US20150310379A1 - Shared vehicle systems and methods - Google Patents
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- US20150310379A1 US20150310379A1 US14/643,196 US201514643196A US2015310379A1 US 20150310379 A1 US20150310379 A1 US 20150310379A1 US 201514643196 A US201514643196 A US 201514643196A US 2015310379 A1 US2015310379 A1 US 2015310379A1
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- G06Q30/00—Commerce
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- G01C21/3438—Rendez-vous, i.e. searching a destination where several users can meet, and the routes to this destination for these users; Ride sharing, i.e. searching a route such that at least two users can share a vehicle for at least part of the route
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Definitions
- Personal vehicles generally provide a flexible form of transportation for commuters and passengers within urban environments.
- owning and operating a personal vehicle can be expensive when costs for the vehicle, fuel, insurance, and maintenance are factored in.
- personal vehicles increase congestion and pollution in urban environments.
- Public transit systems including buses, trains, subways, etc., that operate on a fixed schedule, provide alternate lower cost options for commuters. Shared transportation options reduce in-city congestion and improve air quality.
- a commuter may have limited flexibility in terms of departure and arrival times, as well as departure and arrival locations.
- a shared vehicle system Another shared transportation option that provides a good mix of flexibility, cost, ease of use, and environmental impact is a shared vehicle system.
- a fleet of vehicles are distributed over an operating zone (e.g., a city) and a user can rent any vehicle of the fleet for a short period (e.g., a few hours of a day).
- an operating zone e.g., a city
- a user can rent any vehicle of the fleet for a short period (e.g., a few hours of a day).
- the user can identify a vehicle he or she wishes to rent based on its location within the operating zone, and rent the vehicle without requiring additional paperwork.
- the user can then return the vehicle to the point of origin or drop off the vehicle at an alternate location, per the user's convenience.
- the shared vehicle system reduces the user's commuting costs while also reducing in-city congestion and pollution.
- the ability to pick-up and drop-off a vehicle at a time and location determined by the user
- shared vehicles intermittently have to be relocated to provide for rebalancing locations of vehicles in a shared fleet.
- one or more vehicle may have to be driven to a different part of the operating zone so that they are accessible to users there. In some cases, this may include driving a vehicle across the city.
- the fleet management system may have to hire dedicated drivers to drive the vehicles to the specific locations where rebalancing is achieved. As such, this adds cost and time to fleet management.
- FIG. 1 is a block diagram of an exemplary shared vehicle system.
- FIG. 2 is a high level representation of an implementation of the system of FIG. 1 .
- FIG. 3 is a process flow diagram illustrating an exemplary process for relocating a shared vehicle as part of providing a shared vehicle to a user.
- FIG. 4 is a process flow diagram illustrating an exemplary process for relocating a shared vehicle including providing transport to a user.
- rebalancing problems may be addressed by a method that provides targeted advertisements to users based on fleet rebalancing needs. For example, if one or more vehicles have to be relocated from a first region to a second region of the shared vehicle system's operating zone (e.g., due to a larger ratio of vehicles in the first region relative to the second region), a central server may identify users in the first region who have a history of riding into the second region. This and other operations disclosed herein may be provided according to instructions included in the central server or the like that is communicatively coupled to one or more shared vehicles, mobile devices, etc., e.g., via a wide area network that may include cellular, WiFi, and/or other technologies.
- the server may be programmed to make a prediction or predictions about a user's likely destination. If the user's destination matches a region where it is desired to relocate the vehicle, a targeted notification may be sent to the user advertising a discounted fare for the trip. In one example, it may be desired to relocate a vehicle to an area in the vicinity of a user's home location. A notification may then be pushed to the user, e.g., to a user's mobile computing device such as a smartphone or the like, advertising a discounted fare for driving the vehicle home. The notification may be pushed to an application running on a mobile device, such as a smart phone, of the user, while the user is in the vicinity of the vehicle needing relocation. In one example, the notification may be pushed when the user is passing by the vehicle needing relocation.
- the user may also be notified about ride sharing opportunities that then factor can in rebalancing requirements. For example, ride shares that achieve rebalancing may be discounted more heavily than ride shares that require subsequent rebalancing.
- users may be given a monetary incentive for relocating a vehicle for rebalancing purposes.
- the user selection may be based on user preferences, user settings, as well as user location relative to a location of the vehicle that requires relocation.
- the user may be rated upon completion of the rebalancing job. For example, after a first user has relocated the vehicle via their ride, a second user may request the vehicle. The second user may be queried about the status of the vehicle, such as whether the vehicle is clean, if fuel level is sufficient, vehicle maintenance is adequate, etc. Based on the second user's input, the rebalancing job performed by the first user may be rated and the rating updated in the first user's profile. Future rebalancing notifications may then be pushed based on the user's rebalancing rating. For example, users who have a higher rating may receive rebalancing requests more often than those with a lower rating. Alternatively, users who have a higher rating may receive better incentives for rebalancing jobs than those with a lower rating.
