A Method and System of Intelligent Transportation
By Chandra Vikash
Field of the Invention
The present invention is in the field of transportation and pertains more particularly to a method and system of transportation thus providing effective and efficient traffic management, and giving a consumer complete travel experience according to their choice along with other related services.
Background of the Invention
Customers today have a choice for a product / service in respect of food, clothes, housing, etc. at its microest level. Customers, however, do not have a similar choice in the field of transportation and travel services, for e.g., a choice for a vehicle, with a choice for an infrastructure and with a choice for an environment. Even the company that sells the highest premium segment car, for e.g., does not provide a high quality travel experience that extends beyond the vehicle.
Ideally, in the filed of transportation, three aspects are to be looked into Le. vehicles, infrastructure and environment, to properly cater to the consumers' need of choice. The consumer would ideally want to choose within options in different areas such as, for e.g., walking / cycling / motorbikes / scooters / automobile; vehicle - rentals / lease - chauffer or self-driven; rickshaw / taxicab / bus/ train, etc., along with other mobility options such as carpooling, car sharing, ridesharing, etc. In respect of goods
transportation, options include enabling the consumer to carry the goods with him or in carts, small and large lorries, trailers, wagon trains, etc.
In the field of transportation of people and or goods over short and long distances, there are significant wastes. In a systemic view, these wastes in the known system of transportation, originates from in-congruencies in the following areas, such as:
1. Traffic volume and carriage capacity of the road section;
2. Traffic flow expectation and vehicle driving quality; 3. Vehicle seating capacity and vehicle occupancy;
4. Vehicle location and passenger / goods location;
5. Vehicle optimal speed range — fuel efficiency, safety, depreciation - and vehicle speed in traffic conditions;
6. Vehicle model / features and consumer preferences; 7. Usage scenarios depicted in advertisements and actual usage scenarios;
8. Vehicle obsolescence - psychological, technological and economic;
9. Recyclability and modularity of a vehicle, sub-assemblies and components for reuse;
10. Vehicle characteristics — weight, optimal speed range, tyre characteristics, ground clearance - and road surface;
11. Vehicle and infrastructure design and accessibility requirements for elderly, children and for disabled;
12. Travel time expectation and vehicle speed;
13. Repair and maintenance complexity of vehicle (compounded by increase electronic / software components) and Information available to private vehicle owners;
14. Supply and demand of road network;
15. Supply and demand of parking stations;
16. Supply and demand of vehicle fuels - Petrol, Diesel, CNG, LNG, Bio-fuel, Hydrogen Fuel Cell, Electric, Solar, Compressed Air, Hybrid etc.;
17. Fueling point - location, time, appropriate fuel type and vehicle location and information available to private vehicle owners;
18. Vehicular pollution and environment's absorption capacity;
19. Traffic signal times and traffic flow; 20. Price points for available service and consumer's willingness to pay;
It should be noted that the undesirability of these wastes is from a consumer point of view even as some of these in-congruencies are exploited by vested interests for value appropriation. Examples are:
1. Lack of appropriate infrastructure and environment for walking and cycling in densely inhabited areas for short trips. This encourages escalating use of automobile for these trips which are not suitable for the purpose Le. as density of automobile use in the area increases more people feel unsafe to walk or cycle and switch to automobiles;
2. Safety perception in case of uneven collision with a heavier vehicle leads to escalation in size and weight of automobiles;
3. Lack of transparency in prices for proprietary replacement parts, optional fittings, and whether a specific component or sub-assembly needs to be replaced;
4. Lack of transparency in fuel brands which claim mileage and vehicle-life enhancing benefits and the appropriate fuel-type for a vehicle;
Existing approaches focus on one hand on packing more strength and features on the vehicle:
a. Greater safety and security for the occupant - more metal protection around the vehicle, airbags, emergency response etc.;
b. Communication for navigation assistance, concierge to find a location or reach there by a less congested route etc.;
c. Online information - stock quotes, weather updates etc. while traveling and while they are stuck in traffic jams.
Alternatively, known methods either focus on the infrastructure alone such as creating more roads, flyovers or my framing more stringent traffic rules.
