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Main Authors: Joyce, Calvin, Lim, Jason, Nguyen, Roger, Owens, Michael, Wickenhiser, Sara, Peiros, Elizabeth, Richter, Florian, Yip, Michael C.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2310.00184
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author Joyce, Calvin
Lim, Jason
Nguyen, Roger
Owens, Michael
Wickenhiser, Sara
Peiros, Elizabeth
Richter, Florian
Yip, Michael C.
author_facet Joyce, Calvin
Lim, Jason
Nguyen, Roger
Owens, Michael
Wickenhiser, Sara
Peiros, Elizabeth
Richter, Florian
Yip, Michael C.
contents Screw-based locomotion is a robust method of locomotion across a wide range of media including water, sand, and gravel. A challenge with screws is their significant number of impactful design parameters that affect locomotion performance. One crucial parameter is the angle of attack (also called the lead angle), which has been shown to significantly impact the performance of screw propellers in terms of traveling velocity, force produced, degree of slip, and sinkage. As a result, the optimal design choice may vary significantly depending on application and mission objectives. In this work, we present the Novel Actuating Screw Unit (NASU). It is the first screw-based propulsion design that enables dynamic reconfiguration of the angle of attack for optimized locomotion across multiple media and use cases. The design is inspired by the kresling unit, a mechanism from origami robotics, and the angle of attack is adjusted with a linear actuator, while the entire unit is spun on its axis to generate propulsion. NASU is integrated into a mobile test bed and experiments are conducted in various media including gravel, grass, and sand. Our experiment results indicate a trade-off between locomotive efficiency and velocity exists in regards to angle of attack, and the proposed design is a promising direction for reconfigurable screws by allowing control to optimize for efficiency or velocity.
format Preprint
id arxiv_https___arxiv_org_abs_2310_00184
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle NASU -- Novel Actuating Screw Unit: Origami-inspired Screw-based Propulsion on Mobile Ground Robots
Joyce, Calvin
Lim, Jason
Nguyen, Roger
Owens, Michael
Wickenhiser, Sara
Peiros, Elizabeth
Richter, Florian
Yip, Michael C.
Robotics
Screw-based locomotion is a robust method of locomotion across a wide range of media including water, sand, and gravel. A challenge with screws is their significant number of impactful design parameters that affect locomotion performance. One crucial parameter is the angle of attack (also called the lead angle), which has been shown to significantly impact the performance of screw propellers in terms of traveling velocity, force produced, degree of slip, and sinkage. As a result, the optimal design choice may vary significantly depending on application and mission objectives. In this work, we present the Novel Actuating Screw Unit (NASU). It is the first screw-based propulsion design that enables dynamic reconfiguration of the angle of attack for optimized locomotion across multiple media and use cases. The design is inspired by the kresling unit, a mechanism from origami robotics, and the angle of attack is adjusted with a linear actuator, while the entire unit is spun on its axis to generate propulsion. NASU is integrated into a mobile test bed and experiments are conducted in various media including gravel, grass, and sand. Our experiment results indicate a trade-off between locomotive efficiency and velocity exists in regards to angle of attack, and the proposed design is a promising direction for reconfigurable screws by allowing control to optimize for efficiency or velocity.
title NASU -- Novel Actuating Screw Unit: Origami-inspired Screw-based Propulsion on Mobile Ground Robots
topic Robotics
url https://arxiv.org/abs/2310.00184