The field of integrated sensing and communication (ISAC) is moving towards addressing critical challenges in low-altitude wireless networks and 6G systems. Researchers are exploring innovative solutions to mitigate the impact of malicious attacks on ISAC performance, such as game-based frameworks and neuro-symbolic attack detection methods. Additionally, there is a growing focus on developing dedicated detectors that can effectively exploit the signaling resources assigned to random data payloads, enabling reliable target detection in bistatic settings. Noteworthy papers include:

• Safeguarding ISAC Performance in Low-Altitude Wireless Networks Under Channel Access Attack, which proposes a game-based framework to mitigate attack-induced degradation of ISAC performance.
• Analysis and Detection of RIS-based Spoofing in Integrated Sensing and Communication, which examines the possibility of spoofing the sensing function of ISAC and proposes a signal temporal logic-based neuro-symbolic attack detection framework.
• Bistatic Target Detection by Exploiting Both Deterministic Pilots and Unknown Random Data Payloads, which derives a generalized likelihood ratio test-based detector that leverages known deterministic pilots and statistical characteristics of unknown random data payloads.