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Tactile and Chemical Senses01:27

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Tactile senses encompass touch, temperature, and pain, each mediated by specific receptors. Touch receptors detect mechanical energy or pressure against the skin. Sensory fibers from these receptors enter the spinal cord and relay information to the brain stem. Here, most fibers cross over to the opposite side of the brain. The touch information then moves to the thalamus, which projects a map of the body's surface onto the somatosensory areas of the parietal lobes in the cerebral cortex.
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The somatosensory system relays sensory information from the skin, mucous membranes, limbs, and joints. Somatosensation is more familiarly known as the sense of touch. A typical somatosensory pathway includes three types of long neurons: primary, secondary, and tertiary. Primary neurons have cell bodies located near the spinal cord in groups of neurons called dorsal root ganglia. The sensory neurons of ganglia innervate designated areas of skin called dermatomes.
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Using 3D Convolutional Neural Networks for Tactile Object Recognition with Robotic Palpation.

Francisco Pastor1, Juan M Gandarias1, Alfonso J García-Cerezo1

  • 1Robotics and Mechatronics Group, Telerobotic and Interactive Systems Laboratory, University of Málaga, 29071 Málaga, Spain.

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Summary
This summary is machine-generated.

This study introduces a new tactile perception method using 3D neural networks for robots. This approach enhances object recognition by analyzing pressure variations during grasping, improving accuracy with less training data.

Keywords:
deep learningrobotic palpationtactile perceptionunderactuated grippers

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Area of Science:

  • Robotics
  • Artificial Intelligence
  • Sensor Technology

Background:

  • Robotic manipulation requires sophisticated perception systems.
  • Current tactile sensing methods often lack detailed information about object properties.
  • Active exploration is crucial for robots to gather comprehensive sensory data.

Purpose of the Study:

  • To present a novel active tactile perception method for robots.
  • To leverage 3D neural networks for enhanced object classification using tactile data.
  • To explore the utility of 3D tactile tensors derived from robotic palpation.

Main Methods:

  • Developed a robotic gripper with a high-resolution tactile sensor.
  • Implemented a haptic exploratory procedure involving robotic palpation and varying grasp forces.
  • Represented tactile information as 3D tactile tensors capturing pressure variations.
  • Utilized a 3D Convolutional Neural Network (3D CNN), termed 3D TactNet, for object classification.

Main Results:

  • The proposed method effectively captures both external shape and internal features of objects.
  • 3D TactNet demonstrated superior performance in object recognition compared to other methods.
  • The 3D CNN approach achieved higher recognition rates with reduced training data requirements.

Conclusions:

  • Active tactile perception using 3D neural networks offers a powerful approach for robotic object recognition.
  • The 3D tactile tensor representation effectively encodes rich information for tactile sensing.
  • This method advances robotic capabilities in understanding and interacting with objects through touch.