Alexander Hermanski
Papers
2
Total Citations
7
H-Index
2
About
Alexander Hermanski is a specialist in machine vision and 3D sensing, with a focused expertise in Time-of-Flight (ToF) camera technology. His research centers on enhancing the accuracy and real-time processing capabilities of 3D matrix cameras, particularly Photonic Mixer Devices (PMD), for industrial and robotic applications. Hermanski’s major contribution is the development of systematic distance deviation error compensation methods for ToF cameras operating in the close-up range—a critical advancement for precision tasks in automated manufacturing and inspection. His most cited work, “Systematic distance deviation error compensation for a ToF-camera in the close-up range” (2012, 5 citations), addresses a key limitation of ToF sensors by correcting measurement errors that arise at short distances. Complementing this, his paper on “Real-Time Processing of 3D-TOF Data in Machine Vision Applications” (2012, 2 citations) demonstrates how to integrate these sensors into high-speed production lines. Though his citation counts are modest, Hermanski’s work is foundational for practitioners seeking to deploy ToF cameras in real-world, close-range machine vision systems, making him a notable contributor to the practical advancement of 3D sensing technology.
Research Focus
Key Achievements
Top Papers
- 1
- 2Real-Time Processing of 3D-TOF Data in Machine Vision Applications2 citations · 2012