I think you kind of answered your own question :) The big thing to beware of is differences between the floating point representation on the device and the server. These days they're both going to be little-endian, (mostly) IEEE-754 compliant. However, there can still be some subtle differences in implementation that might bite, e.g handling of denormals and infinities, but you can likely get away with ignoring them. I seem to recall a few of the edge cases in NEON (used in the iPhone's Cortex A-8) aren't handled the same as x86.
If you do send as a string, you'll end up with a decimal and binary conversion between, and potentially lose accuracy. This isn't that inefficient, though - it's only 10,000 numbers. Unless you're expecting thousands of devices pumping this data at your server non-stop.
If you'd like some efficiency in the wire transfer and on the device side, then one approach is to just send the doubles in their raw binary form. On the server, reparse them to a doubles (Double.longBitsToDouble). Make sure you get the endian-ness right when you grab the data as longs (it'll be fairly obvious when it's wrong).