Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Automatic route guidance vehicle
Reexamination Certificate
1999-09-15
2001-06-19
Camby, Richard M. (Department: 3661)
Data processing: vehicles, navigation, and relative location
Vehicle control, guidance, operation, or indication
Automatic route guidance vehicle
C701S117000
Reexamination Certificate
active
06249724
ABSTRACT:
FIELD OF THE INVENTION
The present Invention is in the field of mass transit and pertains more particularly to methods and apparatus for enabling an intelligent public transit system using dual-mode vehicles.
BACKGROUND OF THE INVENTION
As urbanized areas in major industrialized nations have become more congested in population, roadways, turnpikes, expressways, freeways, and the like have become more and more congested, and new ways of moving people have become more important. A good example of such congestion is in Southern California, particularly the Los Angeles area. Urban sprawl continues for many miles around Los Angeles, requiring ever more investment in highway infrastructure, which the relatively recent devastating earthquake in that area proves is a vulnerable investment.
These developments over many years have also prompted development and implementation of various mass transit schemes designed primarily for commuters who live and work in the area. Bus systems, train systems, and other rail-type mass transport systems are generally available for commuters in the more industrialized and modern areas.
There are also many congested urban areas around the world that are not modernized with respect to transportation. Often too few roadways are available in these areas. The roadways that are available are often congested to the point of gridlock. Lacking rail systems, commuter-lane freeways and other such infrastructure enjoyed in more modem urban areas, these poorer areas are disadvantaged, at least from the aspect of efficient transportation infrastructure, such that they may not contribute and develop economically, as they would be enabled to do if there were adequate transportation.
It has been generally believed that introducing more conventional forms of mass transit such as rail systems, more buses, trolleys, etc. could alleviate congestion problems on roadways and the like. To this end billions of dollars are devoted to more-or-less conventional mass transit systems. However, it has been found that in modem areas people more often prefer independent modes of travel, such as by automobile. even when commuter lanes on freeways are available for private automobiles, it seems most commuters would rather go it alone than join a carpool or solicit others to form one. Moreover, rail systems and other common mass-transit modes are enormously expensive and must be generally supported through paying ridership by the public. When enough individuals cannot be solicited to patronize such a system, it may suffer from lack of maintenance, poor service, and in some instances, service may be discontinued altogether. The alternative of building more freeways to accommodate individual motorists is extremely expensive and takes up otherwise usable space.
In view of the above considerations, it is very desirable as public policy to provide an economically-feasible system of mass transit that also provides personal privacy and individual freedom to users of such a system. While there have been efforts to provide more personalization and individuality with respect to mass-transit modes, these systems are often prohibitively expensive, or do not provide enough individuality or personalization to attract large numbers of users, which, in the long run is self-defeating. Some of these prior art systems involve no more than providing improved communication between transit authorities and passengers, while others attempt to provide independent modes of travel on special roadways that are modified from existing roadways, or built new at extravagant costs.
One such prior art system is taught by U.S. Pat. No. 5,669,470, issued on Sep. 23, 1997 to Howard R. Ross, hereinafter referred to as Ross. Ross provides an electrically-powered vehicle with on-board batteries adapted to ride on a special designated roadway adapted to inductively distribute electrical energy to each vehicle. While this system may alleviate some traffic on normal roadways and provide for individually personalized transportation, either normal roadways must be modified, or new roadways must be constructed to facilitate such electrically powered vehicles.
Breaking up existing roadways is extremely expensive as is building new roadways. Moreover, with many roadways already widened to support special commuter lanes, it is doubtful that adding lanes for electric vehicles would be practical even if the expense could be met.
Another prior art system, U.S. Pat. No. 5,739,744 issued to Antonio Carlos Tambasco Olandesi, hereinafter referred to as Olandesi, simply provides computer capability to gas-powered buses in a transit capacity. Such capability affords drivers and passengers with a knowledge of scheduling information, current time status such as length of delays, scheduled arrivals, and so on. The onboard computer means communicates with terminals at stops along the route. However, passengers still must pack in as a group and do not have any individual control accept for boarding and disembarking, as with conventional bus systems.
Still other prior art systems provide individual vehicles adapted to ride on a rail-like above-ground structure. Almost invariably, such systems require rigid confinement of the vehicles to the rail-structure such that the vehicle is constrained to ride on a special rail or in a special groove. No dual mobility is afforded with these rail systems which is a common constraint seen with many prior art aboveground rail systems.
It is desirable in view of the above limitations associated with the state of the art to provide a transit system that provides a passenger with all of the privacy of driving a personal vehicle, while also enabling the passenger to enjoy a worry-free commute void of any requirement to navigate the vehicle. It is further desirable to provide such a system relatively inexpensively and with infrastructure that is modular in nature and may be quickly assembled or taken down without taxing precious land resource or significantly disturbing the environment.
One prior art system that provides a relative few of the desired characteristics described above is taught by U.S. Pat. No. 5,473,233 issued on Dec. 5, 1995 to Mark A. Stull and George F. Dippel, hereinafter referred to as Stull et al. Stull et al. teaches a mass transit system that uses a special roadway whereon a vehicle is driven via electromagnetic power provided by an electric utility and special electromagnetic elements or coils implanted at short intervals along the roadway. The implanted elements communicate with magnetic apparatus (large magnets) installed in each vehicle. The vehicles are urged forward by an electromagnetic current distributed at various modulations to control the speed of each vehicle.
Each vehicle in the Stull et al. system may operate in dual mode in the sense that when not on the special roadway whereon electromagnetic propulsion is the only option, it may be operated as an electric vehicle capable of self-propulsion on a typical surface roadway. Each vehicle is adapted to carry only a few passengers, a constraint necessary due to the mode of travel.
One problem with this system is that it relies on a special roadway that must be modified from an existing roadway, or created new. As described above, tearing up existing roadway to embed special surfaces and electromagnetic modules is prohibitively expensive. Such a dedicated roadway or guide-way also requires many entrance and exit ramps of sufficient length to accommodate acceleration to an optimum speed of travel, which may be up to 150 miles per hour according to Stull. Similarly, the amount of electric current needed to provide power for the embedded coils limits the scope of Stull's system requiring, that it be implemented for short distances only such as in urban locales. This constraint limits the number and type of commuters that may benefit to those local commuters living within the city. Moreover, in areas where heat during the summer may cause unusual demand on electricity, the system appears vulnerable.
Even though the infrastructure of St
Boys Donald R
Camby Richard M.
Central Coast Patent Agency Inc.
McCrary Personal Transport System, LLC
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