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Mashup Score: 0How to use the Blood Oxygen app on your Apple Watch - 2 year(s) ago
Discover how to use your Apple Watch’s SpO2 sensor
Source: TechRadarCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 0How to Use the Built-in Heart Rate App on Your Apple Watch - 3 year(s) ago
Learn how to use the Heart Rate app on your Apple Watch to keep track of your resting, walking, and active heart rate.
Source: MUOCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 0
The sensor was designed to be used in conjunction with a corresponding app.
Source: MobiHealthNewsCategories: Healthcare Professionals, Latest HeadlinesTweet
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Mashup Score: 2
The mHealth wearable market is taking a new interest in sensor-embedded clothing, which gives providers the opportunity to track movement and biometrics through a popular form factor.
Source: mHealthIntelligenceCategories: Healthcare Professionals, Latest HeadlinesTweet
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Mashup Score: 36
Human skin can sense subtle changes of both normal and shear forces (i.e., self-decoupled) and perceive stimuli with finer resolution than the average spacing between mechanoreceptors (i.e., super-resolved). By contrast, existing tactile sensors for robotic applications are inferior, lacking accurate force decoupling and proper spatial resolution at the same time. Here, we present a soft tactile…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 62
Human skin can sense subtle changes of both normal and shear forces (i.e., self-decoupled) and perceive stimuli with finer resolution than the average spacing between mechanoreceptors (i.e., super-resolved). By contrast, existing tactile sensors for robotic applications are inferior, lacking accurate force decoupling and proper spatial resolution at the same time. Here, we present a soft tactile…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 1
Human skin can sense subtle changes of both normal and shear forces (i.e., self-decoupled) and perceive stimuli with finer resolution than the average spacing between mechanoreceptors (i.e., super-resolved). By contrast, existing tactile sensors for robotic applications are inferior, lacking accurate force decoupling and proper spatial resolution at the same time. Here, we present a soft tactile…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet-
This soft #sensor designed by @CityUHongKong, @cuhksz researchers accurately detects where and how it’s being touched. It was able to achieve challenging #robotics tasks, including reliably grasping fragile objects and threading a needle via teleoperation: https://t.co/WQ6yGpmC81 https://t.co/C7JvUvZvw8
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Mashup Score: 5
Human skin can sense subtle changes of both normal and shear forces (i.e., self-decoupled) and perceive stimuli with finer resolution than the average spacing between mechanoreceptors (i.e., super-resolved). By contrast, existing tactile sensors for robotic applications are inferior, lacking accurate force decoupling and proper spatial resolution at the same time. Here, we present a soft tactile…
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 2
The startup formerly known as Heart Health Intelligence is undergoing the FDA clearance process for its Heart Seat device.
Source: MobiHealthNewsCategories: Future of Medicine, Latest HeadlinesTweet
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Mashup Score: 10
Soft sensors have been playing a crucial role in detecting different types of physical stimuli to part or the entire body of a robot, analogous to mechanoreceptors or proprioceptors in biology. Most of the currently available soft sensors with compact form factors can detect only a single deformation mode at a time due to the limitation in combining multiple sensing mechanisms in a limited space….
Source: Science RoboticsCategories: Future of Medicine, Latest HeadlinesTweet-
A new soft #sensor is capable of sensing the multiple ways it’s deformed when in contact with an object. To make this sensor, @SNUnow researchers packaged optical, microfluidic, and piezoresistive pressure sensors into a single elastomer body: https://t.co/jDfLECR5ga @SciRobotics https://t.co/vHbcq4Cfgv
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How to use the Blood Oxygen app on your Apple Watch via @techradar https://t.co/M6GgKEwFfg #bloodO2 #pulseox #sensor #krystalklear #pulmonaryapps https://t.co/vD6eIi8nC7