Wigger, BenediktBenediktWiggerMeissner, ThomasThomasMeissnerFörste, AlexanderAlexanderFörsteJetter, VolkerVolkerJetterZimmermann, AndréAndréZimmermann2022-03-052022-03-052018https://publica.fraunhofer.de/handle/publica/25235910.1038/s41598-018-22876-8A Physical Unclonable Function uses random and inherent properties of a physical entity and can be used to uniquely identify components e.g., for anti-counterfeiting purposes. In this work we demonstrate that the surface patterns of injection moulded plastic components themselves are inherently unique and hence can be used as a PUF for reliable and secure identification. We further demonstrate that these unique surface patterns are easily accessible since they can be photographed with a simple camera set-up. This is exemplarily demonstrated for two different plastic materials on an overall of 200 injection moulded components. A set of brief experiments further examines the PUF's robustness towards real life conditions. This approach might be useful for secure identification and authentication of components or a label-free tracking.enphysical unclonable functionPUFlabel-free trackingcomponent identification621journal article