What question did this study set out to answer?

The aim is to enhance real-time accuracy in industrial robots for machining using photogrammetry-based error compensation.

April 25, 2026Open Access

Real-Time Pose Correction of an Industrial Robot for Machining Using Photogrammetry

Key Points

The aim is to enhance real-time accuracy in industrial robots for machining using photogrammetry-based error compensation.
Developed photogrammetry-based calibration and positioning compensation methodologies.
Conducted accuracy validation against a laser tracker under industrial conditions that allowed for occlusions.
Implemented solutions to account for payload impact, waviness, and backlash.
Accuracy improved from ±0.685 to ±0.203 mm on average and from ±1.621 to ±0.498 mm at peak against ground truth.
Achieved average accuracy of ±0.534 to ±0.080 mm and peak accuracy from ±1.804 to ±0.456 mm under real operating conditions following ISO 9283 standard.

Abstract

A photogrammetry-based error compensation solution, comprising calibration, positioning compensation and accuracy validation methodologies, is presented to the aerospace sector, able to assist industrial robots in manufacturing new composite materials, offering versatility and reconfigurability at a lower cost than that resulting from the currently used milling machines. Against a ground truth measured by a laser tracker, it has boosted, in real time, the accuracy level from ±0.685 to ±0.203 mm, on average, and from ±1.621 to ±0.498 mm at peak, following the ISO 9283 standard, and from ±0.534 to ±0.080 mm, on average, and from ±1.804 to ±0.456 mm at peak, with a real part in a large volume under industrial operating conditions, taking into account occlusions and showing robustness against the impact of the payload, the waviness, and the backlash.

Real-Time Pose Correction of an Industrial Robot for Machining Using Photogrammetry

Key Points

Abstract

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