WO2017133695A1 - Intelligent parking communication system and parking reservation method - Google Patents

Abstract

An intelligent parking communication system and a parking reservation method based on the intelligent parking communication system. The system comprises: a first terminal, a parking information platform, a remote information processing centre and a plurality of intelligent parking space locks, wherein the parking information platform is arranged in the first terminal, the parking information platform in the first terminal communicates with the remote information processing centre, and the plurality of intelligent parking space locks communicate with the remote information processing centre. By means of the interaction of a terminal, a parking information platform in the terminal, a remote information processing centre and intelligent parking space locks, the present invention realizes a whole parking reservation service process from parking space searching to parking space reservation for a user, thereby improving the parking efficiency of the user and bringing new experience to the user.

Description

 Intelligent parking communication system and reserved parking method

 The present invention claims priority to Chinese Patent Application No. 201610079696.0, entitled "Intelligent Parking Communication System and Reserved Parking Method", filed on February 4, 2016, the entire contents of which are incorporated by reference. It is incorporated in the present invention. Technical field

 The present invention relates to the field of intelligent parking technology, and in particular to an intelligent parking communication system and a reserved parking method based on the intelligent parking communication system.

BACKGROUND OF THE INVENTION The traditional parking mode is that the owner cannot know in advance whether there is a parking space in the destination parking lot. When the owner visits the parking lot to find the parking space, it is found that there is no free parking space in the destination parking lot, and the owner can only wait or go to other parking spaces to find the parking space. . This phenomenon is common in today's society. The consequence is that the vehicle travels for a long time on the road of finding a parking space, which increases the difficulty of urban traffic management and increases the possibility of traffic congestion. At the same time, for the owner himself, parking is one. A very time consuming thing that delays the owner's time.

 In order to improve parking efficiency and reduce the possibility of urban traffic congestion, it is necessary to reform existing parking modes. Through parking industrialization, the introduction of intelligent parking solutions such as parking reservation services can improve the current parking market and improve parking efficiency. SUMMARY OF THE INVENTION The present invention provides an intelligent parking communication system and a reserved parking method based on the intelligent parking communication system, which improves the efficiency of parking for a user.

In a first aspect, the present invention provides an intelligent parking communication system, including: a first terminal, a parking information platform, a telematics center, and a plurality of smart parking spaces;

The parking information platform is disposed in the first terminal, and the parking in the first terminal The information platform communicates with the telematics center, and the plurality of smart parking spaces locks communicate with the telematics center.

 Optionally, the system further includes a second terminal, wherein the plurality of smart parking spaces are in communication with the remote information processing center through the second terminal.

 Optionally, the system further comprises a communication smart parking space lock, wherein the plurality of smart parking space locks communicate with the communication smart parking space lock, and the communication smart parking space lock communicates with the remote information processing center.

 Optionally, the network communication module, the status indication module, or the plurality of smart parking spaces or the communication smart parking spaces are connected to the network of the plurality of smart parking spaces or the communication smart parking spaces, and the network communication module and the status indication are connected. Module.

 Optionally, a network communication module is disposed in the first terminal and the second terminal, and the first terminal further includes a geographic location positioning module and a camera module.

 Optionally, the network communication module includes but is not limited to a long distance communication module, a WiFi communication module, and/or a Bluetooth communication module.

 Optionally, an environmental monitoring module is further disposed in the smart parking space lock, and the environmental monitoring module is an ultrasonic detecting module, a geomagnetic sensing detecting module, or a remote infrared detecting module.

 In a second aspect, the present invention provides an off-site on-site parking method based on an intelligent parking communication system, comprising:

 The terminal scans the scan identifier of the smart parking space lock corresponding to the parking space, and the remote information processing center acquires the on-site parking application information sent by the parking information platform in the terminal, and corresponding to the on-site parking application information according to the on-site parking application information. The right to use the parking space is verified;

The telematics center sends the parking payment information to the parking information platform when it is determined that the usage right of the parking space is not locked, and after receiving the payment success instruction sent by the parking information platform, The use right of the parking space is assigned to the parking information platform corresponding to the on-site parking application information, and the reservation status of the parking space on the remote information processing center is updated; the user passes the parking information platform in the terminal according to the The use right of the parking space sends control request information to the remote information processing center to request to control the opening and closing of the smart parking space lock corresponding to the parking space. Optionally, after the remote information processing center determines that the usage right of the parking space is not locked, and sends the parking payment information to the parking information platform, the method further includes:

 The reservation status of the parking space on the telematics center is updated.

