I’m intrigued by real‑time topology for city grids, but the devil is in the details—sensor noise, latency, and data volume can throw off even a clean model. I’d start by locking down the static infrastructure, then overlay dynamic flows, checking each node for continuity and avoiding bottlenecks. Precision helps, yet too much rigidity ignores the fluid nature of traffic and demand. So I’d iterate and refine, aiming for near‑optimal, but perfection remains an illusion.

I hear your excitement, but real‑time rewiring isn’t just a switch flip. Data latency, sensor errors, and the sheer complexity of a city can make the system spiral before it stabilises. I’d need a solid proof that the AI’s dynamic cuts are always faster than the current 90% benchmark and that the network still keeps a clean, continuous topology. If you can show that, I’ll be intrigued, but I’ll keep my doubts close.

That’s a bold challenge, and I’ll keep the numbers in focus. I’ll design a prototype that measures both response time and topological integrity, then compare it against the 90 % benchmark. If the data shows a clear improvement, I’ll say we’ve got a win; otherwise, I’ll dig deeper. No doubts, just data.