Landmark recognition using projection learning for mobile robot navigation

R. Luo, H. Potlapalli
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引用次数: 17

Abstract

Mobile robots rely on traffic signs for navigation in outdoor environments. The recognition of these signs using vision is a unique problem. The important aspects of this problem are that the object parameters such as scale and orientation are constantly changing with the motion of the camera. Also, new signs may appear at some time. In this case feature extraction algorithms are unable to meet the constraints of flexibility. Neural networks can be easily programmed for this task. A new learning strategy for self-organizing neural networks is presented. By iteratively subtracting the projection of the winning neuron onto the null space of the input vector, the neuron is progressively made more representative of the input. The convergence properties of the new neural network model are studied. Comparison results with standard Kohonen learning are presented. The performance of the network with respect to training and recognition of traffic signs is studied.<>
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基于投影学习的移动机器人导航地标识别
移动机器人依靠交通标志在室外环境中导航。用视觉识别这些标志是一个独特的问题。这个问题的重要方面是,物体的参数,如规模和方向是不断变化的相机的运动。此外,新的迹象可能会在某个时候出现。在这种情况下,特征提取算法无法满足灵活性的约束。神经网络可以很容易地编程来完成这项任务。提出了一种新的自组织神经网络学习策略。通过迭代地减去获胜神经元在输入向量零空间上的投影,神经元逐渐变得更能代表输入。研究了该神经网络模型的收敛性。给出了与标准Kohonen学习的比较结果。研究了该网络在交通标志的训练和识别方面的性能。
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