Our focus is on applying distributed collaborative networks to automate
and profit from recovering wasted resources and time for commuters.
JPods networks will likely grow as did computer networks.
Starting with LANs (Local Area Networks) were
specific problems were solved.
Progressing to WANs (Wide Area Networks) as
paybacks encourage a networking of networks.
We are currently implementing three technologies
based on the following concept:
Subject: Customer Focused Transit
There is a profit in saving people time and money.
Urban transit accounts for 13-15% of GDP or $1.5
trillion in the US.
Cost per passenger mile for cars is about 41
cents; cost for ultra-
light Personal Transit is about 18 cents; a 57% savings. With 15%
market adoption yearly saving will be $53 billion, which can be taken
as profit or competitive advantage. Worldwide, with 45% adoption the
yearly profit/advantage, is $794 billion.
Commuter infrastructure has so much waste and
pollution; significant profits can be wrought by preempting that waste.
Free enterprise will create solutions, harvesting rewards by preventing
Affordable commuter transit can be found in an
open discussion of needs, what is currently valuable/limiting and who
has to pay.
- Personal mobility is essential to our economy.
- The need in for individual transit, there are
1.08 people per car in rush hour(s).
- The average American worker loses a workweek
per year to congestion.
- Five billion gallons of gas are wasted yearly
in congestion (ASCE).
- Rush hour gets longer and slower every year.
- Gas is at record highs
- Goldman Sachs warned investors on April 30,
2005 that oil could soon be at $105 per barrel. The price was $48 a
barrel. Aug 16 it was $67.
- China used 40% of the world's cement and 27% of
the world's steel last year. The average American uses 27 barrels of
oil per year. The average Chinese uses one barrel per year. If they go
to two barrels oil is unlikely to drop in price.
You can only pee in the well so long before the water tastes bad. We
live in a fixed sphere. How we waste matters. Potholes, road rage, air
pollution, gas prices indicate economic and environmental stress.
What can be done to something as vast as
transportation? Repeat history. automating networks always results in
economic and living standard increases.
To control diseases we automated water and sewer networks
To power farms and businesses we automate electrical networks.
To improve manufacturing we implemented "just-in-time"
networks and automated statistical process controls.
Fred Smith (FedEx) discarded all assumptions, designing for the need to
affordably move a package anywhere in the country overnight. The result
is the FedEx network and the letter pack.
Networks are non-linear, solving problems that
seem impossible. There is enormous power in non-linear behaviors. We
tap such power with the Internet. We can build a Physical-Internet.
Design for need, enhance desirable characteristics
and eliminate undesirable ones. Apply Demming and "just-in-time"
principles; abandon mass transit as we abandoned mass production. Focus
on the quality and value of the product, the trip; how trips network
Based on riders per day the elevator is the most
successful form of public transportation. Salient characteristics:
affordable to everyone, "on-demand" when we want one and we abandon it
when finished, consumes little waiting for the next need. Their
liability is they move vertically.
The automobile is the most successful form of commuter transport in the
US with characteristics of comfort, security and on-demand. There are
six commuting liabilities:
- Consume energy, create congestion moving a ton
to move a person (a ton of parasitic mass, mass not passengers or
- When at work we have to store this ton of
- For the first 16 and last 16 years of our lives
we lose personal mobility with our capacity to drive.
- Economic and educational opportunities are
severely limited to those who cannot afford to own and operate a car.
- Traffic wear and tear degrades a valuable
- Consume land, about 52% of urban real estate
Automating a commuter network must compete
against the best characteristics of cars and elevators while preempting
their limitations. Needed are secure, personal, lightweight cars,
available to everyone, with no driver errors, that can be abandon on
reaching the destination and consuming very little land.
It is counter-intuitive that smaller vehicles can
move more people. Look at red blood cells servicing trillions of body
cells. Wastes can be batched; necessities must stream in packages
designed for need.
Consider ants. An ant can profitably survive on a
crumb. A million ants can eat an elephant; a billion can eat it in an
hour. It is counter intuitive that many small efforts can move more
than batching large efforts.
Who pays for the system? Each commuting customer
pays. Empowering choice forces system developers to add more value than
the cost to compete, to profit.
There is a profit in saving people time and
Paper Comparing Mass Transit to Mass Production
Links to efforts and background