Thanks for sharing that story, Bob. It shows the other side of the coin--not only can the car find a spot for you, but it also can help you find IT (or it finds YOU) if you've forgotten where you've parked. I am among those type of absentminded people who sometimes actually forgets this trivial detail as well. :) If the programming is right and the car is intelligent enough, I, too, can see its usefulness in limited situations, as long as all types of safety precautions are taken and the car only uses appropriate spots. I am not sure I am comfortable with the idea of driverless cars going all over the roads, but in limited and specific use cases, I am all for it.
During my junior and senior years at the university I was a commuting student and lived off-campus. My wife and I had a small apartment about 10 miles from the parking lot that serviced most of the engineering buildings. (I'll just bet you know what's coming next.) There were those mornings, when leaving late, I just managed to slide into the last parking space, jump out of the car, and literally run to class. I never looked back to notice where I had parked. That bit of trivia could wait. Four hours later, it was walk and search. I really could have used Nissan's robocar back then. I drove a third-hand Ford Falcon, grey in color. In other words--a generic car very suitable for my commute but somewhat nondescript. From that experience, I can definitely see some benefit from a vehicle such as this but wonder if their time is near or far. Let's hope the safety aspects are well thought and remain operational during the life of the car.
The frequent fault associated with automating things is that many people forget how to do them, or just get way out of practice. That could lead to disater when they forget how to drive, since the most likely time that a human would need to take over would be for some exception that the system was unable to deal with. That would be a real problem.
Another portion of this blog has been discussing the start-stop button for cars. One button for both start and stop has got to be one of the very stupidest things ever released to the public. No apology offered, it is just stupid to have one control with two opposite functions. Even more, to have that control just sending a request to a computer is very poor judgement indeed. If you examine the industrial controls industry you will see that for many years the emergency stop function has been in hardware, bypassing the computer (PLC). That was not just a "suggested practice", it was a non-negotiable rule, both by PLC makers and by the industry management people, the safety people, and even the unions. They all had a mandate that the emergency stop function not only be a single function button, but also that it be independant of any computer type of controls.
If the controls in your robotic car fail, you certainly don't want to be in the situation where your only option is to say "please stop". Computers often don't hear very well.
These are all good concerns, William, and I imagine the car makers will address them in the underlying programming to make sure they don't cause problems. I imagine it wouldn't be hard to teach the car to recognize a handicapped sign or a bus stop through artificial intelligence, programming it to identify certain signs or the shape of a bus stop, for instance. I think rather than helping people who shouldn't be driving to drive, this car is actually meant to just make it a little less painless for the average and fully capable driver to get around.
So how will this wonderful driverless car understand to not park in a handycapped spot or a buss stop or fire lane? And if it is tom be so safe, it will be functionless and always som very slow, since it can't access risk, and it is moving based upon rules created by lawyers. And what will it do if there are NO parking spots? Would I come back four hours later and find a car out of fuel, or worse, with a dead drive batery?
At some time we must decide that the most poorly equipped 10% simply DON"T DRIVE, rather than give them a robot to help them cause accidents. Because computers can't actually think, they must follow sets of rules, and that precludes handling exceptions.
So instead of wasting time pushing in tht direction, research should pursue matter tramsort, instead. Another item from the future, but with vastly greater utility.
This is a bit off subject-- But, since I have a large group of car folks on line ... what is going on with head rests (a mandated feature?) one can no longer adjust the headrest front to back, and what is the wire that seems to be tied into the airbag system?
Chuck_IAG, What is this obsession with Microsoft and the Start button? There are countless products that use the same button/switch to start &* stop the device, yes? Lights, car key, TV, etc. There are lots of things to bash Gates about - but that one is not valid.
Suppose the parkbot will know how to discern the parking rules: street cleaning hours, local parking decal only, fire hydrant, etc?
Robots that walk have come a long way from simple barebones walking machines or pairs of legs without an upper body and head. Much of the research these days focuses on making more humanoid robots. But they are not all created equal.
The IEEE Computer Society has named the top 10 trends for 2014. You can expect the convergence of cloud computing and mobile devices, advances in health care data and devices, as well as privacy issues in social media to make the headlines. And 3D printing came out of nowhere to make a big splash.
For industrial control applications, or even a simple assembly line, that machine can go almost 24/7 without a break. But what happens when the task is a little more complex? That’s where the “smart” machine would come in. The smart machine is one that has some simple (or complex in some cases) processing capability to be able to adapt to changing conditions. Such machines are suited for a host of applications, including automotive, aerospace, defense, medical, computers and electronics, telecommunications, consumer goods, and so on. This discussion will examine what’s possible with smart machines, and what tradeoffs need to be made to implement such a solution.