The recent developments in the research area of advanced robotics and communication systems highlight a significant trend towards miniaturization, efficiency, and integration of sensing and communication capabilities. Innovations are particularly notable in the design of lightweight, power-efficient systems for autonomous control in flying insect-scale robots, showcasing a leap towards achieving sensor autonomy in sub-gram aircraft. Similarly, the exploration of miniature untethered robotic fishes powered by vibration motors demonstrates a novel approach to marine resource exploration, emphasizing maneuverability and environmental adaptability. In the realm of communication, the integration of sensing and communication (ISAC) systems, especially those utilizing unmanned aerial vehicles (UAVs) and reconfigurable intelligent surfaces (RIS), is advancing the efficiency and reliability of wireless networks. These systems are being optimized for various applications, including post-disaster communications, where UAV swarms and collaborative beamforming techniques are employed to enhance transmission rates and network robustness. Furthermore, the development of movable antenna arrays and fluid antenna technologies is pushing the boundaries of spatial diversity and signal optimization, offering improved communication and sensing performance. The field is also witnessing a surge in the use of optimization algorithms and machine learning techniques to address complex system design challenges, underscoring a multidisciplinary approach to innovation.nn### Noteworthy Papersn- TinySense: A Lighter Weight and More Power-efficient Avionics System for Flying Insect-scale Robots: Achieves a significant reduction in mass and power for avionics systems, enabling closer steps towards sensor autonomy in sub-gram flying robots.n- A Poincar'e Lower Bound Approach for Performance Trade-offs in MIMO ISAC Systems with Blockage: Introduces a novel lower bound on sensing MSE, facilitating the analysis of rate-sensing trade-offs in ISAC systems.n- Harnessing the Power of Vibration Motors to Develop Miniature Untethered Robotic Fishes: Presents a compact robotic fish design that leverages vibration motors for propulsion, highlighting advancements in underwater robotics.n- UAV Swarm-enabled Collaborative Post-disaster Communications in Low Altitude Economy via a Two-stage Optimization Approach: Demonstrates the effectiveness of a two-stage optimization approach in enhancing post-disaster communication networks using UAV swarms.n- Movable Antenna Enhanced Integrated Sensing and Communication Via Antenna Position Optimization: Proposes a movable antenna array system that significantly improves communication and sensing performance through flexible antenna movement.n- RIS-Aided Fluid Antenna Array-Mounted UAV Networks: Explores the integration of RIS and fluid antennas on UAVs, achieving superior downlink rates through optimized beamforming and deployment strategies.n- Joint Antenna Selection and Beamforming Design for Active RIS-aided ISAC Systems: Introduces an antenna selection scheme that optimizes system performance while reducing the number of required RF chains, marking a step towards more efficient ISAC systems.