Alfred Wilmot scite author profile

Alfred Wilmot

3Publications

8Citation Statements Received

69Citation Statements Given

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Affiliations

University of Plymouth, University of Sheffield

Publications

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Proof-of-concept modular robot platform for cauliflower harvesting

Klein

Wilmot

Tejada

et al. 2019

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This paper presents a proof-of-concept platform for demonstrating robotic harvesting of summer-varieties of cauliflower, and early tests performed under laboratory conditions. The platform is designed to be modular and has two dexterous robotic arms with variablestiffness technology. The bi-manual configuration enables the separation of grasping and cutting behaviours into separate robot manipulators. By exploiting the passive compliance of the variable-stiffness arms, the system can operate with both grasping and cutting tool close to the ground. Multiple 3D vision cameras are used to track the cauliflowers in real-time, and to attempt to assess the maturity. Early experiments with the platform in the laboratory highlight the potential and challenges of the platform.

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3D Printed Mechanically Modular Two-Degree-Of-Freedom Robotic Segment Utilizing Variable-Stiffness Actuators

Wilmot

Howard

2021

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Here we describe the initial development of a 3D printed modular robotic segment that is driven by variable stiffness actuators (VSAs). The novelty of the presented work is the combination of cost-effective antagonist VSAs with mechanical modularity: this enables multiple segments to be used either as a stand-alone serpentine robot or as compliant joints that can easily be integrated into other robotic systems. The VSAs are comprised of antagonist DC motor pairs that separately actuate two orthogonal revolute joints via a viscoelastic tendon-based transmission system. The simplistic nature of the design also aims to minimize the effects of joint coupling. Joint-level control is performed on a microcontroller which transmits motor current and joint position information over USB to a computer. ROS packages, including those needed for Gazebo and MoveIt! were created to enable physics simulations and motion-planning of either a single isolated segment, multiple chained segments, or some combination of segments and other robotic devices. We present results of a preliminary physical prototype of one such robotic segment whose joint positions and co-contractions were manually controlled using a gamepad and subsequently visualized using the developed ROS packages. The dynamics of the VSA were analyzed and the joint-torque equations were derived as functions of tendon parameters, joint angles, and motor electrical characteristics.

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Origami-Inspired Microrobots

Lahondes¹,

Wilmot²,

Miyashita³

2021

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Alfred Wilmot

Proof-of-concept modular robot platform for cauliflower harvesting

3D Printed Mechanically Modular Two-Degree-Of-Freedom Robotic Segment Utilizing Variable-Stiffness Actuators

Origami-Inspired Microrobots

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