For someone like me, a digital map is easier than a paper one. I can easily search for a location I've never been to before (manual search takes forever on paper). Zooming in and out is easy, with different overlays for routes, topography, satellite, and even street view in some locations (zooming is possible on paper if you install the magnifying glass add-on). The cost of constantly updating paper maps is much more than digital, and with a little bit of download it should be able to support an offline mode (why doesn't my android phone support off-line maps?). And bookmarking (and the learning curve in general) are getting easier. How easy would it be just to say "remember this place for later. And add it to my favourite restaurant list. And check me in here. And Tweet it with hashtag #goodeats." That would be the power of a transparent, voice operated interface like Glass is proposing.
The biggest issues are reliability, accessibility, and learning curves. Consider navigation. My paper map has never crashed, slowly rebooted, failed due to "no service", or experienced a battery failure. It is completely unobtrusive until I access it. The learning curve was relatively short (long ago in my youth) and the user interface has never changed. Bookmarks can be placed in a moment with a ball point pen. Of course, the paper map is useless in new locations. The learning curve on digital maps is long (placing a bookmark the first time was a very long and painful process), the reliability is miserable (as you enter the wilderness, "no service" terminates navigation access), and unexpected glitches make instant access undependable. In short there are advantages of both the digital connections and the legacy systems. Somehow digital systems need to address these challenges, in the meantime it is prudent to carry legacy (paper) backup systems when traveling. Exactly the same lessons apply to banking (just try gaining access to historical financial records from a few years ago - especially for closed accounts). Emerging digital solutions have a half life of about 6 months.
Very challenging to build but if Google manages that most young people will wear it within a year or so...really cool, I am not that young but will buy it ASAP...even with limited functionality, I bike frequently...Kris
It's a cool concept but Project Glass will have to get away from an antenna near the temple region if they don't want users concerned about SAR from wireless components. Also, based on that form factor, it will be fairly difficult to design all of the electronics into the device without investing in custom ASICs. Power supplies (including battery), wireless devices with EMI shielding, a processor, storage, audio and video codecs + analog interfacing. It will be a challenging design task for sure.
In a lot of ways I think Google will be betting on the advancement of Cloud computing and mobile networking speed to make many of the things shown possible. Voice transcription, mapping, alerts, face recognition, social tracking, and many other tasks are going to be primarily preformed by the very large and optimized Google server farm while the Glass device is primarily display and interface. Right now, this is a slow and tedious process, but it's not inconceivable that speed increases and larger, smarter databases will make this a real (useful) possibility.
@Rick: More importantly, when I look at an emerging visual technology like Google Glass, I examine it through the lens of a hearing impaired electrical engineer, namely, how can it help me, and millions of other hearing impaired Americans, cope with day-to-day living?
First off, even the basic heads-up display is a G-dsend: One of the things we depend on is CapTel (captioned telephone), which is conducting a regular voice phone call, and having the other party being monitored by a relay operator who also transcribes the call, with the text appearing on our phone like this:
or appear on our mobile like this:
Now, let's say you're hearing mpaired, and walking down the street while talking to someone on your mobile: Instead of holding the phone up to your hearing aids or cochlear implant (CI) -- And missing many words -- or looking down to read the captions, instead the words come into our ears, and then appear in front of our eyes a second or two later. Pretty cool, ehh?
For the cognitively impaired, overlaying information on landmarks while walking about (as a sort of "heads-up GPS") would be very helpful.
Lastly, for those who are cognitively impaired when it comes to recognizing faces -- Or more accurately, connecting a familiar face to a name (which is absolutely maddening, as that's me) -- this would be a huge help.
For much more, talk to the good people at the Rehabilitation Engineering Research Center at Gallaudet in DC:
Editor, The Hearing Blog
Replay available now: A handful of emerging network technologies are competing to be the preferred wide-area connection for the Internet of Things. All claim lower costs and power use than cellular but none have wide deployment yet. Listen in as proponents of leading contenders make their case to be the metro or national IoT network of the future. Rick Merritt, EE Times Silicon Valley Bureau Chief, moderators this discussion. Join in and ask his guests questions.