Benjamin O. Saunders scite author profile

Benjamin O. Saunders

3Publications

0Citation Statements Received

47Citation Statements Given

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Affiliations

Washington State University, Brigham Young University

Publications

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A Novel Flexible Bio-Inspired Pneumatic Valve Adapter for Soft Robotic Vasculature

Saunders

Swensen

2021

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This paper proposes a novel flexible pneumatic valve adapter that seeks inspiration from vascular systems found in nature. Evolved vascular systems, such as the human cardiovascular system, pump fluid through a complex system composed of a single reservoir/pump. These systems regulate flow by systematically closing and opening valves appropriately through soft biological material constriction. The proposed pneumatic valve emulates this with two concentric flexible tubes with a single hole on the inner tube and patterned holes on the outer tube. This allows it to decrease the quantity of tubes and valves required for pneumatically actuated soft robots, with the trade-off being increased motion of the valve spool (the inner tube). Previous versions of this adapter used rigid members which decreased the number of tubes tethering the robot to a pressure source, but also hindered the soft robotic nature and movement. This adapter utilizes flexible materials to minimize the valve’s effect on the robot’s range of motion. The tubes have holes that are patterned by custom design determined by the needs of the soft robot with which it is to be used. The inner tube can be moved rotationally or translationally within the outer tube to align with designated holes to pressurize and depressurize chambers in a soft robot with only a single lightweight valve.

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Performance Metrics for Fluidic Soft Robot Rotational Actuators

2021

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The field of soft robotics is continuing to grow as more researchers see the potential for robots that can safely interact in unmodeled, unstructured, and uncertain environments. However, in order for the design, integration, and control of soft robotic actuators to develop into a full engineering methodology, a set of metrics and standards need to be established. This paper attempts to lay the groundwork for that process by proposing six soft robot actuator metrics that can be used to evaluate and compare characteristics and performance of soft robot actuators. Data from eight different soft robot rotational actuators (five distinct designs) were used to evaluate these soft robot actuator metrics and show their utility. Additionally we provide a simple case study as an example of how these metrics can be used to evaluate soft robot actuators for a designated task. While this paper does not claim to present a comprehensive list of all possible soft robot actuator metrics, the metrics presented can 1) be used to initiate the development and comparison of soft robot actuators in an engineering framework and 2) start a broader discussion of which metrics should be standardized in future soft robot actuator research.

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A Novel Bio-Inspired Pneumatic Valve Adapter for Soft Robotic Vasculature

Saunders

Swensen

2020

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This paper proposes a novel pneumatic valve adapter that decreases the size and quantity of pneumatic tubes and valves necessary for soft robotics by mimicking cardiovascular systems. Some cardiovascular systems, evolved to be powered by a single reservoir, the heart, which in turn powers the rest of the body by systematically opening and closing valves as needed. The presented valve adapter consists of a set of concentric tube, where both tubes have strategically patterned holes. The inner tube can be moved translationally and rotationally to align with designated hole positions in the outer tube, thus opening and closing pathways to chambers for pressure flow. The two-tube system can be used to either pressurize a chamber or depressurize a chamber or multiple chambers simultaneously.

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