Thursday, June 6, 2019

Creation Moment 6/6/2019 - Now Grasp This.....

Even our Human Grasp is a Technological Complex Mystery...
Thank you for making me so wonderfully complex!
Psalm 139:14 NLT
And immediately Jesus stretched forth his hand, and caught him,
and said unto him, O thou of little faith, wherefore didst thou doubt?
Mark 14:31

"Humans can feel, weigh and grasp diverse objects, and
simultaneously infer their material properties while applying the right amount of force—a challenging set of tasks for a modern robot.

Mechanoreceptor networks that provide sensory feedback and enable the dexterity of the human grasp remain difficult to replicate in robots.

Whereas computer-vision-based robot grasping strategies have progressed substantially with the abundance of visual data and emerging machine-learning tools, there are as yet no equivalent sensing platforms and large-scale datasets with which to probe the use of the tactile information that humans rely on when grasping objects.

Studying the mechanics of how humans grasp objects will complement vision-based robotic object handling. Importantly, the inability to record and analyse tactile signals currently limits our understanding of the role of tactile information in the human grasp itself—for example, how tactile maps are used to identify objects and infer their properties is unknown.

Here we use a scalable tactile glove and deep convolutional neural networks to show that sensors uniformly distributed over the hand can be used to identify individual objects, estimate their weight and explore the typical tactile patterns that emerge while grasping objects.


The sensor array (548 sensors) is assembled on a knitted glove, and consists of a piezoresistive film connected by a network of conductive thread electrodes that are passively probed. Using a low-cost (about US$10) scalable tactile glove sensor array, we record a large-scale tactile dataset with 135,000 frames, each covering the full hand, while interacting with 26 different objects.

This set of interactions with different objects reveals the key correspondences between different regions of a human hand while it is manipulating objects. Insights from the tactile signatures of the human grasp—through the lens of an artificial analogue of the natural mechanoreceptor network—can thus aid the future design of prosthetics, robot grasping tools and human–robot interactions."
Nature