I can appreciate this very practical stance and I naturally urge all my technical colleagues to persist in their struggle for pragmatic victory, but I can't help but voice some concerns that at the very least may lead to an illuminating response capable of at long last disabusing me of my critical notions. You may imagine similar concerns would perhaps arise in you if massive societal resources were to be invested in finding the "next biggest number" because a multitude of people have decided math can't be trusted or some loophole is thought to be found through empirical effort alone.
Hume's reasoning on this particular issue, and I am taking liberties here, boils down to the idea that anything can cause anything and there is no necessary connection between anything. At least, no connection we would be able to gather with our senses. The causal, necessary, connection between one billiard ball causing a second ball to move is not to be found anywhere in raw sensory data itself. You will not find a "third element", the "causal relationship", anywhere. There is just raw sensory data, one ball coming from the left, two balls besides each other and then one ball moving away to the right. The idea that one ball caused the other to move is made up. It is fiction. It is, at best, a habit of the mind to find those sort of correlations and label them as "causal". I dare you to find a flaw in that argument. As convincing as it is, it is pretty damning for any enterprise that wants to call itself scientific or even rational. Nothing we will experience, nothing we will ever think up, no matter how sophisticated, will, on a fundamental level, ever amount to anything more than "more or less probable".
This famously awoke Kant from his "dogmatic slumber". Luckily for him he found some problems in Hume's argument, and again I am taking liberties, because to entertain even the idea of an external world filled with objects like billiard balls presupposes the existence of tiny, slightly important things like, oh I don't know, time and space itself. Hume, where do you pull these from? You can look in raw sensory for evidence of time and space for a long time and, like looking for causality, you'll come up empty-handed, unless, and here is the point, you bring those notions with you and "wear those glasses", so to speak. You massage the data so it will fit the spatio-temporal domain and now you can start making sense of it and not a figurative second sooner.
There are all sorts of parallels here with problems in AI (IMO). Neural networks are asked to infer concepts like time, space and causality by just looking at a lot of data and I can't help but be skeptical of success. The interesting thing to me here is that AI has made these dry and academic philosophical debates practical and useful. Hume talks about billiard balls, but it is easy to convert this into ML lingo by considering, say, some excitation of an array of artificial neurons that is followed by another configuration of excitation. What is their connection? How will you ever unearth "causality" from these completely unconnected events? Nothing about this problem has changed its nature at all in the past few hundred years.
If "causality" or "necessary connection" is too abstract for your taste, consider that to, say, have any type of memory mechanism at all you have to have some sort of sensory apparatus - say, a neuron or some multitude of them - that is capable of holding, say, event A and some unit of time later, event B and can then connect those two by assigning a probability of some kind between them. Is there any other way? Can you build memory without using a mechanism vaguely of this kind? But notice you are bringing the notion of the temporal to the data instead of the other way around. Nothing about event A or event B can tell you what the nature of time is. You bring it inside your sensor which has a "before" and "after" slot. Kant would say "Aha! There it is. You could not find anything in the data so you had to preprocess it in order to make it intelligible", but he would do it in dense, long-winded, inscrutable German. (He'd probably make fun of you without you knowing it as well.)
It is through the nature of this, in our case temporal, sensor that any kind of temporal connection can be made, not through the data itself. That is quite something and I am having a hard time refuting this line of reasoning. If you need more than space, time and causality you can consider the problem of "substance": how will you keep track of an object that alters its appearance? How do you "know" that some entity is merely changing appearance by, say changing clothes or moving through a dark spot and is thus dimly lit all of a suddenly, but is "essentially" the same? What's this "essentially"? How much of an sensory impression can change before it is a "different entity"? This problem has the same character as the temporal and causal problem. The data itself will not be illuminating unless you bring "substance glasses" with you.
Strong AI might be found implementing Kantian category sensors like Unity, Plurality, Causality, Substance, etc. A guy can dream right.