Another prevailing approach is to circumvent the problem by focusing on mass rapid transit solutions such as underground metro or high capacity bus as a panacea. Even though they are useful on the high-density corridors, their capital cost is high for wider deployment, looking at various factors such as the cost of land acquisition, digging underground in built-up areas in an entire Region and the traffic disruption they cause during their long construction phase. In such a case, they fail to provide door-to-door mobility and to entice commuters away from their private vehicle.
Many urban areas have poly-nucleated development with high dispersion of inhabited areas. Overall, though this approach is a useful complement, it distracts attention from the larger problem of the need for a comprehensive approach.
The above approaches fail to take a systemic view of vehicle-infrastructure- environment elements and the need for an integrated solution for traffic management coupled with consumer choice and satisfaction.
In light of the limitations in the prior art it has occurred to the inventor that a systemic solution for providing better transportation, traffic management and consumer travel choice is needed.
Object of the Invention
One of the objects of this invention is to provide efficient transportation services and complete travel experience to a consumer according to their choice, preferences and affordability.
Another object of this invention is to manage the traffic in such a fashion, which causes less traffic congestion, assures consumers of the travel time, road-safety, etc.
Another object of this invention is to facilitate and enhance the mobility of the consumers or their goods but simultaneously better and efficiently utilizing the available energy resource for such mobility.
Brief description of the Drawings
Fig. 1 is a diagram illustrating classification of Land according to the embodiment of the present invention.
Fig. 2 is a diagram illustrating the laying and classification of the road network according to an embodiment of the present invention.
Fig. 3 is a diagram illustrating the Expressway-Over-Bridge constructed at the Expressway - Street Intersection in accordance with the present invention.
Fig. 4 is a diagram illustrating the structure of an Expressway Station according to the embodiment of the present invention.
Fig. 5 is a diagram illustrating the Light & Slow Vehicles ("LSVs") Port constructed according to embodiment of the present invention.
A Flow Chart illustrating the operation of the System in accordance with the embodiment of the present invention.
Description of the Invention
The present invention provides method and system for providing seamless, door-to- door mobility services for people and for goods for short and long distances at market- mimicking price points.
The inventor provides a unique method and system of intelligent transportation to provide efficient transportation service; complete travel experience to a consumer according to their choice and preferences; manage the traffic in such a fashion, which causes less traffic congestion, assures consumers of the travel time, road-safety, etc. The method and System of the present invention are described in enabling detail below.
Classification of the Land Area:
Layout of the Region and Yillage/s:
The layout of the Regions and Village(s) in accordance with the present invention can be explained and illustrated with reference to Fig. 1.
According to the present invention, the entire given land 100 under implementation is classified as a Region 105. According to the present invention a Region 105 could be, for example and without limitations, any urban area, rural area, province, country or even a continent. As per the preferred embodiment of the present invention, a given Region 105 should be an area identified on the basis of parameters such as, for e.g. but
without limiting, the area within which a significantly large majority of surface trips begin and terminate.
According to the embodiment of the present invention, in a given Region 105, certain geometrically shaped Villages 110 are formed. As per the preferred embodiment of the present invention, however, and for the purposes of implementing the present invention effectively, Villages 110 should be the areas in the given Region 105 identified on the basis of parameters such as, for e.g. but without limiting, the places where majority of trips begin and terminate. Further, according to the preferred embodiment of the present invention, the Villages 110 should be formed in a hexagonal shape (honeycomb).
According to the preferred embodiment of the present invention, Villages 110 are inhabited areas in a given Region 105 and each Village 110 is normally made up of 4 to 8 sq. kilometers. A Village 110 can also be made up of an area either more than 4-8 sq. kilometers or less than 4-8 sq. kilometers and hence the said distances specified herein should not be seen as a limitation. The area of the Village 110 may also vary depending upon the preferences of the implementers on criteria such as, for e.g., population density in that area and its identity as a single community, etc. and hence the said distances specified herein should not be seen as a limitation.
Laving and Classification of the Road Network:
The layout of the Road Network in accordance with the present invention can be explained and illustrated with certain appropriate figures.