- the rebalancing operation and management may be operated through a central rebalancing system that receives information on user locations, vehicle locations, reservations, past routes, statistically likely routes in the future, weather, etc. Further, the rebalancing system may factor in the vehicle's state of charge and/or fuel level in managing rebalancing advertisements and notifications, as well as to parcel deliveries as part of the overall rebalancing goals. Users may he offered reduced rates that help increase the balance of the vehicle fleet to the desired spatial and geographic distribution and/or that enable a parcel or another user (for shared vehicle use) to reach a desired destination as part of the rebalancing.
- Maintenance may also be factored into the rebalancing management system. For example, a user may be notified of a discount if the user assists with a quick service of the vehicle during the journey/rental and/or if they user modifies a drop off location to improve rebalancing. Vehicle charging and/or refueling may also be part of the rebalancing operation, such that a user may be incentivized to move vehicles to a certain location as well as to plug the vehicle in for charging at the specified location. The system may monitor whether the vehicle not only reaches the specified location, but whether the vehicle enters a charging condition.
- the system may incentive certain rebalancing actions by providing incentives such as an increase user rating, increased discounts, etc.
- the vehicle itself may advertise, or a central application may push advertisements to users near the vehicle, the advertisements based on the particular user's profile that are near the vehicle.
- the advertisements (sometimes also called offers) may be focused on rebalancing the vehicle to a new location and target users more likely to be headed toward the rebalanced location.
- the users may be rated based on their likelihood of leaving the vehicle in a position with high, or low, need for rebalancing afterward. Such a rating may be further based on whether the user leaves the vehicle with a low charge, low fuel, dirty, unlocked, window open, etc.
- FIG. 1 is a block diagram of an exemplary shared vehicle system 100 that includes at least one, and typically, a plurality, of vehicles 101 , e.g., a shared vehicle such as a motorcycle, car, van, etc.
- vehicles 101 e.g., a shared vehicle such as a motorcycle, car, van, etc.
- Each vehicle 101 includes a computer 105 communicatively coupled with a network 120 .
- the vehicle 101 may further include a global positioning system (GPS) device 16 or the like in a vehicle 101 .
- Vehicles 101 may share roadways with vehicles 102 that are not part of the shared vehicle system 100 , i.e., that are not available for sharing via a server 125 .
- GPS global positioning system
- a vehicle 1101 computer 105 may be configured for communications on a controller area network (CAN) bus or the like, and/or other wire or wireless protocols, e.g., Bluetooth, etc., i.e., the computer can communicate via various mechanisms that may be provided in a vehicle 101 , and can accordingly receive data from vehicle sensors, communications via the network 125 , e.g., from the server 125 , etc.
- the computer 105 may also have a connection to an onboard diagnostics connector (OBD-II). Via the CAN bus, OBD-II, and/or other wired or wireless mechanisms.
- OBD-II onboard diagnostics connector
- a navigation system 106 may be provided in the vehicle 101 and communicatively coupled to the computer 105 to provide location data, e.g., via a global positioning system (GPS) or the like.
- the computer 105 may provide data, including location information of the vehicle 101 , to the server 125 via a network 120 .
- the network 120 represents one or more mechanisms by which a vehicle computer 105 may communicate with a remote server 125 and/or a user device 150 .
- the network 120 may be one or more of various wired or wireless communication mechanisms, including any desired combination of wired (e.g., cable and fiber) and/or wireless (e.g., cellular, wireless, satellite, microwave, and radio frequency) communication mechanisms and any desired network topology (or topologies when multiple communication mechanisms are utilized).
- Exemplary communication networks include wireless communication networks (e.g., using Bluetooth, IEEE 802.101, etc.), local area networks (LAN) and/or wide area networks (WAN), including the Internet, providing data communication services.
- the server 125 may be one or more computer servers, each generally including at least one processor and at least one memory, the memory storing instructions executable by the processor, including instructions for carrying out various steps and processes described herein.
- the server 125 may include or be communicatively coupled to the data store 130 for storing data received from one or more vehicles 101 .
- a user device 150 may be any one of a variety of computing devices including a processor and a memory, as well as communication capabilities.
- the user device 150 may be a portable computer, tablet computer, a smart phone, etc. that includes capabilities for wireless communications using IEEE 802.101, Bluetooth, and/or cellular communications protocols. Further, the user device 150 may use such communication capabilities to communicate via the network 125 including with a vehicle computer 105 .
- a user device 150 could communicate with a vehicle 101 computer 105 the other mechanisms, such as a network in the vehicle 101 , a known protocols such as Bluetooth, etc. Further, a user device 150 could be used to provide a human machine interface (HMI) to the computer 105 .
