Probing with Each Step: How a Walking Crab-like Robot Classifies Buried Cylinders in Sand with Hall-Effect Sensors

Grezmak, John; Daltorio, Kathryn A.

doi:10.3390/s24051579

Sensors

2024

DOI: 10.3390/s24051579

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Probing with Each Step: How a Walking Crab-like Robot Classifies Buried Cylinders in Sand with Hall-Effect Sensors

John Grezmak,

Kathryn A. Daltorio

Abstract: Shallow underwater environments around the world are contaminated with unexploded ordnances (UXOs). Current state-of-the-art methods for UXO detection and localization use remote sensing systems. Furthermore, human divers are often tasked with confirming UXO existence and retrieval which poses health and safety hazards. In this paper, we describe the application of a crab robot with leg-embedded Hall effect-based sensors to detect and distinguish between UXOs and non-magnetic objects partially buried in sand. … Show more

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Using a Small Hexapod Robot to Pick up Large Cylinders for Munitions Response

Gong,

Pan,

Daltorio

2024

Journal of Field Robotics

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In shallow water environments, traditional technologies face challenges in retrieving unexploded ordnance (UXO). We present an innovative and safe alternative robotic platform to replace traditional divers in this dangerous task. A waterproof 18‐DOF legged robot MR. Crab has been developed specifically for the purpose of locating and recovering UXO. Utilizing walking legs for both locomotion and manipulation, the robot demonstrates the capability to pick up inert UXO weighing at 2.78 kg (half of the robot's mass) with one pair of walking legs and 10.5 kg (184% of robot's mass) when utilizing all three pairs of legs. To enhance our understanding of gripping capacity, static analysis was conducted to predict the maximum weight of graspable UXO with respect to UXO radii, revealing that the weight of graspable UXO increases with its radius. A modified wave gait was developed to enable the robot to move while carrying a UXO with its middle pair of legs. For easier control, a user‐friendly GUI had been built for remote teleoperation, which also integrated two current sensors to assist human operators in determining the tightness of the UXO grip. Additionally, an automatic gripping algorithm was developed to efficiently place the robot in the optimal gripping position and grab the inert UXO. To validate its performance in real‐world environments, MR. Crab was tested at Lake Erie, demonstrating its ability to traverse the wave zone and retrieve a UXO.

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Using a Small Hexapod Robot to Pick up Large Cylinders for Munitions Response

Gong,

Pan,

Daltorio

2024

Journal of Field Robotics

View full text Add to dashboard Cite

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Probing with Each Step: How a Walking Crab-like Robot Classifies Buried Cylinders in Sand with Hall-Effect Sensors

Cited by 1 publication

References 38 publications

Using a Small Hexapod Robot to Pick up Large Cylinders for Munitions Response

Using a Small Hexapod Robot to Pick up Large Cylinders for Munitions Response

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