Expressways:
The layout of the Expressways 115 in accordance with the present invention can be explained and illustrated with reference to Fig. 2.
According to the embodiment of the present invention, the Villages 110 formed in accordance with the present invention are bound or connected by interconnected Expressways 115 in any appropriate manner. According to the preferred embodiment of the present invention, the Villages 110 are bound or connected by Expressways 115 on various sides. For the purposes of the preferred embodiment of the present invention in respect of how Villages 110 are bound by Expressways 115, please refer to the illustrated Fig.2.
According to the present invention, Expressways 115 are multi-lane carriageways with exclusive access to Fast and Heavy Vehicles ("HFVs"), for e.g. but not limiting to, cars, vans, buses and trains, and which are further described below in the embodiment of the present invention. According to the present invention, Railways - elevated, surface or underground - are also classified as Expressways 115 in this definition.
According to the embodiment of the present invention, an Expressway 115 gives access only to motorized HFVs. As per the preferred embodiment of the present invention, proper known means for obstructing trespassers, animals, etc. should be along the side-line of the Expressways 115 to avoid these problems. Known means such as construction of walls or fences along the side-line of the Expressways 115 could be used. According to the present invention, the speed limit on the Expressways 115 could be determined after taking into consideration factors including the type of vehicles used on the Expressways 115, safety, etc. According to the preferred embodiment of the present invention, the speed limit on the Expressways 115 could be around 90 kilometers / per hour. The specified speed limit is only an indicative figure and should not be seen as a limitation.
Streets:
The layout of the Streets in accordance with the present invention can be explained and illustrated with reference to Fig. 2.
According to the embodiment of the present invention, a Village 110 so formed in accordance with the present invention comprises of roads and pathways called as Streets 120 laid in any desired manner. According to the preferred embodiment of the present invention, the Village 110 comprises of interconnected Streets 120 laid in a way to create a mesh of Streets 120 in the said Village 110. For the purposes of the preferred embodiment of present invention in respect of laying Streets 120 in a Village HO5 please refer to the illustrated Fig.2.
According to the embodiment of the present invention, Streets 120 are multi-lane carriageways for Light and Slow Vehicles ("LSVs") and includes dedicated lanes for pedestrians called as Pathways. LSVs include, for e.g. but without limitation, could be pedestrians, bicycles, very low to zero -pollution scooter, motorcycles, manual or electric rickshaws, golf-carts, etc., and which are further described below in the embodiment of the present invention.
According to the present invention, the speed limit on the Streets 120 could be determined after taking into consideration factors including the vehicles used on the Streets 120, the objects of the invention including using fast, safe and non polluting vehicles on the Streets 120, etc. According to the preferred embodiment of the present invention, however, the speed limit on the Streets 120 could be around 30 kilometers / per hour. The specified speed limit is only an indicative figure and should not be seen as a limitation. They optimize space with option for multiple rules — right side motorized, free overtaking. Lanes can be reserved for a particular class of vehicles e.g. bicycle lane and their width can be customized.
Exceptions to allow HFVs to ply over the Streets 120 can be made possible only in the case of emergencies such as inclement weather conditions with prior intimation through means for street alarm system, for e.g., blinking light indicators, sounds, etc.
Road Network Infrastructure Details:
The Road Network Infrastructure details in accordance with the present invention can be explained and illustrated with appropriate figures.
Expressway-Street Intersection:
The layout and the details of the Expressway - Street Intersection in accordance with the present invention can be explained and illustrated with reference to Fig. 3.
According to the embodiment of the present invention all Expressways 115 in a given Region 105 are interconnected. One or more Expressways 115 may also intersect with Streets 120. At such intersection known means in the industry can be provided to facilitate consumers plying on the Streets 120 to cross the Expressways 115.
According to the preferred embodiment of the present invention, an Expressway Over- Bridge ("EOBs") 130 is provided for facilitating the consumers including people and bicycles to crossover the Expressways 115 at such intersection with the aid of staircase, escalators or elevators for upward or downward movements. The EOBs 130 could also be adapted, with necessary modifications, to facilitate the consumers to cross the
Expressways 115 under the Expressways 115. According to the preferred embodiment of the present invention, whether the EOBs 130 are to be provided over the Expressways 115 or under the Expressways 115 are determined taking into consideration factors including the topography or the geography of the surrounding area.
