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In this work, we propose a method that detects and tracks the tip of tools used in microsurgical training. This method can be used to provide valuable metrics regarding the surgeon's hand movement. It can benefit the training of surgeons, given the steep learning curve in microsurgery. Unlike past research, our tool tracking algorithm does not rely on color based measurements. Thus, it can be used...
Recent advances in smart sensor technology and computer vision techniques have made the tracking of unmarked human hand and finger movements possible with high accuracy and at sampling rates of over 120 Hz. However, these new sensors also present challenges for real-time gesture recognition due to the frequent occlusion of fingers by other parts of the hand. We present a novel multisensor technique...
Real-time control of visual display systems via mid-air hand gestures offers many advantages over traditional interaction modalities. In medicine, for example, it allows a practitioner to adjust display values, e.g. contrast or zoom, on a medical visualization interface without the need to re-sterilize the interface. However, when users are holding a small tool (such as a pen, surgical needle, or...
We propose a graphical model for a decentralized, simultaneous detection and tracking algorithm for efficient localization of hands from a sequence in color and range images. We deduce the location of key-points using a Bayesian framework. We use anthropomorphic constraints for modelling body part articulation. Furthermore, our algorithm reasons about occlusion and preserves data association to deal...
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