Exploring healthcare in the 6G and AI era: Opportunities and challenges

The integration of AI with emerging 6G wireless communications promises to revolutionize healthcare delivery by providing ultra-fast, reliable, and intelligent medical services. Unlike previous generations of mobile phones, 6G is expected to offer sub-millisecond latency, data rates up to terabits per second, and connectivity for more than 10 million devices per square kilometer. Together, these technologies will enable unprecedented healthcare applications, such as real-time remote robotic surgery, holographic telemedicine, and continuous monitoring using bio-nanosensors within the bio-nano-internet of things.

This survey systematically analyzes the integration of AI and 6G technologies, focusing on how their convergence will enable enhanced edge computing, federated and generative AI models, low-latency analytics for personalized treatment, predictive diagnostics, and efficient resource utilization. We present a comprehensive comparison of 5G and 6G architectures, highlighting the limitations of current systems and demonstrating how 6G advancements can address critical healthcare needs, including data throughput, mobility, and security.

Furthermore, this work identifies detailed opportunities, such as AI-powered virtual nurse assistants, AI-enhanced drug discovery accelerated by hyper-responsive 6G infrastructures, and digital twin-enabled patient simulation. Alongside these opportunities, we critically examine the technical challenges related to spectrum management in the terahertz band, the design of energy-efficient IoT devices, robust data privacy frameworks that integrate federated learning and blockchain technology, ethical considerations surrounding AI explainability, and equitable access to healthcare.

By filling gaps in the existing literature, this paper presents a comprehensive framework that combines AI and 6G, specifically designed for healthcare systems. Our findings underscore the transformative potential of this combination for achieving proactive and accessible healthcare, while outlining a roadmap for overcoming prevailing technical, ethical, and infrastructural barriers.