- HMI human machine interface
- FIG. 2 is a high level representation of an implementation of the system 100 of FIG. 1 in a geographic area 200 .
- Vehicles 101 in the geographic area 200 may communicate with the server 125 , e.g., via the network 120 (as seen in FIG. 1 ). Further, vehicles 102 that are not part of the system 100 , as mentioned above, may be included in the geographic area 200 .
- Vehicles 101 in the geographic area 200 may be available for use by a participant in the shared vehicle system 100 , or in use. For example, vehicles 101 in FIG. 2 represented by unshaded squares may be considered to be available for use, whereas vehicles 101 represented by shaded squares may be considered to be in use.
- vehicles 101 that are available for use i.e., currently unused, be relocated, sometimes referred to as rebalanced, from a first location in the geographic area 200 to a second location in the geographic area 200 .
- FIG. 3 is a process flow diagram illustrating an exemplary process 300 for relocating a shared vehicle 101 as part of providing a shared vehicle 101 to a user.
- the process 300 begins in a block 310 , in which the server 125 receives data from vehicles 101 , generally including location data, e.g., geo-coordinates specifying latitude and longitude information, from vehicle GPS systems 106 .
- Data from a vehicle 101 may include other information, e.g., whether the vehicle 101 is currently in use, i.e., occupied by a user and/or being used to transport cargo.
- the server 125 generates and/or updates a map for a geographic area 200 of locations of shared vehicles 101 .
- a map may be stored in a memory of the server 1125 and/or in the data store 130 .
- the server 125 analyzing the map, determines whether it is necessary or desirable to relocate any of the shared vehicles 101 included in the map and not in use. Such relocation may sometimes be referred to as rebalancing, as mentioned above. If rebalancing is warranted, then a block 330 is executed next. Otherwise, the process 300 proceeds to a block 325 .
- the server 125 makes vehicles available for use without rebalancing, and may schedule a ride for a user pursuant to a received request according to regular, undiscounted, unincentivized, etc. fares.
- the process 300 then ends.
- the server 125 determines relocation details for a rebalancing, including, for example, an identification of particular vehicles 101 that should be relocated, a count of the vehicles 101 that should be relocated, an identification of respective desired drop-off locations for each vehicle 101 to be relocated, any fueling requirements, e.g., recharging for an electric vehicle 101 , etc.
- the server 125 identifies potential users, if any, in the vicinity, e.g., within 20 meters, 50 meters, 100 meters, 500 meters, etc., of each shared vehicle 101 needing relocation.
- the server 125 retrieves from the data store 130 , and analyzes, profiles for such users.
- the server 125 generally also retrieves and analyzes a profile for the user having made the ridesharing request in the block 305 .
- the server 125 generally executes programming to find potential matches between users' ride needs, e.g., looking at frequently traveled bus routes, frequently traveled vehicle trip routes, known home locations, work locations, etc.
- the server 125 determines whether any potential users for a vehicle 101 relocation were identified in the block 340 . If so, a block 350 is executed next. Otherwise, a block 355 is executed next.
- the server 125 sends ride proposals to one or more users identified in the block 335 , and then determined to match a planned ride as described with respect to the block 340 .
- ride proposals could offer to allow a user to ride a shared vehicle 101 home for a discounted fare, a coupon for a future ride, or some other incentive.
- the process 300 may continue with steps described as part of the process 400 of FIG. 4 .
- the ride proposal could simply be accepted, whereupon a user or users could be provided with access to the vehicle 101 , and the process 300 would then end.
- the server 125 proceeds to schedule rebalancing, e.g., using designated, hired drivers for that purpose. Following the block 355 , the process 300 ends.
- FIG. 4 is a process flow diagram illustrating an exemplary process 400 for relocating a shared vehicle 101 including providing transport to at least one user pursuant to an offer provided as described above with respect to the process 300 .
- the process 400 begins in a block 405 in which, as in the block 355 described above, the server 125 pushes an offer for a ride in a shared vehicle 101 to a user.
- the server 125 determines whether the offer provided in the block 405 has been accepted, e.g., a user device 150 may be used to transmit an acceptance to the server 125 via the network 120 . If the offer is not accepted, then the process 400 ends. Otherwise, the process 400 proceeds to a block 415 .
- the server 125 determines whether there is a further transportation opportunity for the vehicle 101 to be relocated. For example, another user may be in the vicinity of the vehicle 101 , there may be an opportunity to transport cargo, etc. If there is no further transport opportunity, then the process 400 proceeds to a block 435 . Otherwise, a block 420 is executed next.
- the server 125 notifies the user who accepted the ride offer in the block 405 concerning the transport opportunity identified in the block 415 .
- a user device 150 may be sent a message by the server 125 via the network 120 .
