Tacle

About Tacle

Tacle designs and manufactures advanced robotic hands with tactile sensing capabilities for research and industrial applications. They also develop physical exercise assistance devices, providing solutions for both robotics and human movement support.

```xml <problem> Robotic manipulation of delicate or irregularly shaped objects, particularly in food handling and manufacturing, is challenging due to the limitations of traditional grippers that lack sufficient tactile feedback. Existing robotic systems often struggle to apply the appropriate grasping force, leading to damage, slippage, or inefficient handling. The complexity of human touch, involving multimodal sensory input, makes it difficult to replicate artificially, hindering the automation of tasks requiring fine motor skills and adaptability. </problem> <solution> Tacle designs and manufactures vision-based tactile sensors and robotic hand systems that enable robots to "feel" and handle objects with greater precision and dexterity. Their sensors utilize digital cameras and soft, elastic contact surfaces to mimic the sensitivity of human skin, capturing detailed information about pressure, texture, and slippage. This data is then used to control the robot's grip force and movement in real-time, allowing it to manipulate fragile items without causing damage. Tacle's technology facilitates the automation of tasks that require a delicate touch, such as handling food products, assembling intricate components, and performing complex manipulations in research and industrial settings. </solution> <features> - Vision-based tactile sensors that use digital cameras and elastic material to detect contact force, slippage, and object shape. - Robot grippers with integrated tactile sensors for precise force control and adaptive grasping. - Algorithms for estimating the "stickiness" (adhesion rate) between the sensor and the object surface, enabling secure handling of slippery items. - Technology to handle fragile objects, such as sushi, without crushing them. - Research and development focused on computerizing tactile tacit knowledge for improved robotic manipulation. - Academic publications and patents related to tactile sensing and robotics. </features> <target_audience> Tacle's primary customers include robotics researchers, industrial automation companies, and food processing businesses seeking advanced tactile sensing and robotic manipulation solutions. </target_audience> ```

What does Tacle do?

Tacle designs and manufactures advanced robotic hands with tactile sensing capabilities for research and industrial applications. They also develop physical exercise assistance devices, providing solutions for both robotics and human movement support.

Where is Tacle located?

Tacle is based in Nagoya, Japan.

When was Tacle founded?

Tacle was founded in 2022.

Location
Nagoya, Japan
Founded
2022
0
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Tacle

AI-Generated Company Overview (experimental) – could contain errors

Executive Summary

Tacle designs and manufactures advanced robotic hands with tactile sensing capabilities for research and industrial applications. They also develop physical exercise assistance devices, providing solutions for both robotics and human movement support.

tacle-co.com
Founded 2022Nagoya, Japan

Funding

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Company Description

Problem

Robotic manipulation of delicate or irregularly shaped objects, particularly in food handling and manufacturing, is challenging due to the limitations of traditional grippers that lack sufficient tactile feedback. Existing robotic systems often struggle to apply the appropriate grasping force, leading to damage, slippage, or inefficient handling. The complexity of human touch, involving multimodal sensory input, makes it difficult to replicate artificially, hindering the automation of tasks requiring fine motor skills and adaptability.

Solution

Tacle designs and manufactures vision-based tactile sensors and robotic hand systems that enable robots to "feel" and handle objects with greater precision and dexterity. Their sensors utilize digital cameras and soft, elastic contact surfaces to mimic the sensitivity of human skin, capturing detailed information about pressure, texture, and slippage. This data is then used to control the robot's grip force and movement in real-time, allowing it to manipulate fragile items without causing damage. Tacle's technology facilitates the automation of tasks that require a delicate touch, such as handling food products, assembling intricate components, and performing complex manipulations in research and industrial settings.

Features

Vision-based tactile sensors that use digital cameras and elastic material to detect contact force, slippage, and object shape.

Robot grippers with integrated tactile sensors for precise force control and adaptive grasping.

Algorithms for estimating the "stickiness" (adhesion rate) between the sensor and the object surface, enabling secure handling of slippery items.

Technology to handle fragile objects, such as sushi, without crushing them.

Research and development focused on computerizing tactile tacit knowledge for improved robotic manipulation.

Academic publications and patents related to tactile sensing and robotics.

Target Audience

Tacle's primary customers include robotics researchers, industrial automation companies, and food processing businesses seeking advanced tactile sensing and robotic manipulation solutions.