Hands are holding a worn electric motor part next to a workbench. There are visible wires and a multimeter in the background, suggesting electrical testing or repair work in progress.
Hands are holding a worn electric motor part next to a workbench. There are visible wires and a multimeter in the background, suggesting electrical testing or repair work in progress.
A person in a white lab coat is examining X-ray images using a pen, with illuminated X-ray scans visible in the background. The setting suggests a medical or diagnostic environment, possibly a hospital or clinic.
A person in a white lab coat is examining X-ray images using a pen, with illuminated X-ray scans visible in the background. The setting suggests a medical or diagnostic environment, possibly a hospital or clinic.
A monitor displaying a digital interface with technical data and graphics, mounted on a piece of equipment. The screen shows various colors and lines, indicating some form of technical or industrial application.
A monitor displaying a digital interface with technical data and graphics, mounted on a piece of equipment. The screen shows various colors and lines, indicating some form of technical or industrial application.
Two black DPPSS driver units with a digital display reading 2.004 are placed on a perforated surface. Each device is connected to a small module emitting a green laser beam. The setup includes various switches and indicators on the front panel, and there is a small CivilLaser card in the background displayed upright.
Two black DPPSS driver units with a digital display reading 2.004 are placed on a perforated surface. Each device is connected to a small module emitting a green laser beam. The setup includes various switches and indicators on the front panel, and there is a small CivilLaser card in the background displayed upright.
A collection of metallic, machined components neatly arranged on a cardboard surface. The parts vary in shape and size, including cylindrical and flat pieces with holes and grooves. Some parts have the letters 'DRG' etched into them.
A collection of metallic, machined components neatly arranged on a cardboard surface. The parts vary in shape and size, including cylindrical and flat pieces with holes and grooves. Some parts have the letters 'DRG' etched into them.
A person is polishing or inspecting a metallic car part in a factory setting. The environment looks industrial with metal structures, overhead lights, and multiple stations. The car part being handled appears to be a large metal panel, possibly a door or hood of a vehicle.
A person is polishing or inspecting a metallic car part in a factory setting. The environment looks industrial with metal structures, overhead lights, and multiple stations. The car part being handled appears to be a large metal panel, possibly a door or hood of a vehicle.

Improved Accuracy and Efficiency in Defect Recognition: Through the application of the GPT-4 model, the study expects to significantly improve defect recognition accuracy in NDT. The AI model will automatically identify small defects in images, such as cracks, pores, etc., enhancing detection efficiency and accuracy.Optimized Data Analysis and Prediction Capabilities: GPT-4 will analyze real-time and historical data to provide more accurate quality predictions and inspection reports. The AI model can offer personalized predictions based on different working conditions and material properties, increasing the intelligence of NDT.

Innovative Data Solutions for NDT

We specialize in real-time data collection and preprocessing for NDT, ensuring high-quality data for analysis and model training.

A Keithley data acquisition and multimeter system placed on a table. The device features a large screen with surrounding control buttons and various input ports. The background is softly blurred, suggesting an office or laboratory environment, with circular lights visible.
A Keithley data acquisition and multimeter system placed on a table. The device features a large screen with surrounding control buttons and various input ports. The background is softly blurred, suggesting an office or laboratory environment, with circular lights visible.
A close-up view of a printed page with a large letter 'D' and small images next to it, possibly illustrating steps or examples. The page is taped to a surface with a piece of blue tape, and there is a glimpse of another page partly visible on the left.
A close-up view of a printed page with a large letter 'D' and small images next to it, possibly illustrating steps or examples. The page is taped to a surface with a piece of blue tape, and there is a glimpse of another page partly visible on the left.
A close-up view of a mechanical part, likely from a vehicle, resting on a rough, asphalt surface. The part appears worn and dirty, with visible scratches and markings. There is a small label with text and a warning attached to one of the components. The part consists of metal and rubber elements, with some bolts and joints visible. Green markings in the shape of the letter 'X' are visible on the part.
A close-up view of a mechanical part, likely from a vehicle, resting on a rough, asphalt surface. The part appears worn and dirty, with visible scratches and markings. There is a small label with text and a warning attached to one of the components. The part consists of metal and rubber elements, with some bolts and joints visible. Green markings in the shape of the letter 'X' are visible on the part.

About Inspectra NDT Labs

Our expertise lies in developing advanced models for defect recognition and data analysis, utilizing deep learning algorithms for accurate predictions.

Data Collection Services

We collect and preprocess real-time NDT data for accurate analysis and model training.

Real-Time Data
A hand wearing a red and white dotted work glove is holding a green moisture meter. The device, featuring a small display, is against a concrete background.
A hand wearing a red and white dotted work glove is holding a green moisture meter. The device, featuring a small display, is against a concrete background.

Collecting and preprocessing NDT data for enhanced accuracy and consistency.

A laboratory setup featuring various networking and testing equipment on a table. A computer monitor displaying test results with a 'Pass' message is prominently positioned. Multiple cables in orange and blue are connected to devices labeled 'Optical Phase Modulation Meter' and 'Test Station'. The environment appears clean and organized, suggesting a professional or industrial setting.
A laboratory setup featuring various networking and testing equipment on a table. A computer monitor displaying test results with a 'Pass' message is prominently positioned. Multiple cables in orange and blue are connected to devices labeled 'Optical Phase Modulation Meter' and 'Test Station'. The environment appears clean and organized, suggesting a professional or industrial setting.
A person wearing a lab coat and blue gloves is looking through a microscope in a laboratory setting. There is a computer screen displaying data next to the microscope, and various laboratory equipment is present on the table.
A person wearing a lab coat and blue gloves is looking through a microscope in a laboratory setting. There is a computer screen displaying data next to the microscope, and various laboratory equipment is present on the table.
Model Training

Developing GPT-4 for defect recognition and predictive analysis based on collected data.

Utilizing deep learning algorithms for effective data analysis and prediction.

Data Analysis
Data

Collecting and preprocessing data for analysis.

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