- the message could include an incentive, e.g., pick up a second user at a location near your planned route to receive a 10 percent ride discount, etc.
- the server 125 determines whether the opportunity offered in the block 420 has been accepted, e.g., a user device 150 could send a message to the server 125 indicating acceptance or declination of the offer, the server 125 could determine that the offer was declined after not receiving a response for a predetermined period of time, e.g., three minutes, etc. in any case, if the offer is accepted, then a block 430 is executed next. Otherwise, the process 400 proceeds to the block 435 .
- a predetermined period of time e.g., three minutes, etc.
- the server 125 provides transportation details to the user whose has accepted the offer of the block 420 , For example, pickup and drop-off locations of another user, cargo such as a parcel, etc., may be identified.
- the server 125 receives notification that a rebalancing trip has been completed.
- a vehicle 101 could be used to pick up a second user, a parcel, etc., drop-off the second user, parcel, etc., and be used by the first user to reach an intended destination, whereupon a vehicle 101 computer 105 could provide the notification to the server 125 .
- the server 125 determines whether a new request for a relocated vehicle 101 has been received. If not, then the process 400 ends. Otherwise, the process 400 proceeds to a block 445 .
- the server 125 provides a survey to a new user of the vehicle 101 relocated as described above, For example, cleanliness, fuel levels, etc., of the vehicle 101 may be described according to responses to the survey, which may be conducted via questions provided to a user device 150 via the network 120 .
- the server 125 updates a first user's profile in the data store 130 according to responses received to the survey provided in the block 445 . Accordingly, a user may be rated or otherwise tracked, and such information may be used to provide future offers and/or opportunities to the user, Following the block 450 , the process 400 ends.
- Computing devices such as those discussed herein generally each include instructions executable by one or more computing devices such as those identified above, and for carrying out blocks or steps of processes described above.
- Computer-executable instructions may be compiled or interpreted from computer programs created using a variety of programming languages and/or technologies, including, without limitation, and either alone or in combination, JavaTM, C, C++, Visual Basic, Java Script, Perl, HTML, etc.
- a processor e.g., a microprocessor
- receives instructions e.g., from a memory, a computer-readable medium, etc., and executes these instructions, thereby performing one or more processes, including one or more of the processes described herein.
- Such instructions and other data may be stored and transmitted using a variety of computer-readable media.
- a file in a computing device is generally a collection of data stored on a computer readable medium, such as a storage medium, a random access memory, etc.
- a computer-readable medium includes any medium that participates in providing data (e.g., instructions), which may be read by a computer. Such a medium may take many forms, including, but not limited to, non-volatile media, volatile media, etc.
- Non-volatile media include, for example, optical or magnetic disks and other persistent memory.
- Volatile media include dynamic random access memory (DRAM), which typically constitutes a main memory.
- DRAM dynamic random access memory
- Computer-readable media include, for example, a floppy disk, a flexible disk, hard disk, magnetic tape, any other magnetic medium, a CD-ROM, DVD, any other optical medium, punch cards, paper tape, any other physical medium with patterns of holes, a RAM, a PROM, an EPROM, a FLASH-EEPROM, any other memory chip or cartridge, or any other medium from which a computer can read.
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US14/643,196 US20150310379A1 (en) | 2014-04-28 | 2015-03-10 | Shared vehicle systems and methods |
DE102015208287.3A DE102015208287A1 (de) | 2014-05-07 | 2015-05-05 | Gemeinschaftsfahrzeugsysteme und -verfahren |
GB1507762.1A GB2527660A (en) | 2014-05-07 | 2015-05-06 | Shared vehicle systems and methods |
MX2015005695A MX2015005695A (es) | 2014-05-07 | 2015-05-06 | Sistemas y metodos de vehiculo compartidos. |
RU2015117383A RU2015117383A (ru) | 2014-05-07 | 2015-05-07 | Система и способ работы транспортных средств совместного пользования |
CN201510228069.4A CN105095339A (zh) | 2014-05-07 | 2015-05-07 | 共享车辆系统和方法 |
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Cited By (26)
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CN108717781A (zh) * | 2018-07-18 | 2018-10-30 | 西安艾润物联网技术服务有限责任公司 | 出租车调度系统及出租车调度方法 |
WO2018217640A1 (en) * | 2017-05-22 | 2018-11-29 | Via Transporation, Inc. | Systems and methods for managing ridesharing vehicles |
US10147325B1 (en) * | 2017-02-02 | 2018-12-04 | Wells Fargo Bank, N.A. | Customization of sharing of rides |
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RU2015115745A (ru) | 2016-11-20 |
US20150310744A1 (en) | 2015-10-29 |
CN105046965A (zh) | 2015-11-11 |
MX2015005149A (es) | 2016-06-08 |
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