Professor David Branson's Outputs (7)

Dynamic Capture Using a Traplike Soft Gripper With Stiffness Anisotropy (2022)
Journal Article
Yang, S., Zhou, Y., Walker, I. D., Yang, C., Branson, D. T., Song, Z., Dai, J. S., & Kang, R. (2023). Dynamic Capture Using a Traplike Soft Gripper With Stiffness Anisotropy. IEEE/ASME Transactions on Mechatronics, 28(3), 1337-1346. https://doi.org/10.1109/tmech.2022.3219108

Dynamic capture is a common skill that humans have practiced extensively but is a challenging task for robots in which sensing, planning, and actuation must be tightly coordinated to deal with targets of diverse shapes, sizes, and velocity. In partic... Read More about Dynamic Capture Using a Traplike Soft Gripper With Stiffness Anisotropy.

Trinocular vision system for pose determination (2022)
Presentation / Conference Contribution
Isa, M., Khanesar, M., Leach, R., Branson, D., & Piano, S. (2022, October). Trinocular vision system for pose determination. Presented at 37th Annual Meeting of the American Society for Precision Engineering, Bellevue, USA

Smart optical coordinate and surface metrology (2022)
Journal Article
Catalucci, S., Thompson, A., Eastwood, J., Zhang, Z. M., Branson, D. T., Leach, R., & Piano, S. (2022). Smart optical coordinate and surface metrology. Measurement Science and Technology, 34(1), Article 012001. https://doi.org/10.1088/1361-6501/ac9544

Manufacturing has recently experienced increased adoption of optimised and fast solutions for checking product quality during fabrication, allowing for manufacturing times and costs to be significantly reduced. Due to the integration of machine learn... Read More about Smart optical coordinate and surface metrology.

Improving the Positional Accuracy of Industrial Robots by Forward Kinematic Calibration using Laser Tracker System (2022)
Presentation / Conference Contribution
Khanesar, M. A., Piano, S., & Branson, D. (2022, July). Improving the Positional Accuracy of Industrial Robots by Forward Kinematic Calibration using Laser Tracker System. Presented at 19th International Conference on Informatics in Control, Automation and Robotics (ICINCO 2022), Lisbon, Portugal

Precision object handling and manipulation require precise positioning of industrial robots. The common practice to perform end effector positioning is to use joint angle readings and industrial robot forward kinematics. However, forward kinematics o... Read More about Improving the Positional Accuracy of Industrial Robots by Forward Kinematic Calibration using Laser Tracker System.

Frequency scanning interferometry for accurate robot position measurement (2022)
Presentation / Conference Contribution
Isa, M. A., Khanesar, M. A., Leach, R., Branson, D., & Piano, S. (2022, May). Frequency scanning interferometry for accurate robot position measurement. Presented at 22nd International Conference & Exhibition, Geneva, Switzerland

This paper presents a frequency scanning interferometry (FSI) shortwave infrared (IR) setup developed for position and orientation measurement of industrial robots. Within contemporary and future industrial frameworks, robots—in particular collaborat... Read More about Frequency scanning interferometry for accurate robot position measurement.

Optical metrology for digital manufacturing: a review (2022)
Journal Article
Catalucci, S., Thompson, A., Piano, S., Branson, D. T., & Leach, R. (2022). Optical metrology for digital manufacturing: a review. International Journal of Advanced Manufacturing Technology, 120(7-8), 4271-4290. https://doi.org/10.1007/s00170-022-09084-5

With the increasing adoption of Industry 4.0, optical metrology has experienced a significant boom in its implementation, as an ever-increasing number of manufacturing processes are overhauled for in-process measurement and control. As such, optical... Read More about Optical metrology for digital manufacturing: a review.

Robust Sliding Mode Fuzzy Control of Industrial Robots using an Extended Kalman Filter Inverse Kinematic Solver (2022)
Journal Article
Khanesar, M. A., & Branson, D. (2022). Robust Sliding Mode Fuzzy Control of Industrial Robots using an Extended Kalman Filter Inverse Kinematic Solver. Energies, 15(5), Article 1876. https://doi.org/10.3390/en15051876

This paper presents a sliding mode fuzzy control approach for industrial robots at their static and near static speed (linear velocities less than 5 cm/s). The extended Kalman filter with its covariance resetting is used to translate the coordinates... Read More about Robust Sliding Mode Fuzzy Control of Industrial Robots using an Extended Kalman Filter Inverse Kinematic Solver.