Nurzhan Omarov scite author profile

In this research paper, we presented a novel approach to detect impulsive sounds in real-time using a combination of Deep CNN and RNN architectures. The proposed approach was evaluated using our collected dataset of impulsive sounds, and the results showed that it outperformed traditional audio signal processing methods in terms of accuracy and F1score. The proposed approach has several advantages over traditional methods, including the ability to handle complex audio patterns, detect impulsive sounds in real-time, and improve its performance with a large dataset of labeled impulsive sounds. However, there are some limitations to the proposed approach, including the requirement for a large amount of labeled data to train effectively, environmental factors that may impact the accuracy of the detection, and high computational requirements. Overall, the proposed approach demonstrates the effectiveness of using a combination of Deep CNN and RNN architectures for impulsive sound detection, with potential applications in various fields such as public safety, industrial settings, and home security systems. The proposed approach is a significant step towards developing automated systems for detecting dangerous events and improving public safety.

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Multi-Objective Optimization for Automation of Smart Home Comfort Microclimate Control

Omarov¹,

Omarov²,

Koishiyeva³

et al. 2018

FJEC

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Development of Fuzzy-logic based Gyms Air Quality Control

Omarov

Kendzhayeva

Omarov

et al. 2021

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Nurzhan Omarov

Agent Based Modeling of Smart Grids in Smart Cities

Applying Face Recognition in Video Surveillance Security Systems

A Novel Deep CNN-RNN Approach for Real-time Impulsive Sound Detection to Detect Dangerous Events

Multi-Objective Optimization for Automation of Smart Home Comfort Microclimate Control

Development of Fuzzy-logic based Gyms Air Quality Control

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