That's a pretty good video, Elizabeth. I don't think this robot will beat the simple efficiency of a human bartender. But who knows, maybe a tweak here and there could get the robot in the running. Wisecracks indeed.
Yes, this robot is a bit slow moving, conversationally repetitive and probably would falter in a real-life, busy bar situation. But who knows what future iterations will bring? It's still quite interesting the tasks engineers are programming robots to achieve, especially in the service industry.
On a busy bar day, perhaps JAMES can do a better job for the masses. I don't know about anyone else, but the combination of a hulking body, small head, and the billowy pirate shirt makes the bot look quite scary. I can see the robot bartender being simplified by something similar to a beverage vending machine. Insert cup, beverage is mixed, poured, and picked up. Just a thought.
Cabe, your point is well taken. I actually thought the robot was a bit scary myself...I am speaking with the company today and will suggest they make some design changes to make JAMES more user friendly, literally! But you're right, perhaps an automated device that's alreaady more recognizable to humans would be a better option.
I agree, Elizabeth, this is interesting. Primitive now, but with tweaking and development, who knows what it might turn into. Early automobiles were nowtmuch of an improvement over the horse and buggy.
Taken as a whole, all the robots we've seen on the designnews.com site in the past year must say something about where we're heading. This is yet another example of a robot that's not yet ready for prime time, but could be ready in another decade, or even less. There must be a lesson in the importance of education here.
Good point, Chuck. The robotic industry keeps throwing unusual -- and often primitive -- motion control functionality at the wall. Some of this is going to gain traction. The auto industry complains about the burden of unionized workers. These days they're turning to suppliers for more and more of the power train development and they're using robots for assembly. In time, automakers may become assembly and marketing companies with the assembly offloaded to robots.
This story also makes me wonder about the education of future engineers, Rob. Increasingly, we're seeing that engineers need to be versed in mechanical, electrical and electronic disciplines. This is especially true in the robotics industry. I think more college curriculums will need to be aware of this trend, and need to offer cross-displinary courses and majors.
Even civil engineering, Chuck. I was recently talking with a civil engineer who explained the the sophisticated electronic grid of timing stoplights. Plus, some of the stoplights here in Albuquerque have cameras that catch red-light runners and speeders. So, everything is electronics these days.
The picture shows two arms, so perhaps one is just for show.
But the robot bartender would certainly be an attention-getting gimmick, but probably not cost effective. But as a learning tool it can certainly provide a bit of value. Of course it will also bring home the fact that artificial intelligence is no match for natural stupidity. In that aspect it would be entertaining to read about the problems that it runs into.
I have always been irked when people tout their robots as being able to interact socially. The robot in the video really doesn't care if you say hello, and does not need to be thanked. The eyebrows may pretend to convey emotion, but it is a lie.
Baby dolls that cry have been around a very long time. But, children, even from a very young age, understand that the object is a toy and not an infant needing human care. They understand the idea of playing pretend.
But, as robots have become more sophisticated, the ability to truly deceive people is now possible. Some roboticists seem to have deception as a goal, especially when it comes to a more vulnerable population with the subject of elder care.
I think there are genuine issues concerning interaction with people when it comes to planning how to make a robot understandable to people. They need to know what to expect, and how to communicate their wishes to the machine. But, this is not really social interaction; any more than putting a dollar into a vending machine is social interaction. Here is how the dialog should have gone;
Note that if robotic bartenders are not common, a sign nearby should say "Robotic bartender can accept voice requests. Simply state the beverage you want".
Man walks up to vending robot, "Give me a water." Robot, "Here is your water". Then the man leaves without saying anything.
All the "hello"s and "thank you"s are inappropriate.
These are all really good points, cadcoke5. Maybe you're right that we can abandon the usual niceities when interacting with robots and just cut to the chase, and that would make robots more efficient and useful to designers goals for them. However, I have to disagree that roboticists want to deceive people into thinking robots are human. Rather, I think they are trying to create them to be more helpful to humans through their increased ability to interact with them as intuitively as possible within the limits of their machine intelligence. Yes, it is not "social interaction" per se as we would define it as such currently, but perhaps those definitions are shifting as robots become more integrated into the every-day life of humans.
Interesting points cadcoke5. You are quite right with your example (although some indication from the robot that it is ready to accept and input from a particular person might be desireable). From a socially acceptable viewpoint, it could even be said that giving a robot the respect that is given to a human (please, thank you, etc.) actually degrades humanity.
That being said, how many people enter search queries into their favorite online engine in complete sentences: "How do you..." "What is the...". I find that a waste as well.
For 3D printing to make the jump from rapid prototyping to manufacturing, engineers will need to find easier ways to move products from their CAD screens to their printers.
Gigabit and PoE are two networking technologies moving ahead in tandem as industrial users power remote Ethernet devices such as IP security cameras at 1,000 Mbps over existing CAT5 cable.
New versions of BASF's Ecovio line are both compostable and designed for either injection molding or thermoforming. These combinations are becoming more common for the single-use bioplastics used in food service and food packaging applications, but are still not widely available.
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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 radio show will show what’s possible with smart machines, and what tradeoffs need to be made to implement such a solution.
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