Although the EOBs 130 can be powered by traditionally known energy sources, however, according to the preferred embodiment of the present invention, the EOBs 130 are powered by non-conventional energy sources such as solar sheds, batteries, fuel cells, etc.
According to the preferred embodiment of the present invention, at such intersection, in case EOBs 130 is so provided according to the present invention facilitate the consumer to cross the Expressways 115 over the Expressway 115, the EOBs 130 are to be elevated to a height sufficient enough to allow the tallest vehicle that could pass through the Expressway 115. Known technological ways and means could also be adapted to increase or decrease the elevation level of the EOBs 130 at such intersections.
According to the present invention, by providing EOBs 130 at such intersections, a grade separated intersection of Streets 120 and Expressways 115 is provided.
Street-Street Intersection:
According to the preferred embodiment of the present invention, all Streets 120 in a Village 110 are interconnected. Combined with the EOBs 130 all Streets 120 are seamlessly connected for pedestrians and for bicyclists.
Expressway Stations:
The layout and the details of the Expressway Station 135 in accordance with the present invention can be explained and illustrated with reference to Fig. 4.
According to the embodiment of the present invention, as stated earlier, all
Expressways 115 in a given Region 105 are interconnected and may intersection each other. According to the embodiment of the present invention, Expressway Stations 135, which are described more in detail below in the embodiment of the present
invention, are typically constructed at such intersections. According to the preferred embodiment of the present invention, Expressway Stations 135 are generally constructed at an elevated level in such a way that it allows incoming HFVs to pass through. According to the embodiment of the present invention, Streets 120 may also terminate at the Expressways 115. However, according to the preferred embodiment of the present invention Streets 120 terminate at Expressway Stations 135. Further, although Expressway Stations 135 can be constructed at such intersections according to the implementers choice, however, according to the preferred embodiment of the present invention, Expressway Stations 135 are typically located at every of 5 -8 kms. The specified distance herein i.e. 5-8 kms. is only an indicative figure and should not be seen as a limitation. Further, Railway stations in the Region 105 are also classified as Expressway Stations 135.
According to the present invention, Expressway Station 135 is a multi-storied building comprising of multi-level parking, vehicle fueling and servicing facility for HFVs. The Expressway Stations 135 also further comprise of facilities for other commercial establishments such as, but not limiting to, office space, retail space, hotels, business centers and transit warehouses, etc.
According to the embodiment of the present invention, the multi-level parking facility may provide for known methods for facilitating parking of HFVs. According to the preferred embodiment of the present invention, however, the multi-level parking facility can be provided to comprise one or more Multi-Level Parking Structures ("MLPS") 160. According to the preferred embodiment of the present invention, each such MLPS 160 can be so designated to stock a specific dimension of HFVs. For the purposes of the preferred embodiment of present invention in respect of MLPS 160, please refer to the illustrated Fig. 4. Further, according to the preferred embodiment of the present invention, such MLPSs 160 can be provided with means for upward and downward movement, including elevators, of the HFVs in a direction that suits the implementer's choice.
Although there are known methods that could be implemented for aiding parking of the HFVs in the multi-level parking facility, parking of the HFVs is preferred, according to the embodiment of the present invention, to be provided for with the aid of a ramp.
According to the present invention, at each story of the Expressway Station 135, provision or means for charging the HFVs are provided. According to the preferred embodiment of the present invention, such provisions or means for charging can be provided in such a manner that each HFVs are connected to a power grid to receive or to send electrical power as required.
According to the present invention, the parking facility provided at the Expressway Stations 135 also comprise multiple fueling points for various fuel sources and types, and carriers fuels such as gasoline, hydrogen fuel cell, electric, bio-fuels, etc. According to the present invention, the Expressway Stations 135 are also equipped with designated areas for fueling / servicing for any type of HFVs.
Light and Slow Vehicle ("LSV") Ports:
The layout and the details of the LSV Port in accordance with the present invention can be explained and illustrated with reference to Fig. 5.
