Multimodal Augmentation of Surfaces Using Conductive 3D Printing

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Stefanie Mueller is a PhD student at Patrick Baudisch
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
IEEE News - Short cycle degree in Software Development
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
3D Printing is About to Get Even More 'Conductive' with Graphene 3D Lab Doubling Production Capacity
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Augmented tactile-perception and haptic-feedback rings as human-machine interfaces aiming for immersive interactions
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Science Cast
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Proprioception and Exteroception of a Soft Robotic Finger Using Neuromorphic Vision-Based Sensing
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
A Review on Printed Electronics with Digital 3D Printing: Fabrication Techniques, Materials, Challenges and Future Opportunities
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Additively manufactured nano-mechanical energy harvesting systems: advancements, potential applications, challenges and future perspectives, Nano Convergence
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Morphological Engineering of Sensing Materials for Flexible Pressure Sensors and Artificial Intelligence Applications
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Micromachines, Free Full-Text
Multimodal Augmentation of Surfaces Using Conductive 3D Printing
Epidermal piezoresistive structure with deep learning-assisted data translation
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