Energy proportional streaming spiking neural network in a reconfigurable system

Sanchez, Felipe Galindo; Nunez-Yanez, Jose

doi:10.1016/j.micpro.2017.06.018

Cited by 3 publications

(1 citation statement)

References 19 publications

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“…Neurocomputing has diverse applications and is used in numerous fields, including visual perception systems [33], communications [34], energy [35,36], and medicine [37]. The related literature is presented in Table 1.…”

Section: Current Development Of Neurocomputing Technologymentioning

confidence: 99%

Using Patent Technology Networks to Observe Neurocomputing Technology Hotspots and Development Trends

Chang¹,

Fan²

2020

Sustainability

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In recent years, development in the fields of big data and artificial intelligence has given rise to interest among scholars in neurocomputing-related applications. Neurocomputing has relatively widespread applications because it is a critical technology in numerous fields. However, most studies on neurocomputing have focused on improving related algorithms or application fields; they have failed to highlight the main technology hotspots and development trends from a comprehensive viewpoint. To fill the research gap, this study adopts a new viewpoint and employs technological fields as its main subject. Neurocomputing patents are subjected to network analysis to construct a neurocomputing technology hotspot. The results reveal that the neurocomputing technology hotspots are algorithms, methods or devices for reading or recognizing printed or written characters or patterns, and digital storage characterized by the use of particular electric or magnetic storage elements. Furthermore, the technology hotspots are discovered to not be clustered around particular fields but, rather, are multidisciplinary. The applications that combine neurocomputing with digital storage are currently undergoing the most extensive development. Finally, patentee analysis reveal that neurocomputing technology is mainly being developed by information technology corporations, thereby indicating the market development potential of neurocomputing technology. This study constructs a technology hotspot network model to elucidate the trend in development of neurocomputing technology, and the findings may serve as a reference for industries planning to promote emerging technologies.

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Section: Current Development Of Neurocomputing Technologymentioning

confidence: 99%

Using Patent Technology Networks to Observe Neurocomputing Technology Hotspots and Development Trends

Chang¹,

Fan²

2020

Sustainability

View full text Add to dashboard Cite

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Evolutionary FPGA-Based Spiking Neural Networks for Continual Learning

Otero,

Sanllorente,

de la Torre

et al. 2023

Lecture Notes in Computer Science

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Fukunaga–Koontz Convolutional Network with Applications on Character Classification

Gatto

Santos

Fukui

et al. 2020

Neural Process Lett

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Several convolutional neural network architectures have been proposed for handwritten character recognition. However, most of the conventional architectures demand large scale training data and long training time to obtain satisfactory results. These requirements prevent the use of these methods in a broader range of applications. As an alternative to cope with these problems, we present a new convolutional network for handwritten character recognition based on the Fukunaga–Koontz transform (FKT). Our approach lies in the assumption that Fukunaga–Koontz convolutional kernels can be efficiently learned from subspaces and directly employed to produce high discriminant features in a shallow network architecture. When representing image classes by subspaces, the within-class separability is reduced, since the subspaces form clusters in a low-dimensional space. To increase the between-class separability, we compute a discriminative space from the training subspaces using FKT. By learning convolutional kernels from subspaces, it is possible to extract representative and discriminative features from an image with only a few parameters. Another contribution of the proposed network is the use of pooling layers, which further improves its performance. The proposed method, called Fukunaga–Koontz Network (FKNet), is suitable for solving practical problems, especially when training and processing times are constraints. Four publicly available handwritten character datasets are employed to evaluate the advantages of FKNet. In addition, we demonstrate the flexibility of the proposed method by experiments on LFW dataset.

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Energy proportional streaming spiking neural network in a reconfigurable system

Cited by 3 publications

References 19 publications

Using Patent Technology Networks to Observe Neurocomputing Technology Hotspots and Development Trends

Using Patent Technology Networks to Observe Neurocomputing Technology Hotspots and Development Trends

Evolutionary FPGA-Based Spiking Neural Networks for Continual Learning

Fukunaga–Koontz Convolutional Network with Applications on Character Classification

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