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...a series of long oval coils placed directly under the ties (to minimize the air gap between the coils in the layout and the model). Maybe the coils could be incorporated into sectional roadbed track (like Unitrack), to make it modular and easy to install.
Some maglev trains work this way. One disadvantage or complication might be the need for control blocks. I'm pretty sure that everything within one block will need to move in the same direction at the same speed. On the other hand, I think you could just put permanent magnets in any car and it would become motorized. That could be interesting.
The idea here is to use induction solely to supply power to the locomotive--instead of rails. From there on out, a wireless form of DCC takes care of direction, etc. No blocks required.
I imagine it wouldn't work with DCC but an induction system might be interesting for DC micro layouts with lots of opportunities for iffy pickup. I suggested the overhead IR system thing that didn't sell very well because I was thinking more in line with what would work with DCC to keep a cap charged. But of course that doesn't work if there is any scenery above the track. And beyond that would there be any danger to an induction system? If it would work how I remember it working from High School BioChem wouldn't stray bits of metal or pooled liquid heat up over time?
What about using both rail for primary delivery, and induction for a secondary or backup through troublesome areas like switch frogs and crossings, or is it the direct and induction cannot be used simultaneously?