to store the first completed ticket in the data store; F) implements the positive response application to generate the positive response for the locate and marking operation, wherein the positive response reduces uncertainty relating to a completeness and/or a quality of performance of the locate and marking operation and reduces a risk of damage to the at least one underground facility during the excavation activities, wherein the positive response includes; first information from the first VWL image in the first locate request; second information from the first EM image in the first completed ticket; and third information based on the locate data received from the data-enabled marking device; and G) controls the central server communication interface to transmit to the one-call center or the excavator device, via the network, the positive response for the locate and marking operation, or a link to a website at which the positive response is available. - View Dependent Claims (30)
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Specification