Forces and torque measurements in the interaction of kitchen-utensils with food during typical cooking tasks: preliminary test and evaluation

2020 29th IEEE International Conference on Robot and Human Interactive Communication (RO-MAN) Pub Date : 2020-08-01 DOI:10.1109/RO-MAN47096.2020.9223457

Débora Pereira, Alessandro Morassut, E. Tiberi, P. Dario, G. Ciuti

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引用次数: 2

Abstract

The study of cooking tasks, such as grilling, is hindered by several adverse conditions for sensors, such as the proximity to humidity, fat, and heat. Still, robotics research could benefit from understanding the human control of forces and torques in important contact interactions of kitchen-utensils with food. This work presents a preliminary study on the dynamics of grilling tasks (i.e. food flipping movements). A spatula and kitchen-tweezers were instrumented to measure forces and torque in multiple directions. Furthermore, we designed an experimental setup to keep sensors distant from heat/humidity and to, simultaneously, hold the effects of grilling (stickiness/slipperiness) during the tasks execution and recording. This allowed a successful data collection of 1426 movements with the spatula (flipping hamburgers, chicken, zucchini and eggplant slices) and 660 movements with the tweezers (flipping zucchini and eggplant slices), performed by chefs and ordinary home cooks. Finally, we analyzed three dynamical characteristics of the tasks for the different food: bending force and torsion torque on the impact to unstick food, and maximum pinching with tweezers. We verified that bending on impact and maximum pinching are adjusted to the food by both chefs and home cooks.

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在典型的烹饪任务中，厨房用具与食物相互作用的力和扭矩测量:初步测试和评估

对烹饪任务的研究，如烧烤，会受到几个不利条件的阻碍，如接近湿度、脂肪和热量。尽管如此，了解人类在厨房用具与食物的重要接触互动中对力和扭矩的控制，仍可使机器人研究受益。这项工作提出了一个初步的研究动力学的烧烤任务(即食物翻转运动)。用刮刀和厨房镊子测量多个方向的力和扭矩。此外，我们设计了一个实验装置，使传感器远离热量/湿度，同时在任务执行和记录过程中保持烤(粘/滑)的效果。这使得厨师和普通家庭厨师成功地收集了1426个用锅铲(翻转汉堡包、鸡肉、西葫芦和茄子片)和660个用镊子(翻转西葫芦和茄子片)的动作数据。最后，我们分析了不同食物任务的三个动力学特性:弯曲力和扭转力矩对食物脱粘的影响，以及镊子的最大夹紧。我们证实，弯曲的冲击和最大的挤压是由厨师和家庭厨师调整的食物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2020 29th IEEE International Conference on Robot and Human Interactive Communication (RO-MAN)

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