According to the preferred embodiment of the present invention, and as discussed earlier in the embodiment, all Streets 120 in a Village 110 are interconnected. According to the present invention, at intersections including Street- Street intersections, or Street-Expressway intersection or even at an Expressway Station 135, typically, a port called as an LSV Port 165 is constructed. Such LSV Port 165 may be at a ground level (compared to the surrounding area) or at an elevated level, depending upon the implementer's choice. Although according to the present invention LSV Port 165 are typically located at every street corner or at intersections, according to the preferred embodiment of the present invention, an LSV Port 165 should be located
such that at least one LSV Port 165 is located within walking distance from any inhabited area.
According to the present invention, LSV Port 165 are equipped with energy sources for facilitating energy to the LSVs. According to the preferred embodiment of the present invention, however, LSV Port 165 are covered with plastic solar sheets, which are wired to charge LSVs5 as required.
According to the present invention LSVs Ports 165 also provide for parking LSVs. According to the embodiment of the present invention, any known means for providing parking can be provided. However, the preferred method for providing parking at the LSV Port 165, according to the embodiment of the present invention, is by providing racks of dimensions suitable for accommodating LSVs including bicycles, golf-carts, etc.
Classification of the Vehicles:
According to the embodiment of the present invention, vehicles to be used in the present invention are classified under two categories i.e. Light and Slow Vehicles ("LSVs") and Heavy and Fast Vehicles ("HFVs").
Light and Slow Vehicles:
According to the embodiment of the present invention, LSVs are very low to zero emission vehicles, which ply on Streets 120. LSVs are further characterized as manual driven / automated guided vehicles- pedestrians, bicycles, very low to zero-pollution scooter, motorcycles, manual or electric rickshaws, golf-carts, etc. According to the present invention, LSVs have low acceleration and a low peak speed. According to the preferred embodiment of the present invention, LSVs should have a low peak speed of
about, but without limiting to, 30 km / hr. According to the present invention, LSVs typically use combination of human solar and electric power to directly power the vehicles or solar sheds, which charge batteries, which in turn power such vehicles.
Heavy and Fast Vehicles:
According to the embodiment of the present invention, HFVs are motorized heavy and fast vehicles, preferably having low to zero emission levels, such as cars, buses, etc running typically on Fuel Cell, CNG, or HSD. HFVs ply on the Expressways 115 and are suited for long distance travel. According to the present invention, HFVs, generally, move from one Expressway Station 135 to another, with zero or very few stops. According to the present invention, HFVs can have varied capacities. According to the preferred embodiment of the present invention, however, HFVs should be of a size and shape with a view to optimize road space. Further, according to the preferred embodiment of the present invention, HFVs are typically having capacities between 4 to 40.
Controlling Systems:
According to the present invention, in a given Region 105, a central information hub called as a Central Information Center ("CIC") is established for providing and handling issues comprising of registration, issue and service of consumer membership / user cards; facilitate enquiry, information, booking and reservation for a near trip or a far trip; central display of all vehicles including HFVs and LSVs in the Region 105 and or Village 110, data processing for the purposes of determining a driver proficiency rating (DPR), route determination and dispatch, transfer of HFVs amongst Expressway Stations 135 based on demand, traffic signal control, traffic violation and incident management; handling the traffic in the given Region 105 or Village 110 and incidental
matters and information thereto, etc. According to the present invention, the CIC can be also be assigned such other responsibilities as per the implementer's choice.
According to the present invention, the CIC will possess, contain, store and process all information / data relevant for the transportation services provided by the Service
Provider, which is the subject matter of the present invention, and would further utilize it to provide efficient transportation services, coupled with complete travel experience to a User according to their choice, preferences and affordability, who also face less traffic congestion, and are assured of their travel time, road-safety, etc.. The system facilitates and enhances the mobility of the consumers or their goods but simultaneously better and efficiently utilizing the available energy resource for such mobility.
According to the present invention, the functions or the services rendered / delivered by the CIC can also be performed or delivered with the aid of various channels including establishing one or more local counters at various public and desired locations.
