Deep Visual Heuristics: Learning Feasibility of Mixed-Integer Programs for Manipulation Planning

Danny Driess, Ozgur S. Oguz, Jung-Su Ha, M. Toussaint
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引用次数: 47

Abstract

In this paper, we propose a deep neural network that predicts the feasibility of a mixed-integer program from visual input for robot manipulation planning. Integrating learning into task and motion planning is challenging, since it is unclear how the scene and goals can be encoded as input to the learning algorithm in a way that enables to generalize over a variety of tasks in environments with changing numbers of objects and goals. To achieve this, we propose to encode the scene and the target object directly in the image space.Our experiments show that our proposed network generalizes to scenes with multiple objects, although during training only two objects are present at the same time. By using the learned network as a heuristic to guide the search over the discrete variables of the mixed-integer program, the number of optimization problems that have to be solved to find a feasible solution or to detect infeasibility can greatly be reduced.
深度视觉启发式:操作规划混合整数方案的学习可行性
在本文中,我们提出了一种深度神经网络,从视觉输入预测混合整数方案的可行性,用于机器人操作规划。将学习整合到任务和运动规划中是具有挑战性的,因为目前尚不清楚如何将场景和目标编码为学习算法的输入,从而能够在对象和目标数量不断变化的环境中对各种任务进行概括。为此,我们建议在图像空间中直接对场景和目标物体进行编码。我们的实验表明,我们提出的网络可以推广到具有多个对象的场景,尽管在训练期间只有两个对象同时存在。通过使用学习到的网络作为启发式方法来指导对混合整数规划离散变量的搜索,可以大大减少为寻找可行解或检测不可行性而必须解决的优化问题数量。
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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