2013 IEEE International Conference on Robotics and Automation 2013
DOI: 10.1109/icra.2013.6630697
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The DLR artificial skin step I: Uniting sensitivity and collision tolerance

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Cited by 39 publications
(23 citation statements)
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“…However, it cannot be denied that the closer robot and human are, the more safety issues would rise. In this reason, some researchers tried to design safetyoriented robot with compliant control [1], lightweight feature [2], artificial skin [3], or variable stiffness actuator (VSA) structure [4] to limit the potential injuries while unexpected collision occurs. Furthermore, due to the high cost of those extra apparatuses, lots of research tried to come up with how to avoid the obstacle collision beforehand, which is also 1 called contactless avoidance reaction, and it is also the safest way to tackle the safety issues.…”
Section: A Motivation and Related Workmentioning
confidence: 99%
“…However, it cannot be denied that the closer robot and human are, the more safety issues would rise. In this reason, some researchers tried to design safetyoriented robot with compliant control [1], lightweight feature [2], artificial skin [3], or variable stiffness actuator (VSA) structure [4] to limit the potential injuries while unexpected collision occurs. Furthermore, due to the high cost of those extra apparatuses, lots of research tried to come up with how to avoid the obstacle collision beforehand, which is also 1 called contactless avoidance reaction, and it is also the safest way to tackle the safety issues.…”
Section: A Motivation and Related Workmentioning
confidence: 99%
“…Over the past decade, tactile sensing devices have evolved from being located only on the fingertip to covering the full hand, even the whole body, of a humanoid robot. Many tactile sensors with various sensing principles and technologies have been developed, e.g., resistive (Kaltenbrunner et al 2013;Strohmayr et al 2013), capacitive (Schmitz et al 2011;Ulmen and Cutkosky 2010), optical (Ohmura et al 2006), piezoelectric (Dahiya et al 2009;Papakostas et al 2002), acoustic (Denei et al 2015;Hughes and Correll 2015) and, recently, organic bendable and stretchable (Lee et al 2016;Nawrocki et al 2016;Yogeswaran et al 2015), etc. However, in contrast to the rapid progress of tactile sensor advancement, considerably less attention has been given to research in tactile information processing and modelling (Kaboli et al 2015a).…”
Section: Motivationmentioning
confidence: 99%
“…Furthermore, distributed sensors that capture haptic signals over a wide area on the human body, e.g. the artificial skin presented in [11], increase the haptic data volume by multiples.…”
Section: A Motivation For Vibrotactile Texture Compressionmentioning
confidence: 99%