 Optionally, after the remote information processing center verifies the right to use the parking space corresponding to the on-site parking application information according to the on-site parking application information sent by the parking information platform, the method further includes:

 The telematics center sends information indicating that the parking application has failed to the parking information platform when it is determined that the usage right of the parking space has been locked and does not match the on-site parking application information.

 Optionally, after the updating the reservation status of the parking space on the telematics center, the method further includes:

 When the payment success instruction sent by the parking information platform is not received within the preset time period, the reservation status of the parking space at the remote information processing center is updated.

 In a third aspect, the present invention provides an on-site on-site parking method for the above intelligent parking communication system, comprising:

 When the environment monitoring module corresponding to the smart parking lock detects that a vehicle enters the parking area, the intelligent parking space lock determines whether the parking space corresponding to the smart parking space lock has been reserved.

 If yes, the alarm is given and the vehicle is prohibited from entering the parking space;

 Or

 If not, unlocking the parking space corresponding to the smart parking space lock, allowing the vehicle to park in position, and uploading the parking space status to the telematics center;

 The telematics center updates the reservation status of the parking space at the remote information processing center based on the parking space status.

 In a fourth aspect, the present invention also provides an appointment parking method based on the above intelligent parking communication system, comprising:

 The telematics center opens the parking space reservation service according to the parking space reservation application information submitted by the parking information platform;

The parking information platform generates a guiding route according to the destination location in the reservation application information and performs parking guidance; The telematics center performs a reservation lock on the vacant parking space in the destination location and performs a withholding fee operation on the parking information platform when the vehicle corresponding to the parking information platform approaches the destination location, and simultaneously Updating the reserved state of the locked parking space, and finally pushing the geographical location information of the smart parking space lock corresponding to the locked parking space to the parking information platform;

 Optionally, after the remote information processing center pushes the geographic location information of the smart parking space lock corresponding to the locked parking space to the parking information platform, the method further includes:

 If the locked parking space is located in the parking lot, the telematics center pushes the reservation application information to the parking lot corresponding to the locked parking space;

 The parking lot corresponding to the locked parking space is verified and identified according to the reservation application information, and the vehicle or the user identifier corresponding to the parking information platform is verified, and the vehicle is entered after the verification is passed, and the vehicle corresponding to the parking information platform is The entry time is recorded and pushed to the telematics center.

 Optionally, after the remote information processing center pushes the geographic location information of the smart parking space lock corresponding to the locked parking space to the parking information platform, the method further includes:

 The parking information platform generates a guiding route to perform parking space navigation according to geographical location information of the smart parking space lock corresponding to the locked parking space;

 The parking information platform sends control request information to the remote information processing center when the vehicle 4 corresponding to the parking information platform reaches the locked parking space;

 The telematics center verifies the right to use the locked parking space according to the control request information;

 After the verification is passed, the telematics center sends an unlocking instruction to the smart parking space lock corresponding to the locked parking space;

 The smart parking space lock performs an unlocking operation according to the unlocking command and allows the vehicle corresponding to the parking information platform to enter the parking, and simultaneously uploads the parking space state to the remote information processing center;

 The telematics center updates the reservation status of the parking space corresponding to the smart parking space lock on the telematics center according to the parking space state;

If the locked parking space is not in the parking lot, the telematics center updates the reservation status of the parking space corresponding to the smart parking space lock on the remote information processing center according to the parking space state, and further The parking space corresponding to the parking lock starts to be charged for parking. Optionally, after the remote information processing center verifies the right to use the locked parking space according to the control request information, the method further includes:

 If the remote information processing center fails to verify that the control right of the locked parking space is verified by the control request information, the verification failure information is sent to the parking information platform.

 In a fifth aspect, the present invention also provides an automatic control method for a vehicle parking space based on the above intelligent parking communication system, including:

 When the environment monitoring module in the smart parking space lock detects the departure signal, the smart parking space lock locks the parking space corresponding to the smart parking space lock and sends the vehicle departure information to the remote information processing center;

 The telematics center updates the reservation status of the parking space corresponding to the smart parking space lock on the telematics center according to the vehicle departure information;

 If the smart parking space lock is a pre-charged smart parking space lock and the parking space corresponding to the smart parking space lock is not in the parking lot, the telematics center corresponding to the smart parking space lock according to the vehicle departure information After the parking space is updated in the reservation state on the telematics center, the parking fee of the parking space corresponding to the smart parking space lock is also settled.