According to the preferred embodiment, however, the functions to be performed, and the services to be delivered, by the CIC, can be bifurcated or handled by separate centers performing respective functions as may be assigned. The preferred details are as under:
Regional Transportation Information Center:
According to the present invention, for a given Region 105, a Regional Transportation Information Center ("R-TIC") is established for providing and handling issues comprising of registration, issue and service of consumer membership cards; facilitate enquiry, information, booking and reservation for a near trip or a far trip, etc. According to the present invention, communication between the R-TIC and the
consumer can be effected through any communication mediums. Further, according to the present invention, the functions or the services rendered by the R-TIC can also be performed or delivered with the aid of various channels including establishing local counters at various public and desired locations.
Regional Traffic Control Station:
According to the present invention, for a given Region 105, a Regional Traffic Control Station ("R-TCS") is established for the purposes of handling the traffic in the given Region 105 and incidental matters and information thereto. According to the present invention, R-TCS performs such functions and looks into issues including central display of all HFVs in the Region 105, data processing for the purposes of determining the Driver Proficiency Rating ("DPR"), route determination and dispatch, transfer of HFVs amongst Expressway Stations 135 based on demand, traffic signal control, traffic violation and incident management, etc.
For determining DPR the parameters include close adherence to the navigation plan, lane, target speed, direction, etc. Any deviations are recorded and the report generated is sent to the R-TIC at the end of the trip. The payment to the User-Driver varies with the DPR. There may be more than one user possessing the DPR, who are willing to drive. Users bid for the driving assignment and the User with the highest DPR gets the assignment. In situations, where no User qualifies, a staff driver is assigned for the trip.
According to the present invention, the R-TCS can also be assigned such other responsibilities as the implementer may choose to.
Village Traffic Control Station:
According to the present invention, for a given Village 110, a Village Traffic Control Station ("V-TCS") is established for the purposes of handling the traffic in the given Village 110 and incidental matter and information thereto. According to the present invention, V-TCS performs such functions and looks into issues including handling central display of all LSVs in the Village 110, transfer of LSVs amongst LSV Port 165 based on demand, traffic signal control, traffic violation and incident management, etc. According to the present invention, the V-TCS can also be assigned such other responsibilities as the implementer may choose to.
System Operation:
The operation of the system can be illustrated with the aid of a flow chart.
Payment Modes and Flans:
According to the present invention, a User can avail of the transportation service, which is the subject matter of present invention, of the Service Provider by various modes comprising of subscription mode, per-trip mode, validity mode, etc. Similarly, according to the present invention, a User can be given an option to pay for the services based on the criteria including the nature of the trip i.e. near trip or a far trip, etc. Similarly, according to the present invention, a User can be provided with various plans for availing of the services of the Service Provider for e.g. Value Plan, Platinum Plan, Gold Plan, Silver Plan, Economy Plan, etc. Additionally, the User can further be given plans for availing the services of the Service Provider based on the Vehicles that they may choose to use for e.g. a high subscription rate for a HFVs, etc. According to the present invention, a User is also given the option for post-paid mode of payment or pre-paid mode of payment, for the purposes of availing the service. Additionally,
according to the present invention, a pre-paid card can also be made available for a visitor User who seeks to avail of the service.
Communication with Central Information Center:
According to the embodiment of the present invention, a User communicates with the CIC (and includes R-TIC5 R-TCS or V-TCS as the case may be, hereinafter collectively called as CIC) of the Service Provider with communication means such as telephone, Internet, kiosks, etc. According to the preferred embodiment of the present invention, a communication device is to be made available inside the given Vehicle (including LSVs or HFVs or otherwise) for better communication between the User with the CIC and avail of the phenomenal navigational / transportation services provided by the Service Provider. Additionally, according to the preferred embodiment of the present invention, communication devices can and should also made available at appropriate public places (closed or open) and or at desired places according to the implementer's choice, for the User. Additionally, according to the preferred embodiment of the present invention, a User, who may be an illiterate person, also has an option of communicating with the CIC and availing the services of the Service Provider by visiting a local counter of the CIC opened by the service provider for those purposes.
