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Radio Modulation Recognition Networks
Pijáčková, Kristýna ; Maršálek, Roman (oponent) ; Götthans, Tomáš (vedoucí práce)
The bachelor thesis is focused on radio modulation classification with a deep learning approach. There are four deep learning architectures presented in the thesis. Three of them use convolutional and recurrent neural networks, and the fourth uses a transformer architecture. The final number of parameters of each model was considered during the design phase, as it can have a big impact on a memory footprint of a deployed model. The architectures were written in Keras, which is a software library, which provides a Python interface for neural networks. The results of the architectures were additionally compared to results from other research papers on this topic.
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Radio Modulation Recognition Networks
Pijáčková, Kristýna ; Maršálek, Roman (oponent) ; Götthans, Tomáš (vedoucí práce)
The bachelor thesis is focused on radio modulation classification with a deep learning approach. There are four deep learning architectures presented in the thesis. Three of them use convolutional and recurrent neural networks, and the fourth uses a transformer architecture. The final number of parameters of each model was considered during the design phase, as it can have a big impact on a memory footprint of a deployed model. The architectures were written in Keras, which is a software library, which provides a Python interface for neural networks. The results of the architectures were additionally compared to results from other research papers on this topic.
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