%0 Journal Article %1 IJACSA.2013.040911 %A Nitta, Tohru %D 2013 %J International Journal of Advanced Computer Science and Applications(IJACSA) %K complex critical number; point; quaternion redundancy; singular %N 9 %T Construction of Neural Networks that Do Not Have Critical Points Based on Hierarchical Structure %U http://ijacsa.thesai.org/ %V 4 %X a critical point is a point at which the derivatives of an error function are all zero. It has been shown in the literature that critical points caused by the hierarchical structure of a real-valued neural network (NN) can be local minima or saddle points, although most critical points caused by the hierarchical structure are saddle points in the case of complex-valued neural networks. Several studies have demonstrated that singularity of those kinds has a negative effect on learning dynamics in neural networks. As described in this paper, the decomposition of high-dimensional neural networks into low-dimensional neural networks equivalent to the original neural networks yields neural networks that have no critical point based on the hierarchical structure. Concretely, the following three cases are shown: (a) A 2-2-2 real-valued NN is constructed from a 1-1-1 complex-valued NN. (b) A 4-4-4 real-valued NN is constructed from a 1-1-1 quaternionic NN. (c) A 2-2-2 complex-valued NN is constructed from a 1-1-1 quaternionic NN. Those NNs described above do not suffer from a negative effect by singular points during learning comparatively because they have no critical point based on a hierarchical structure.

@article{IJACSA.2013.040911, abstract = {a critical point is a point at which the derivatives of an error function are all zero. It has been shown in the literature that critical points caused by the hierarchical structure of a real-valued neural network (NN) can be local minima or saddle points, although most critical points caused by the hierarchical structure are saddle points in the case of complex-valued neural networks. Several studies have demonstrated that singularity of those kinds has a negative effect on learning dynamics in neural networks. As described in this paper, the decomposition of high-dimensional neural networks into low-dimensional neural networks equivalent to the original neural networks yields neural networks that have no critical point based on the hierarchical structure. Concretely, the following three cases are shown: (a) A 2-2-2 real-valued NN is constructed from a 1-1-1 complex-valued NN. (b) A 4-4-4 real-valued NN is constructed from a 1-1-1 quaternionic NN. (c) A 2-2-2 complex-valued NN is constructed from a 1-1-1 quaternionic NN. Those NNs described above do not suffer from a negative effect by singular points during learning comparatively because they have no critical point based on a hierarchical structure.}, added-at = {2014-02-21T08:00:08.000+0100}, author = {Nitta, Tohru}, biburl = {https://www.bibsonomy.org/bibtex/26572984fb482e6f08c433e4abe3c27cc/thesaiorg}, interhash = {d452ee1c195fd5ad9ffa54524e9eb286}, intrahash = {6572984fb482e6f08c433e4abe3c27cc}, journal = {International Journal of Advanced Computer Science and Applications(IJACSA)}, keywords = {complex critical number; point; quaternion redundancy; singular}, number = 9, timestamp = {2014-02-21T08:00:08.000+0100}, title = {{Construction of Neural Networks that Do Not Have Critical Points Based on Hierarchical Structure}}, url = {http://ijacsa.thesai.org/}, volume = 4, year = 2013 }