The field of wireless communications is witnessing a significant shift towards reconfigurable systems, where movable antennas and pinching-antenna architectures are being explored to enhance energy efficiency and system performance. Recent research has focused on optimizing the position, speed, and transmit power of movable antennas to maximize energy efficiency, as well as developing robust design frameworks for backscatter communication assisted hybrid non-orthogonal multiple access systems. Noteworthy papers in this area include Mechanical Power Modeling and Energy Efficiency Maximization for Movable Antenna Systems, which proposes a fundamental power consumption model for stepper motor-driven movable antenna systems, and Pinching-Antenna Systems Aided Over-the-air Computation, which introduces a novel pinching-antenna system for improving over-the-air computation performance. Additionally, Intelligent Polarforming Antenna Enhanced Sensing and Communication: Modeling and Optimization presents a novel intelligent polarforming antenna that can adaptively control its polarization and position to reconfigure wireless channels.