文件名称:Shortest-Path-Based-on-Delay-PCNN
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本文在脉冲耦合神经网络(PCNN2Pulse Coupled Neural Network) 的基础上,提出了时延脉冲耦合神经网络
(DPCNN2Delay PCNN) ,并将其成功地用于求解最短路径,同时给出了基于DPCNN 的最短路径求解算法. Caulfield 与
Kinser 提出了用PCNN 求解迷宫问题的方法,虽然他们的方法也可用于求解最短路径,但所需神经元的数量巨大,而本
文的方法所需的神经元的数量远小于他们的方法. 同时,本文的方法充分利用了DPCNN 脉冲快速并行传播的特点,可
迅速地求出最短路径,其所需的计算量仅正比于最短路径的长度,与路径图的复杂程度及路径图中的通路总数无关.
计算机仿真结果表明,采用本文的方法,用少量的神经元就可迅速地求出最短路径.- This paper presents DPCNN(Delay Pulse Coupled Neural Network) based on PCNN and uses DPCNN to find the
shortest path successfully.Meanwhile ,the algorithmof finding the shortest path based on DPCNN is described. Caulfield and Kinser in2
troduced the PCNN method to solve the maze problem and although their method also can be used to find the shortest path ,a large
quantity of neurons are needed. However ,the approach proposed in this paper needed very fewer neurons than proposed by Caulfield
and Kinser. In the meantime ,due to the pulse parallel transmission characteristic of DPCNN ,the approach proposed can find the short2
est path quickly. The computational complexity of our approach is only related to the length of the shortest path , and independent to
the path graph complexity and the number of existing paths in the graph. The results of computer simulations show that by using the
approach proposed in this paper ,we can use a small quantity of neurons to find the shortest p
(DPCNN2Delay PCNN) ,并将其成功地用于求解最短路径,同时给出了基于DPCNN 的最短路径求解算法. Caulfield 与
Kinser 提出了用PCNN 求解迷宫问题的方法,虽然他们的方法也可用于求解最短路径,但所需神经元的数量巨大,而本
文的方法所需的神经元的数量远小于他们的方法. 同时,本文的方法充分利用了DPCNN 脉冲快速并行传播的特点,可
迅速地求出最短路径,其所需的计算量仅正比于最短路径的长度,与路径图的复杂程度及路径图中的通路总数无关.
计算机仿真结果表明,采用本文的方法,用少量的神经元就可迅速地求出最短路径.- This paper presents DPCNN(Delay Pulse Coupled Neural Network) based on PCNN and uses DPCNN to find the
shortest path successfully.Meanwhile ,the algorithmof finding the shortest path based on DPCNN is described. Caulfield and Kinser in2
troduced the PCNN method to solve the maze problem and although their method also can be used to find the shortest path ,a large
quantity of neurons are needed. However ,the approach proposed in this paper needed very fewer neurons than proposed by Caulfield
and Kinser. In the meantime ,due to the pulse parallel transmission characteristic of DPCNN ,the approach proposed can find the short2
est path quickly. The computational complexity of our approach is only related to the length of the shortest path , and independent to
the path graph complexity and the number of existing paths in the graph. The results of computer simulations show that by using the
approach proposed in this paper ,we can use a small quantity of neurons to find the shortest p
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时延PCNN及其用于求解最短路径[1].pdf
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