I think the comment about becoming a robot is accurate in its way, the 'pick' of a space miner is likely a semi-autonomous front loader equivalent which can process for a particular mineral/substance.
However, if you read the article (either the parent or the NYTimes one) you will see that there is some thought about bringing an asteroid to one of the Lagrange points or into a Lunar orbit (something that would make the chance of it getting away and hitting Earth unlikely). In that scenario one could imagine living in one of those inflatable habitats where you worked while you operated your remote mining pick.
Getting to and from that point would probably involve a 'loan' from the mining company, which you could pay off by mining the asteroid. Of course while you lived up there you would need things like food and stuff but you could get that at the company store. And rather than actually charge you for it they will just put it on your tab. You know, you load 16 tons, and what do you get? Another day older and deeper in debt. :-)
As part of one of the lunar exploration projects I was looking at various ideas for processing lunar regolith into something more useful than just dirt. Water is pretty straight forward, basically it sublimates off stuff in a vacuum and you collect it and store it. Platinum is a different story, some sort of chemical/catalyzing process is required that does not require re-charging the chemical packs either at all or very often.
If you're bringing an object that close to home, I don't know why you'd need someone up there just to teleoperate the equipment. At that distance, the lightspeed delay gets low enough that the person with the joystick could work from earth.
It might be worth having someone up there to fix the equipment when something goes wrong... unless by that time we've developed teleoperated robots with the flexibility and dexterity and sensitivity needed to make arbitrary on-site repairs. You might remember from the Hubble repair missions [1] that these relatively simple tasks you might expect to take a few hours in an Earth-based lab took /days/ of EVA time. Imagine how much more difficult such things would be when you have to squint at the job through a camera (not as good as an eyeball), use clumsy manipulators instead of your fingers (you'll have force-feedback if you're lucky, but forget about feeling textures), and with some lightspeed delay on top of that. Don't underestimate the value of other human senses, either; often the first indication of a machine failing is that it sounds or smells wrong.
I suspect this would be the likely case, and there would be repairs / refueling / retooling. If asteroid mining was anything like planet mining the ability to adapt tools on the spot and evolve quickly was a huge boon.
One of the places I like to camp is Plumas-Eureka State Park [1] which is the site of an old gold mine. The stamping mill is kind of still there. One of the things the blacksmith docent talked about was that there was a competitive advantage at a mine to having a creative blacksmith, since they could build tools well suited to the kinds of rock and conditions rather than relying on 'off the shelf' sort of designs.
However, if you read the article (either the parent or the NYTimes one) you will see that there is some thought about bringing an asteroid to one of the Lagrange points or into a Lunar orbit (something that would make the chance of it getting away and hitting Earth unlikely). In that scenario one could imagine living in one of those inflatable habitats where you worked while you operated your remote mining pick.
Getting to and from that point would probably involve a 'loan' from the mining company, which you could pay off by mining the asteroid. Of course while you lived up there you would need things like food and stuff but you could get that at the company store. And rather than actually charge you for it they will just put it on your tab. You know, you load 16 tons, and what do you get? Another day older and deeper in debt. :-)
As part of one of the lunar exploration projects I was looking at various ideas for processing lunar regolith into something more useful than just dirt. Water is pretty straight forward, basically it sublimates off stuff in a vacuum and you collect it and store it. Platinum is a different story, some sort of chemical/catalyzing process is required that does not require re-charging the chemical packs either at all or very often.