Vehicle structure and Omni-directionality for higher space efficiency

2011 9th World Congress on Intelligent Control and Automation Pub Date : 2011-06-21 DOI:10.1109/WCICA.2011.5970592

Huihuan Qian, Guoqing Xu, Jingyu Yan, Yangsheng Xu

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Abstract

Vehicle parking in crowded parking lots has become an un-ignorable problem in urban areas. Traditional manmaneuvering parking structures has low space efficiency, and in contrary, the current fully automatic parking frame system has high cost and difficulty in processing the vehicles in parallel. Inspired by the wheeled mobile robot, the paper investigates the relationship between the space efficiency (the ratio of space for parking over the total space for parking and traveling) and the structures of four-wheel robots, both the classical car-like robot and the omni-directional robot, which can be the platforms for vehicle carriers for parking in parallel to reduce the total time requirement and increase the flexibility of parking systems. An omni-directional driving and 4 wheel independent steering (4WIS) platform is designed and developed to demonstrates its advantage of parking in narrow space. For the type of carlike robot, space efficiency is optimized with respect to the rear overhang and the capacity of the parking lot. Omni-directional structure, in contrary, still has a higher space efficiency, and thus is more ideal for the parking platform.

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车辆结构和全方向性，提高空间效率

车辆在拥挤的停车场停放已成为城市地区一个不容忽视的问题。传统的机动式泊车结构空间效率低，而目前的全自动泊车架系统成本高，且车辆并行处理困难。受轮式移动机器人的启发，本文研究了空间效率(停车空间占总停车和行驶空间的比例)与四轮机器人结构之间的关系，包括经典的类车机器人和全向机器人，它们可以作为车辆载体并行停车的平台，以减少停车系统的总时间需求和增加停车系统的灵活性。设计并开发了一个全方位驾驶四轮独立转向(4WIS)平台，以展示其在狭窄空间停车的优势。对于类车机器人来说，空间效率是根据后悬和停车场的容量进行优化的。相反，全向结构仍然具有更高的空间效率，因此更理想的停车平台。

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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2011 9th World Congress on Intelligent Control and Automation

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