AI Leading the Path to the Future of Communication Technology

In an exciting leap toward the next generation of wireless technology, researchers at UBC Okanagan, led by Dr. Anas Chaaban from the UBCO Communication Theory Lab, are tapping into the power of artificial intelligence (AI) to revolutionize communication architectures. The goal is to achieve faster data transmission, energy efficiency, and more in the evolving landscape of mobile networks beyond 5G.

Dr. Chaaban, an Assistant Professor at UBCO’s School of Engineering, emphasizes that the upcoming wave of communication technology goes beyond mere speed. The research aims to create a theoretical wireless communication architecture that can handle increased data loads and enable instantaneous communication among devices, consumers, and the environment.

The researchers advocate for intelligent architectures to address the demands of massive connectivity, ultra-low latency, high reliability, quality experience, energy efficiency, and reduced deployment costs. Dr Chaaban proposes a departure from traditional communication techniques and advocates for leveraging recent advances in AI to adapt to emerging technology challenges.

Using transformer-masked autoencoders, the team is developing techniques to enhance efficiency, adaptability, and robustness. Dr. Chaaban elaborates on their innovative approach of breaking down content, such as images or videos, into smaller packets for transport. AI is then employed to recover lost packets at the recipient, effectively reconstructing the content.

Integrating virtual reality into everyday communications is a key focus of next-generation technology. Dr Chaaban envisions AI’s role in creating complex architectures that propel communication technologies forward, particularly in adapting to emerging technologies like virtual reality. The collective efforts to address these intricacies are expected to usher in an era of adaptive, efficient, and secure communication networks.