I really think it depends on your situation.
Because the heap is generational, the GC may not get rid of certain large objects or bitmaps on its first pass, and its heuristics may not indicate that additional garbage collection is necessary, but there are definitely scenarios where the heuristic could be wrong, and we as the developers have knowledge of a pattern, or can predict usage that the GC cannot, and therefore calling system.gc() will benefit us.
I have seen this before in specific scenarios such as dealing with map tiling or other graphic intensive behaviors, where the native GC in Android (even on 3.0+ devices), doesn't get it right, resulting in Out of Memory errors. However, by adding a few GC calls, the Out of Memory errors are prevented, and the system continues to process albeit at a slower rate (due to garbage collection). In graphic intensive operations, this usually is that state desired (a little lag) over the application crashing because it cannot load additional resources into memory.
My only explanation for why this happens in certain scenarios appears to be timing. If user operations are slow, then the native Android GC seems to do great. However, if your user is scrolling fast, or zooming quickly, this is where I have seen the Android GC lag behind, and a few well thought out System.gc() have resulted in my applications not crashing.