International Journal of Innovative Research in Computer and Communication Engineering
ISSN Approved Journal | Impact factor: 8.771 | ESTD: 2013 | Follows UGC CARE Journal Norms and Guidelines
| Monthly, Peer-Reviewed, Refereed, Scholarly, Multidisciplinary and Open Access Journal | High Impact Factor 8.771 (Calculated by Google Scholar and Semantic Scholar | AI-Powered Research Tool | Indexing in all Major Database & Metadata, Citation Generator | Digital Object Identifier (DOI) |
| TITLE | Wavebreaker: The Smart Signal Disrupter |
|---|---|
| ABSTRACT | Wireless communication has become the backbone of modern technology, driving the rapid growth of the Internet of Things (IoT), Wi-Fi, and mobile networks, and enabling seamless connectivity among billions of smart devices across the globe. This continuous evolution has transformed industries, homes, and cities, but it has also introduced new vulnerabilities at the physical and network layers. Attacks such as jamming, spoofing, and signal interference can disrupt communication channels, cause data loss, and compromise network integrity, posing a serious threat to the reliability and security of wireless systems. To address these challenges, the proposed system, Wavebreaker: The Smart Signal Disrupter, presents an intelligent, low-cost, and hardware-based defensive mechanism designed to detect, classify, and selectively disrupt unauthorized wireless transmissions while ensuring uninterrupted communication for authenticated users. The system leverages the ESP8266 microcontroller integrated with RF control modules and RFID-based authentication to monitor real-time wireless signals, identify potential threats, and dynamically prevent jamming attacks using selective signal blocking techniques. The core innovation of Wavebreaker lies in its ability to differentiate between authorized and rogue signals using adaptive signal processing and rule-based decision algorithms. It ensures real-time detection, minimal latency, and high detection accuracy, making it suitable for IoT devices, industrial automation, and secure communication infrastructures. The system architecture emphasizes scalability, modularity, and low energy consumption—allowing it to operate effectively even in resource-constrained environments. Experimental analysis demonstrates that Wavebreaker achieves over 90% detection accuracy, response latency below 50 milliseconds, and optimized energy efficiency during active monitoring. These results confirm its practicality for deployment in smart networks and security-critical applications where continuous and secure communication is essential. By combining hardware intelligence with selective signal control, Wavebreaker establishes a foundation for next-generation wireless security systems capable of autonomously safeguarding networks from evolving signal-based threats. |
| TITLE | |
| AUTHOR | RUTUJA SIRSAT, ABUSUFIYAN SHAIKH, SUDESH PANDIT, PROF. SNEHAL D. SHIPNE |
| VOLUME | 176 |
| DOI | 10.15680/IJIRCCE.2025.1311032 |
| pdf/32_Wavebreaker The Smart Signal Disrupter.pdf | |
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