In which case, you could view the image even better if you just changed the whole backdrop to gray, instead of just random parts of it. This would correspond to the “using the same knowledge to produce a superior algorithm” part of the article.
As I understood it, the article specifically did not state that you can’t ever improve a deterministic algorithm by adding randomness—only that this is a sign that you algorithm is crap, not that the problem fundamentally requires randomness. There should always exist a different deterministic algorithm which is more accurate than your random algorithm (at least in theory—in practice, that algorithm might have an unacceptable runtime or it would require even more knowledge than you have)
In which case, you could view the image even better if you just changed the whole backdrop to gray, instead of just random parts of it. This would correspond to the “using the same knowledge to produce a superior algorithm” part of the article.
As I understood it, the article specifically did not state that you can’t ever improve a deterministic algorithm by adding randomness—only that this is a sign that you algorithm is crap, not that the problem fundamentally requires randomness. There should always exist a different deterministic algorithm which is more accurate than your random algorithm (at least in theory—in practice, that algorithm might have an unacceptable runtime or it would require even more knowledge than you have)