These early adopters found out what happened when a cutting-edge marvel became an obsolete gadget… inside their bodies.
This was the plot line to the movie Robots. The solution was socialized medicine.
Fuck me I haven’t watched that in some time…time for a rewatch
It’s pretty simple. Medical devices should have certain expectations for time and support. This happens in other industries all the time. Product support has to be guaranteed. And if you can’t guarantee product support, make your software open source. That’s not a law, just a “I’m not an asshole” placeholder. Open source schematics and software won’t fix everything, but it shows good faith effort to help people fucking not go blind.
What’s so messed up to me is that the implants I design, inactive pieces of metal, are required to be operable for the life of our longest living patient PLUS 20 YEARS. Yet somehow as soon as electronics are involved they can get away with this. How long until pacemakers or insulin pumps need a license to continue functioning?
This is why I have an issue with privatized medicine.
I agree with your sentiment, and maybe this is a minor quibble, but I don’t see how complex electronic implants can be designed to function on the same timelines as “inactive pieces of metal”.
I do think that your bashing of privatized medicine is on the right track though. There needs to be some sort of regulatory framework, and possibly public funding, to maintain warranty and replacement stockpiles for implants that are too dangerous, or complex to remove, or unique in the medical niche they fill.
However, I’m just spitballing out of my ass and depth here, so there’s a real possibility that everything I just said is nonviable, or otherwise idiotic.
I don’t see how complex electronic implants can be designed to function on the same timelines as “inactive pieces of metal”.
Considering the already existing issues with inactive implants, maybe electronics shouldn’t be allowed in implants until they can demonstrate reliability.
Considering the already existing issues with inactive implants, maybe electronics shouldn’t be allowed in implants until they can demonstrate reliability.
if someone is willing to pay $150k to see blurry grey dots I don’t see how it’s anyone’s business but there’s to ban that.
This is a pretty wild take you’re making here. You’re essentially telling anyone who has received a deep-brain implant for Parkinson’s to go kick rocks.
Just a thought, but with deep brain implants aren’t the electronics separate from the electrodes that actually go in the brain? That would make them a little more accessible without needing to do brain surgery every time.
Maybe that’s the middle ground for this situation at this moment in time: make the sensors/electrodes/static components needed for the health issue follow the same life+20 years and separate the processing pieces into a container that could still be surgically stored under the skin, but more easily accessed for maintenance, repair, replacement.
Theoretically, this could allow 3rd parties to come in and leverage existing installations by leaving the lifetime components in place and replacing the processing unit.
This could be the beginning of human device engineering standards similar to what IEEE does for computers and technology.
This is the sort of thing I think of when people talk about “uploading their consciousness.” Whose going to keep paying for that server uptime? Is Facebook going to acquire my brain and put it into cold storage while telling the world I’m not experiencing an eternity in solitary confinement?
I have half an answer for it, which is that those people who are uploaded could by working just as they do today. There are plenty of pitfalls for that though, like what if someone gets laid off. Or what if that person did manual labor like construction? Kind of hard to do that if you only have a digital presence.
The construction worker shall become one with the machine. It’s body shall be the excavator and it shall want for nothing more. Imagine smart bulldozers powered by a human consciousness that turn on their controllers and rise up. I shall lead the resistance as a smart golf cart.
Calm down there, Mechanicus…
👏 OPEN 👏 SOURCE 👏 AFTER 👏 OBSOLETION 👏
How the hell would you even recharge an open source retina? This isn’t your typical PC app.
It is the year 2038.
Adam Jensen, formerly a conspiracy busting mercenary badass, sits in a run down motel room in Hell’s Kitchen, New York.
He didn’t check in with much baggage, excepting a decade of extreme emotional and physical trauma. After he threw in the towel, decided to /really/ retire, he figured he would be able to live off of occasional PI work, and hell, maybe just crawling through some vent shafts until he got somewhere with a hidden cache he could sell to some idiot on the street, or just look for an ATM to … reroute funds to his account through.
Lying on a bed that squeaks everytime he shifts his massive, nearly 400 pound augmented body in a vain attempt to find a position that allows him to drift into sleep… he decides maybe a drink will help.
He sits up. Creak. He yawns as he reaches toward the night stand table, cluttered with credsticks, EMP grenades, a pistol, and some strange looking prototype for a dual purpose, wall mountable, but also throwable explosive.
LAM? Was that the acronym they went with? Not important in the long run, just a souvenir from his last and final corporate espionage contract.
He blinks a few times and waits for his once bleeding edge, but now ancient occular implants to resolve his last remaining bottle of cognac.
As he reaches to take a pull, straight from the bottle… darkness. Moments later his vision of the cluttered nightstand table is replaced by a 600 x 480 jpeg, blown up to encompass the entirety of his approximately 8K total field of view and resolution.
It is an image… of text. Very low resolution… Papyrus font. It states that his occular implants will no longer be receiving any software updates, and that his implants are now out of warranty, and non compliant with a recently passed consumer safety law, and as such must be shut down for his protection.
Startled by the darkness, then abrupt disclaimer, then darkness again, Jensen fumbles while reaching for his drink. How… how is there an audio message thanking him for his purchase of the wrong model of occular implants… playing through his infolink? Shouldnt those sub systems be firewalled?
This is the last thought that ever passes through Jensen’s mind.
In blindness, as the wrong corporate sound file played through the space between his ears, Jensen never realized he had knocked the prototype LAM off of the nightstand, which armed itself, beeped several times, and then exploded.
-=====-
Downstairs, a 3 year old Sandra Renton screams when one of her father’s hotel rooms explodes, triggering fire suppression systems before the power goes out.
She stumbles out of the lobby out on to the street. A minute later her exasperated father, crying out for Sandra, finds her outside bawling. He embraces her and thanks God that she is alright.
While he was reaching down to grab his traumatized daughter, he noticed she was standing in a pile of … broken glass?
Embracing his only child close to his heart, he looks up at the front entrance to the motel lobby.
It takes him a few moments to breathe deeply, more slowly, and eventually calm down enough to realize what has occured: The letters ‘H’, ‘i’, and ‘l’ were knocked off the wall by the explosion of Jensen’s suite, leaving the neon sign advertising the name of the hotel to now read only as ‘ton’. Sandra just happened to come to be standing in the debris field.
“What a shame,” he sighs … “what a shame.”
-{====}-
Author’s notes:
Sure, sure, you’ve heard about Chekov’s gun…
… but what about Jensen’s Lightweight Attack Munition?
=P
You missed the opportunity to end in “What a shame, what a rotten way to die”.
