The field of wireless networking and scheduling is moving towards addressing the challenges of reliability, availability, and quality of service in emerging technologies such as 5G and Time-Sensitive Networks. Researchers are exploring innovative solutions to optimize resource allocation, scheduling, and network architecture to support the growing demands of industrial automation, robotics, and other applications. Noteworthy papers in this area include: AraRACH, which proposes a slot-based approach to enhance random access reliability in 5G wireless living labs. Periodic Chains Scheduling on Dedicated Resources, which presents a solution methodology to minimize chain degeneracy in time-triggered Ethernet networks. Empirical Analysis of the Impact of 5G Jitter on Time-Aware Shaper Scheduling, which investigates the effects of 5G network latency and jitter on TSN performance. Optimizing Resource Allocation and Scheduling towards FRMCS and GSM-R networks coexistence, which studies resource allocation for the Future Railway Mobile Communication System sharing the same frequency band as the GSM-R system. QoS-Aware Service Restoration in 5G Optical Transport Networks, which proposes a Fast Disrupted Service Prioritization algorithm to minimize service disruption and optimize resource utilization in 5G networks.