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公开(公告)号:US12019159B2
公开(公告)日:2024-06-25
申请号:US17569685
申请日:2022-01-06
Applicant: 3D at Depth, Inc.
Inventor: Carl W. Embry , Brett Nickerson , Neil Manning
IPC: G01K13/02 , G01M3/04 , G01M3/20 , G01M3/24 , G01M3/38 , G01S17/50 , G01S17/89 , G01V8/00 , G01V8/10
CPC classification number: G01S17/89 , G01K13/02 , G01M3/04 , G01M3/20 , G01M3/24 , G01M3/38 , G01V8/00 , G01V8/10 , G01K13/026 , G01S17/50
Abstract: Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.
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公开(公告)号:US20190219701A1
公开(公告)日:2019-07-18
申请号:US16365848
申请日:2019-03-27
Applicant: 3D at Depth, Inc.
Inventor: Carl W. Embry , Mark Hardy , Brett Nickerson , Neil Manning
Abstract: Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.
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Patent Agency Ranking
公开(公告)号:US20180321385A1
公开(公告)日:2018-11-08
申请号:US15971108
申请日:2018-05-04
Applicant: 3D at Depth, Inc.
Inventor: Carl W. Embry , Mark Hardy , Brett Nickerson , Neil Manning
Abstract: Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.
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公开(公告)号:US20240319370A1
公开(公告)日:2024-09-26
申请号:US18680060
申请日:2024-05-31
Applicant: 3D at Depth, Inc.
Inventor: Carl W. Embry , Brett Nickerson , Neil Manning
IPC: G01S17/89 , G01K13/02 , G01M3/04 , G01M3/20 , G01M3/24 , G01M3/38 , G01S17/50 , G01V8/00 , G01V8/10
CPC classification number: G01S17/89 , G01K13/02 , G01M3/04 , G01M3/20 , G01M3/24 , G01M3/38 , G01V8/00 , G01V8/10 , G01K13/026 , G01S17/50
Abstract: Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.
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公开(公告)号:US11249193B2
公开(公告)日:2022-02-15
申请号:US15971108
申请日:2018-05-04
Applicant: 3D at Depth, Inc.
Inventor: Carl W. Embry , Mark Hardy , Brett Nickerson , Neil Manning
IPC: G01S17/89 , G01V8/10 , G01M3/38 , G01V8/00 , G01M3/04 , G01S17/50 , G01M3/20 , G01M3/24 , G01K13/02
Abstract: Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.
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公开(公告)号:US20220128693A1
公开(公告)日:2022-04-28
申请号:US17569685
申请日:2022-01-06
Applicant: 3D at Depth, Inc.
Inventor: Carl W. Embry , Mark Hardy , Brett Nickerson , Neil Manning
Abstract: Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.
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公开(公告)号:US10698112B2
公开(公告)日:2020-06-30
申请号:US16365848
申请日:2019-03-27
Applicant: 3D at Depth, Inc.
Inventor: Carl W. Embry , Mark Hardy , Brett Nickerson , Neil Manning
IPC: G01S17/89 , G01V8/10 , G01M3/20 , G01M3/24 , G01M3/38 , G01V8/00 , G01M3/04 , G01K13/02 , G01S17/50
Abstract: Systems and methods for monitoring underwater structures are provided. First and second sets of point cloud data that are obtained at different times are compared to determine whether the location of the underwater structure has changed. For detecting vibration, a series of range measurements taken along a line intersecting the underwater structure are compared to one another to determine an amplitude and frequency of any vibration present in the underwater structure. For detecting temperature, the ratio of different components of return signals obtained from a point in the water surrounding the underwater structure is measured to derive the temperature of the water. Leak detection can be performed by scanning areas around the underwater structure. Monitoring systems can include a primary receiver for range measurements, and first and second temperature channel receivers for temperature measurements.
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