The field of electromagnetic information theory (EIT) and integrated sensing and communication (ISAC) is rapidly advancing, with a focus on developing innovative solutions for next-generation wireless communication systems. Recent research has explored the use of simultaneous transmitting and reflecting reconfigurable intelligent surfaces (STAR-RIS) to improve spectrum efficiency and mitigate interference in cognitive radio networks. Additionally, there is a growing interest in developing helper-friendly mitigation strategies against reactive jamming attacks, which can compromise the security of wireless communication systems. Other areas of research include the optimization of movable antennas in wideband multi-user MIMO systems and the development of fast and accurate prediction methods for antenna reflection coefficients. Noteworthy papers include: A General DoF and Pattern Analyzing Scheme for Electromagnetic Information Theory, which proposes a novel DoF analyzing scheme for EIT. Target Tracking With ISAC Using EMLSR in Next-Generation IEEE 802.11 WLANs, which pioneers an innovative combination of EMLSR operation and ISAC functionality for target tracking. Radiation Footprint Control in Cell-Free Cooperative ISAC, which proposes a radiation footprint control mechanism to suppress interference in cell-free ISAC networks. Helper-Friendly Latency-Bounded Mitigation Strategies against Reactive Jamming Adversaries, which develops a family of helper-friendly cooperative mitigation strategies against reactive jamming attacks.