A novel secure communication method for optically designed sensor networks

Secure communication is a critical aspect of modern networks, especially in optically designed networks where sensitive data is transmitted. This paper presents a novel secure communication method based on probabilistic sensing to enhance the security of data transmission in such networks. The proposed method exploits the unique characteristics of optical signals to ensure secure and reliable communication. In the proposed method, probabilistic sensing techniques are employed to detect and prevent unauthorized access and eavesdropping in the network. By analyzing the probability distribution of optical signals, the method can identify any potential security threats or anomalies in the communication channel. This enables the network to dynamically adapt its security measures and protocols to counteract unauthorized access attempts. To evaluate the effectiveness of the proposed method, extensive simulations and experiments are conducted on optically designed networks. The results demonstrate that the method provides enhanced security, robustness, and confidentiality in data transmission. It effectively mitigates the risk of data breaches and unauthorized interception, ensuring the integrity and privacy of sensitive information. The secure communication method based on probabilistic sensing contributes to the field of network security by providing a reliable solution for AI and IoT enabled networks. By using the unique properties of optical signals, the method offers an additional layer of security to protect against potential threats as demonstrated in the results. This research has implications for various domains, including telecommunications, data centers, and critical infrastructure, where secure and confidential communication is of utmost importance.