According to the present invention, the CIC possesses, contains, stores and processes all information / data relevant for the transportation services provided by the Service Provider, which is the subject matter of the present invention, and would further utilize it for providing efficient transportation services, coupled with complete travel experience to a User according to their choice, preferences and affordability; manage the traffic in such a fashion, which causes less traffic congestion, assures User of the travel time, road-safety, etc.; facilitates and enhances the mobility of the User or their goods but simultaneously better and efficiently utilizing the available energy resource
for such mobility.
According to the present invention, a routine or a frequent User can also set default settings of the information relevant for availing the services. According to the present invention, thus, a routine or a frequent User can customize his travel information for a specific customizable itinerary.
Near Trip and Far Trip:
According to the preferred embodiment of the present invention, a travel Le. starting point to the destination point, of a User is categorized into two i.e. Near Trip ("NT") and Far Trip ("FT"). According to the preferred embodiment of the present invention, a NT is a trip, which is typically less than 5 kms. The specified distance herein i.e. 5 km. is only an indicative figure and should not be seen as a limitation. In certain situations, depending upon the Service Provider's choice, the distance to classify a trip as an NT can be more than 5 kms. According to the preferred embodiment of the present invention, a NT is typically made only on Streets 120 with the aid of LSVs. However, in certain situations, for e.g., emergency, transportation of goods, etc., a NT can be made with the aid of HFVs.
According to the preferred embodiment of the present invention, a Far Trip ("FT") is a trip, which typically exceeds 5 kms. The specified distance herein Le. 5 km. is only an indicative figure and should not be seen as a limitation. In certain situations, depending upon the Service Provider's choice, the distance to classify a trip as a FT can be more than 5 kms. According to the present invention, a FT is typically a trip between two Expressway stations 135 with no stops at a High Value Plan to very few stops at a Lower Value Plans. According to the preferred embodiment of the present invention, a FT is broken down into a NT from the origin point to the assigned Expressway Station 135; a FT between the assigned Expressway Stations 135 and
another NT to the end point. According to the present invention, such breaking down of a FT into two NTs and a single FT makes the User pay on the actual use basis.
According to the present invention, in case a User intends to halt in between his journey, he may specify the same accordingly. The User may specify various information of his choice including a hotel or restaurant when he intends to halt or while breaking his journey may opt to walk for a specified distance for pleasure purposes or for health purposes before resuming his further journey, etc.
According the preferred embodiment of the present invention, the operation of the
System can be illustrated with the aid of the folio wings steps along with the illustrative flow chart.
Step 0:
The User registers himself with a Service Provider. He chooses from amongst a variety of subscription plans like Platinum, Gold, Silver or Economy, etc., at multiple price points. Service levels such as maximum travel time; vehicle models, telematic services etc., are defined for each subscription plan. Within a specific plan a User can also make preferences about seating arrangement, drive or ride option, list of favored co-travelers, list of telematic services etc., and the mode of payment. A User can update its subscription plan, preferences with prior notice.
A User can make payments by a pre-paid or post paid mode. In post-paid modes, monthly bills are dispatched to the User. Options to pay by cheque, cash, or electronic payments are also available.
Visitors in the Region 105 are issued short duration, pre-paid Member Smart cards. The balance upon completion of their stay is refunded in person or delivered to the visitor address.
All Users have to produce authentic photo-identity proof at the time of registration, which are subsequently verified by the Service Provider.
Upon completion of registration process, a User receives a Member Smart card, which stores detail about their identity. The User subscription details are stored at the CIC.
Step 1;
A User communicates to the CIC for information, buying tickets or making reservations with the aid of any communication means such as phone, computer, kiosks, etc. The User may also avail of the services of the Service Provider manually by visiting any of the local counters opened by the Service Provider for such purposes. They may also set a default option for a routine travel, in which case they need to communicate in case of change in their travel plan.
Step 2:
A User specifies his nearest starting point from the available choices and the destination details for e.g. the area, street address, landmark etc.
Step 3:
A User receives a confirmation of their request and information like boarding location, vehicle number, and seat number about their booking for each segment of their journey. A User can take note of the information or print this e-ticket. At local
counters, a User receives a paper ticket. A User has to carry his Member Smart Card for their identification.
