Vincent Cunningham
28Patents
4h-index
27Co-inventors
55Inventor score
Filing activity: Aug 26, 2016 → Apr 21, 2021
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US10871444B2 | Inspection and failure detection of corrosion under fireproofing insulation using a hybrid sensory system | Physics | 36 | Active |
| US10643324B2 | Machine learning system and data fusion for optimization of deployment conditions for detection of corrosion under insulation | Physics | 7 | Active |
| US10533937B1 | Cloud-based machine learning system and data fusion for the prediction and detection of corrosion under insulation | Physics | 5 | Active |
| US10317388B2 | Characterizing lubricant oil degradation using fluorescence signals | Physics | 4 | Active |
| US10060899B2 | Characterizing lubricant oil degradation using fluorescence signals | Physics | 3 | Active |
| US11386541B2 | System and method for cyber-physical inspection and monitoring of nonmetallic structures | Physics | 3 | Active |
| US10371633B2 | Determining a specific gravity of a sample | Physics | 2 | Active |
| US10458831B2 | System and method for acoustic container volume calibration | Physics | 1 | Active |
| US11112349B2 | Metal loss determinations based on thermography machine learning approach for insulated structures | Physics | 1 | Active |
| US10845306B2 | Determining composition of a sample | Physics | 1 | Active |
| US11460142B2 | Sensor network for subsurface impact protection system | Electricity | 1 | Active |
| US11162888B2 | Cloud-based machine learning system and data fusion for the prediction and detection of corrosion under insulation | Physics | 1 | Active |
| US10845307B2 | Determining composition of a sample | Physics | 1 | Active |
| US10281448B2 | Determining the deterioration of oils using fluorescence rise-time | Physics | 0 | Active |
| US10281401B2 | Opto-mechanical part for parabolic mirror fine rotation and on-axis linear positioning | Physics | 0 | Active |
| US11187661B2 | Detecting black powder levels in flow-lines | Physics | 0 | Active |
| US10048205B2 | Characterizing petroleum product contamination using fluorescence signal | Physics | 0 | Active |
| US10712269B2 | Optomechanical part for parabolic mirror fine rotation and on-axis linear positioning | Physics | 0 | Active |
| US11651278B2 | Pipeline sensor integration for product mapping | Physics | 0 | Active |
| US12259228B2 | Fiber optic sensor network for subsurface impact protection system | Physics | 0 | Active |
| US10132758B2 | Systems and methods for constructing and testing composite photonic structures | Physics | 0 | Active |
| US11255788B2 | Optomechanical part for parabolic mirror fine rotation and on-axis linear positioning | Physics | 0 | Active |
| US11662288B2 | Method for measuring API gravity of petroleum crude oils using angle-resolved fluorescence spectra | Physics | 0 | Active |
| US11099135B2 | Systems and methods for constructing and testing composite photonic structures | Physics | 0 | Active |
| US11480517B2 | Heat exchanger fouling determination using thermography combined with machine learning methods | Physics | 0 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.