FluidLab: A Differentiable Environment for Benchmarking Complex Fluid Manipulation

Zhou, Xian; Zhu, Bin; Xu, Zuyan; Tung, Hsiao-Yu Fish; Torralba, Antonio; Fragkiadaki, Katerina; Gan, Chuang

doi:10.48550/arxiv.2303.02346

Cited by 2 publications

(1 citation statement)

References 35 publications

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“…Therefore, we want to take some lessons from already existing benchmarking environments for complicated, vaguely defined tasks. For example, FluidLab (Xian et al, 2023) is an attempt to build a benchmarking environment for robotic fluid manipulation, that is definitely a subset of robotic cooking. This environment limits the number of tasks to 7 (some with two difficulty settings).…”

Section: Benchmarking Environmentsmentioning

confidence: 99%

Towards practical robotic chef: Review of relevant work and future challenges

Sochacki,

Zhang,

Abdulali

et al. 2024

Journal of Field Robotics

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Robotic chefs are a promising technology that can improve the availability of quality food by reducing the time required for cooking, therefore decreasing food's overall cost. This paper clarifies and structures design and benchmarking rules in this new area of research, and provides a comprehensive review of technologies suitable for the construction of cooking robots. The diner is an ultimate judge of the cooking outcome, therefore we put focus on explaining human food preferences and perception of taste and ways to use them for control. Mechanical design of robotic chefs at a practically low cost remains the challenge, but some recently published gripper designs as well as whole robotic systems show the use of cheap materials or off‐the‐shelf components. Moreover, technologies like taste sensing, machine learning, and computer vision are making their way into robotic cooking enabling smart sensing and therefore improving controllability and autonomy. Furthermore, objective assessment of taste and food palatability is a challenge even for trained humans, therefore the paper provides a list of procedures for benchmarking the robot's tasting and cooking abilities. The paper is written from the point of view of a researcher or engineer building a practical robotic system, therefore there is a strong priority for solutions and technologies that are proven, robust and self‐contained enough to be a part of a larger system.

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Section: Benchmarking Environmentsmentioning

confidence: 99%

Towards practical robotic chef: Review of relevant work and future challenges

Sochacki,

Zhang,

Abdulali

et al. 2024

Journal of Field Robotics

View full text Add to dashboard Cite

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Self-Driving Laboratories for Chemistry and Materials Science

Tom,

Schmid,

Baird

et al. 2024

Chem. Rev.

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Self-driving laboratories (SDLs) promise an accelerated application of the scientific method. Through the automation of experimental workflows, along with autonomous experimental planning, SDLs hold the potential to greatly accelerate research in chemistry and materials discovery. This review provides an in-depth analysis of the state-of-the-art in SDL technology, its applications across various scientific disciplines, and the potential implications for research and industry. This review additionally provides an overview of the enabling technologies for SDLs, including their hardware, software, and integration with laboratory infrastructure. Most importantly, this review explores the diverse range of scientific domains where SDLs have made significant contributions, from drug discovery and materials science to genomics and chemistry. We provide a comprehensive review of existing real-world examples of SDLs, their different levels of automation, and the challenges and limitations associated with each domain.

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FluidLab: A Differentiable Environment for Benchmarking Complex Fluid Manipulation

Cited by 2 publications

References 35 publications

Towards practical robotic chef: Review of relevant work and future challenges

Towards practical robotic chef: Review of relevant work and future challenges

Self-Driving Laboratories for Chemistry and Materials Science

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