Posts Tagged ‘Really Cool Stuff!’

Back to the Future Station

Saturday, July 31st, 2010
Back to the Future Station

L - R: Carter, Neumann, Kii, Sato

On my recent business trip to Tokyo, I had the opportunity to have lunch with my good friend Hajime Kii and his family.  I know Kii-san from when he was a senior executive at NTT America and I was working at CITI at Columbia University.  Kii-san was kind enough to arrange a visit to NTT DOCOMO’s Future Station for me and WIK’s CEO Karl-Heinz Neumann while we were in town.  At its Future Station, DOCOMO presents a short film showcasing its high-concept vision of its product and service offerings for the near-term future.

I had mentioned to Kii-san that I had seen it in 2001 as part of a delegation from Columbia University including Eli Noam and Robert Pepper (now at Cisco Systems).  The 2001 version included a short film showed DOCOMO’s vision for wireless communications in the year 2010.  Eli and Pepper kept giggling and looking at me because the kid in the 2001 film was named “Ken”.  Now that it is 2010, I was clearly interested to compare the 2001 film to the 2010 version and to the products currently offered.

Well, aside from the fact that the kid in the film is now called Hiro, many of the ideas in the 2001 film have made their way into current products and prototypes.  After the film we got to tour their showroom.  Granted, the floating touch screens are still science fiction; however, products like ITS (Intelligent Transportation Systems), augmented reality, multimedia handsets, mobile commerce, and location-aware services have made it into their cool new handsets.  My favorite handset comes with a detachable QWERTY keyboard and a projection monitor.  One can use any Bluetooth keyboard (unlike my complaint with the iPhone) and can use the detachable projector to make presentations (movie screen not included).  We also were able to play with a protype handset which does augmented reality, allowing you to see what it would be like to have a new car (you can change the style, color, etc.) in your driveway.  Dr. Neumann was able to use one of display handsets to buy a drink from a vending machine and buy a Big Mac from a McDonald’s mock-up.  Using your cell phone to pay for anything from train tickets to lunch to groceries is completely old hat in Japan.  DOCOMO also showed us two new handsets which have natural wood exteriors.

Hokusai's Great Wave off Kanagawa

Hokusai's Great Wave off Kanagawa

The other cool fact I learned from the 2010 film is that the yukio-e woodblock prints of the master Hokusai Katsushika captured the movement of water at 1/5000 of a second.  (By comparison, most digital SLR cameras are not faster than 1/1000 of a second.)

Insight: DOCOMO’s Future Station is very cool.  While visiting the Future Station, I was like a kid in a candy shop on Christmas morning.  Being there reminded me why I got into telecommunications in the first place – because tomorrow will always a brighter day with bigger (smaller), better, faster and Cooler Stuff.  I will have to go back in 2020.  I will give you an update then.

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Next Generation Spectrum Regulation

Wednesday, December 9th, 2009
Spectrum band plan created by price-guided mechanisms

Spectrum band plan created by price-guided mechanisms

Winston Churchill famously said, “democracy is the worst form of government except all the others that have been tried.”  Perhaps the same can be said of spectrum auctions.  Auction mechanisms have been used starting in New Zealand in 1994 to award spectrum licenses to those who have the highest monetary value. Spectrum auctions have generally been highly effective, with the occasional failure.

Despite their success, auctions have some notable drawbacks such as the so-called winners curse and the fact the up-front license fees require spectrum users to raise capital beyond the princely sums necessary to build a wireless network – a barrier to entry.  However, auctions are far better than the administrative processes which have been used for nearly a century to determine spectrum assignments.  Administrative decisions tend not to be economically efficient because the regulator has limited access to information which market participants would be more able to amass and utilize. There are also problems of political independence and of regulatory capture.

While auctions have been used to determine who gets spectrum rights, they have not really been used to determine the contours of those rights.  These contours are still determined through administrative decisions.

I have just completed a major study on next generation spectrum regulation which can serve as the basis for removing certain barriers to spectrum access, allowing more effective sharing and efficient allocations.

