This appears to be cross-posted from another spot on the forum, please don't do that. And see my reply on your other post for more specifics about shrinkage comp.
ACI's slabs on ground committee is working on a new guide which will address slab design and does include fiber reinforcement - the fiber industry is investing heavily in making their product visible and getting it accepted into the codes.
By whatever means you achieve it, the method to control crack width is to be sure that sufficient steel crosses the cracks as they try to form. Widely-spaced, larger diameter rebar may not initially control cracks as well as smaller, closely-spaced bars or wires (as in mesh). Fiber is attractive for the control of initial, visible crack development, but does not prevent cracking although the width of cracks is generally well-controlled. Over time, bars and wires may perform better than fibers, since they are not subject to the raveling that can make shorter fibers useless. In a properly designed, placed and cured cured slab, of sufficient thickness, over a well-prepared subgrade, most slabs do not need reinforcement for some period of use. But over time, we find that performance and appearance deteriorates in unreinforced slabs, particularly with the economic considerations required for very large slab areas (that is, it is important to save a little thickness/admix/curing/reinforcement in each square foot since you could have millions of sq ft.) It is impractical in most cases to construct the BEST slab possible, so we construct the best slab we can afford. There are always tradeoffs of performance for economy.
Almost all slab on ground PT we see here is unbonded.