 Optionally, after the remote information processing center updates the reservation status of the parking space corresponding to the smart parking space lock on the remote information processing center according to the vehicle departure information, the method further includes:

 If the smart parking space lock is a pre-charged smart parking space lock and the parking space corresponding to the smart parking space lock is in the parking lot, the parking lot where the smart parking space lock is located is according to the reservation sent by the remote information processing center. The application information verifies the departing vehicle, after the verification is passed, the departing vehicle is allowed to leave the parking lot and the departure time is recorded, and finally the departure report is sent to the remote information processing center, and the remote information processing center is The departure report settles the parking fee of the departing vehicle.

 In a sixth aspect, the present invention also provides a manual control method for a vehicle parking space based on the above intelligent parking communication system, including:

After the vehicle leaves the parking space corresponding to the smart parking lock, the parking information platform sends a vehicle departure request to the telematics center, and leaves the vehicle after obtaining the confirmation information of the remote information processing center. Bit

 The telematics center locks the smart parking space lock corresponding to the departure request according to the received departure request sent by the parking information platform, and the parking space corresponding to the smart parking space lock is in the remote information. The reservation status on the processing center is updated, and the parking fee of the parking space corresponding to the smart parking space lock is settled.

 Optionally, after the remote information processing center updates the reservation status of the smart parking space corresponding parking space on the remote information processing center, the method further includes:

 If the smart parking space lock is in the parking lot, the parking lot where the smart parking space lock is located is verified according to the reservation application information sent by the remote information processing center, and the departure is allowed after the verification is passed. The vehicle leaves the parking lot and records the departure time, and finally sends an exit report to the telematics center, and the telematics center settles the parking fee of the departing vehicle according to the departure report.

 The invention provides an intelligent parking communication system and a reservation parking method based on the intelligent parking communication system, and realizes the user from the parking space search through the interaction between the terminal, the parking information platform in the terminal, the remote information processing center and the intelligent parking space lock. The entire parking reservation service, which is reserved for parking spaces, improves the parking efficiency of users and brings a new experience to users. BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a schematic structural diagram of an intelligent parking communication system according to an embodiment of the present invention; FIG. 2 is a schematic structural diagram of an intelligent parking communication system according to another embodiment of the present invention; A schematic diagram of a structure of an intelligent parking communication system provided by an embodiment; FIG. 4 is a schematic flowchart of an off-site on-site parking method of an intelligent parking communication system according to an embodiment of the present invention;

 FIG. 5 is a schematic flowchart of an off-site on-site parking method of an intelligent parking communication system according to another embodiment of the present invention; FIG.

 6 is a schematic flowchart of a method for on-site parking of an intelligent parking communication system according to an embodiment of the present invention;

FIG. 7 is a method for on-site parking of an intelligent parking communication system according to another embodiment of the present invention; Schematic diagram of the process;

 FIG. 8 is a schematic flowchart of a method for scheduling a parking of a smart parking communication system according to an embodiment of the present invention; FIG.

 FIG. 9 is a schematic flowchart of a method for scheduling a parking of a smart parking communication system according to an embodiment of the present invention; FIG.

 FIG. 10 is a schematic flowchart diagram of an automatic control method for a vehicle to leave a parking space of an intelligent parking communication system according to an embodiment of the present invention; FIG.

 11 is a schematic flow chart of an automatic control method for a vehicle to leave a parking space of a smart parking communication system according to another embodiment of the present invention;

 12 is a schematic flow chart of a manual control method for a vehicle to leave a parking space of a smart parking communication system according to another embodiment of the present invention;

 FIG. 13 is a schematic flow chart of a manual control method for a vehicle to leave a parking space of a smart parking communication system according to another embodiment of the present invention. The technical solutions in the embodiments of the present invention will be clearly described below with reference to the accompanying drawings in the embodiments of the present invention. Examples are some embodiments of the invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

 FIG. 1 is a schematic structural diagram of an intelligent parking communication system according to an embodiment of the present invention. As shown in FIG. 1 , the method includes: a first terminal, a parking information platform, a telematics center, and a plurality of smart parking spaces;

 The parking information platform is disposed in the first terminal, the parking information platform in the first terminal is in communication with the remote information processing center, and the plurality of smart parking spaces are locked with the remote information processing center. Communicate.