I can think of no reason why a properly designed auction could not determine not only who gets the spectrum rights, but what those rights are.  (Think of it this way: an auction on eBay for a car could determine not just who gets the car, but the color of the car and whether it comes with, say, leather seats or alloy wheels.)  I built a mathematical model of a next-generation spectrum auction using the Shannon-Hartley Theorem as a means modeling behavior by valuing the spectrum when considering the actions of other would-be users.  In my model bidders could express their demands for not just bandwidth, but power, modulation, underlay/interference, and other characteristics.  When I ran an MS Excel-based version of the model, the result was a mix of high and low power uses in the winning bids.  The low power bidders (similar to UWB spectral densities) could in a second round be aggregated into some form of licensed commons with the coordination protocol determined in that part of the auction.  The outcome would resemble a shared use or common arrangement where no one party controlled the spectrum.  However, the most interesting thing was that because bidders could obtain spectrum allocations that more closely fit their needs, more than 40% of the spectrum bandwidth available in the auction was left unsold.  This spectrum was valued by the market to be best allocated to either public sector use or even low- to mid-power unlicensed use.

Insight:  You cannot see, touch, taste, smell, or hear radio spectrum.  Spectrum is not a thing; it is an idea – a legal and engineering construct that explains a physical phenomenon and helps us arrange our behavior accordingly.  That fundamental physical phenomenon is the fact that when electromagnetic waves are: (1) harmonic in frequency; (2) incident in time; and (3) alight on the same reception device, the ability of those waves to be used as information carriers is degraded.  This deleterious effect is known to us as interference.  Without some form of intervention, it is impossible to exclude or limit the use of a common resource such as spectrum. Without exclusion, users consume the spectrum without regard to fact that their usage causes the deleterious effect of interference for other would-be users.  Policies which help to mitigate inference with the least amount of effort will be the most socially beneficial.

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Cool Cube

Saturday, October 24th, 2009
C is for CUBE

C is for CUBE. The School has its own hand sign.

On my trip to Japan earlier this month, I was invited by my good friend Prof. Harumasa Sato to speak to his undergraduate students at the Konan University in Kobe.  Prof. Sato did not ask me to talk about spectrum, Net Neutrality, interconnection, or some other issue in communications.  Rather, he asked me to speak to his students about my life and international career experience.  Since this is the inaugural year for the school, so I was delighted to address the students.

Prof. Sato is the Dean of the new business school and spent the past three years setting it up. And, what can I say for his efforts?  It’s totally fucking cool.  The school is referred to as “CUBE”, aptly named for the building cube-like shape.  Prof. Sato roams the halls speaking to his students. (When I was in business school, and the students saw the Dean coming, they went the other way).  Inside, the building is a fantastic mix of high-tech classrooms, work spaces, meeting spaces, and offices. The main lounge is an English-only “O-Zone” so that the students can practice their business English.  The TV in the lounge is not a TV, it’s a Mac streaming YouTube.  Everything is wireless, including room lighting controls, projection monitors, and the contactless RFID security passes, which are in cell phones. Students use their cell phones not only as security cards to gain entrance to certain areas of the building, but to buy drinks from the vending machines.

Insight:  Kids today, I tell you.  They don’t know how cool they’ve got it.  My time at CUBE got me thinking about my own undergraduate experience.  As a college student, I spent Spring and Summer semesters junior year studying in Japan.  I cannot imagine how different my education would have been had we had these technologies and the wide-spread adoption of the Internet.

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No, Mr. Bond, I expect you to dive!

Wednesday, March 5th, 2008

squba_a1_250.jpgThe other day while I was waiting for a haircut, I picked up a German auto magazine. Since I cannot read German, I figured I would get more out of it than any other magazine. At the very least I could make some sense of the classifieds. Well, I found this, the sQuba. It is a concept car from a Swiss company called Rinspeed. The car is a Lotus Elan converted with an electric motor and all the necessary gear to make it a submersible, à la James Bond in The Spy Who Loved Me.

Insight: Alright, this has nothing to do with communications; however, since I was in the third grade I always assumed that I would build one of these in my garage. This is possibly the coolest thing ever. I simply must have one.

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