Christian Sax scite author profile

The present work aims at the improvement of particle detection in DPTV by means of a novel hybrid approach. Two deep learning approaches, namely Faster R-CNN and RetinaNet are compared to the performance of two benchmark conventional image processing algorithms for DPTV. For the development of a hybrid approach with improved performance, the different detection approaches are evaluated on synthetic and images from an actual DPTV experiment. First, the performance under the influence of noise, overlaps, seeding density and optical aberrations is discussed and consequently advantages of neural networks over conventional image processing algorithms for image processing in DPTV are derived. Furthermore, current limitations of the application of neural networks for DPTV are pointed out and their origin is elaborated. It shows that neural networks have a better detection capability but suffer from low positional accuracy when locating particles. Finally, a novel Hybrid Approach is proposed, which uses a neural network for particle detection and passes the prediction onto a conventional refinement algorithm for better position accuracy. A third step is implemented to additionally eliminate false predictions by the network based on a subsequent rejection criterion. The novel approach improves the powerful detection performance of neural networks while maintaining the high position accuracy of conventional algorithms, combining the advantages of both approaches.

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Point-of-Treatment: Touchable E-nursing User Interface for Medical Emergencies

Sax

Lawrence

2009

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Christian Sax

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Tangible Information: Gestures for a Portable e-Nursing touch screen interface

Deep learning and hybrid approach for particle detection in defocusing particle tracking velocimetry

Point-of-Treatment: Touchable E-nursing User Interface for Medical Emergencies

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