The field of integrated sensing and communications is rapidly advancing, with a focus on innovative solutions that enable simultaneous sensing and communication capabilities. Researchers are exploring new technologies, such as time-modulated electromagnetic skins and dynamic metasurface antennas, to achieve this goal. These advancements have the potential to revolutionize various applications, including smart environments and wireless communication systems. Noteworthy papers in this area include:

• A study on Lorentzian-Constrained Holographic Beamforming Optimization, which proposes a new algorithm for minimizing total transmit power in multi-user networks.
• A paper on Max-Min Fairness in Stacked Intelligent Metasurface-Aided Rate Splitting Networks, which introduces a fairness-centric design for resource allocation in downlink multiuser systems.
• A work on Theoretical and Experimental Assessment of Large Beam Codebook at mmWave Devices, which investigates the reduction of large codebooks for beam sweeping while maintaining performance.
• A research on Index Modulated Affine Frequency Division Multiplexing With Spread Spectrum, which proposes an energy-efficient index modulation scheme for affine frequency division multiplexing.
• A study on Low-Complexity Hybrid Beamforming for Multi-Cell mmWave Massive MIMO, which designs an efficient hybrid beamformer using primitive Kronecker decomposition and dynamic factor allocation.