Other Features:
According to the present invention, a User along with providing transportation services is also provided with other advantages and services including travel time assurance, road-safety, etc.
Travel Time Assurance:
According to the present invention, the User can be provided with various services and methods, to assure the User of the travel time, the services comprising, for e.g., compensated the User for loss of the time, etc. According to the present invention, with fewer vehicles and an optimal mix of vehicles of different sizes, the traffic flow is predictable in this system. According to the present invention, a User can set as default settings, according to his preferences and needs, and using a combination of traffic control measures, information including individual vehicle speeds, etc.
On-Road Safety and Security:
According to the present invention, a User is provided better vehicle and passenger safety and security. With fewer vehicles, fewer drivers are needed. Additionally, according to the preferred embodiment of the present invention, the CIC collects, preserves and processes data pertaining to driving information of a User. The said information is utilized by the Service Provider for assigning a rating for a User-Driver called as a Driver Proficiency Rating ("DPR"). Accordingly, the present invention, as preferred, identifies better drivers and offers them the choice and incentives to drive from amongst those who travel on the same route. According to the present invention,
as preferred, the higher DPR, higher compensation is to be paid to such User-Driver. Additionally, according to the present invention, the Service Provider can also monitor Vehicles for their roadworthiness. According to the preferred embodiment of the present invention, with the aid of the CIC, the Service Provider is enabled location and remote management of vehicle in case of emergency.
Road Quality Service Assurance:
According to the present invention, Users pay for using the road (Expressways 115, Streets 120, or otherwise) for the number of miles that they ride at a rate that closely reflects their consumption of the road infrastructure and allied services. In this way, according to the present invention, good quality roads, their upkeep and maintenance, and availability of road space based on demand, is made available to the User.
Clean Environment Assurance:
According to the present invention, with fewer vehicles on roads, pollution is reduced. As every vehicle carries more people than earlier, the present invention provides for vehicle upkeep and upgrade to cleaner fuels and / or vehicle technologies. This facilitates faster absorption and commercialization of alternate fuel technologies and vehicles such as hybrids, fuel cells, solar-electric, bio-fuels etc. Hence, through the present invention, Users are thus assured of clean air services for stretches where User may choose to walk (for health reasons) or need to walk in areas where there is no motor vehicle access.
Favoured Co-Traveler Service:
According to the present invention, Users can choose whether they want to travel alone or select their favored co-traveler. For these purposes, they can create a list of people
or Users can enter profiles of people; they want to travel with. According to the preferred embodiment of the present invention, the favored co-passenger list is approved with mutual consent. According to the present invention, the favoured co- passenger list can be edited, updated by the Users.
Portability:
According to the present invention, User can also avail of personalized services in other Region 105 where this system is implemented.
Environment Friendly:
By implementing this present invention, air-conditioning in vehicles becomes redundant except in extremely hot or cold conditions and for vulnerable Users. This is due to various reasons including the pollution -emission and dust levels significantly decrease.
Healthy and Wholesome:
By implementing this present invention, in a wholesome approach to the User's overall needs, they can choose to walk or bicycle comfortable distances in a pedestrian- friendly environment that is included in the overall travel experience.
Freedom: Choice to Ride or to Drive, No Refueling, Repair or Maintenance:
According to the present invention, Users are given freedom to choose when to drive and when to travel as a passenger. According to the present invention, with this freedom, if they like driving and qualify as a good driver i.e. their Driving Proficiency Rating is above a threshold level, they can earn for their service to the system.
Alternatively, according to the present invention, they can just take a ride, with the comfort that the driver has been selected by the system to provide a safe ride.
According to the present invention, Users do not have to take vehicles for refueling. According to the preferred embodiment of the present invention, the Service Provider can constantly monitor the vehicle including the fuelling, performances, etc. This minimizes the chances of a vehicle break down. Further, according to the preferred embodiment of the present invention, the Service Provider in situations like for e.g. break downs, accident, etc. promptly arranges for an alternate vehicle to reach the point of incidence, hospital, etc. as the case may be. According to the present invention, the Service Provider also provides for handling of insurance issues.