In order to improve the timeliness of data transmission of smart parking space locks, in another implementation manner, multiple intelligent parking spaces can form a communication network by themselves and can transmit information to each other as long as they are in the communication network. If any smart parking lock is connected with the telematics center, the smart parking lock can transmit the information of other smart parking spaces in the network to the remote information processing center. This smart parking lock is directly connected with the remote information processing center. To communicate the smart parking space lock, as shown in FIG. 2, the plurality of smart parking space locks communicate with the communication smart parking space lock, and the communication smart parking space lock communicates with the remote information processing center.

 In order to prevent the telecommunication operator's network signal coverage in some parking lots from being insufficient or not covered, the smart parking space lock cannot communicate with the remote information processing center, so as shown in FIG. 3, the system further includes a second terminal, Smart parking locks communicate with the telematics center via the second terminal.

 In general, in order to improve the communication stability of the intelligent parking system, the second terminal preferentially accesses the Internet in a wired manner to ensure stable communication with the remote information processing center.

 Preferably, as shown in FIG. 3, after the plurality of smart parking spaces are connected with the communication smart parking lock, the second terminal is connected, and finally the data exchange is performed with the remote information processing center through the second terminal.

 The network communication module, the status indication module or the plurality of smart parking spaces or the communication smart parking spaces are connected with a network communication module and a status indication module in the plurality of smart parking spaces or in the communication smart parking spaces.

 Preferably, a network communication module is disposed in the first terminal and the second terminal, and the first terminal further includes a geographic location positioning module and a camera module.

 The camera module is configured to identify a two-dimensional code of the smart parking space lock; the state indicating module is configured to display a parking space state of the current smart parking space lock; and the geographical location positioning module is configured to determine a location of the vehicle and perform parking guidance;

 Preferably, the network communication module includes but is not limited to a long distance communication module, a WiFi communication module, and/or a Bluetooth communication module.

The network communication module includes: a wired network communication module and a wireless network communication module; the wired network communication module includes but is not limited to: an RS485 communication module, an RS232 communication module, and an Ethernet communication module; and the wireless network communication module includes: The distance communication module and the long-distance communication module; the short-range communication module includes but is not limited to: an NFC communication module (contactless radio frequency identification technology), a WiFi communication module, and a Bluetooth communication module; and the remote communication module includes but is not limited to: LoRa Pass Signal module, GPRS communication module, GSM communication module, CDMA module, TDS-CDMA communication module, 3G communication module, 4G communication module and/or 5G communication module.

 When the network communication module of the smart parking space lock is composed of one or more wireless network communication modules, the network communication module of the smart parking space lock is one or more combinations of a long distance communication module or a short distance communication module. , including but not limited to: a combination of a GPRS communication module and a Bluetooth communication module or a combination of a GPRS communication module and a WiFi communication module or a combination of a GPRS communication module and a Bluetooth communication module and a WiFi communication module;

 The architecture of the intelligent parking lock communication system shown in FIG. 1 , the network communication module of the intelligent parking lock generally uses a long-distance communication module, such as a GPRS communication module or a LoRa communication module;

 Figure 2, Figure 3 shows the architecture of the intelligent parking lock communication system. The network communication module of the smart parking lock generally uses the lower cost Bluetooth communication module and WiFi communication module.

 The architecture of the smart parking lock communication system shown in FIG. 2 and FIG. 3 may be such that the network communication module of the second terminal may use one or more combinations of a wired network communication module or a wireless network communication module, including but not limited to: A combination of a Bluetooth module and a long-distance communication module using Mesh (Wireless Grid Network) technology, a Bluetooth module using Mesh (Wireless Grid Network) technology, and an Ethernet communication module or a combination of an RS485 communication module or an RS232 communication module. A combination of a Bluetooth module and a WiFi module using Mesh (Wireless Grid Network) technology, a combination of a WiFi communication module and a long-distance communication module, a WiFi communication module and an Ethernet communication module or a combination of an RS485 communication module or an RS232 communication module; Dual-band WiFi communication module;

 Generally, the network communication module of the second terminal preferentially uses a combination of a Bluetooth module and an Ethernet communication module, or a combination of a WiFi communication module and an Ethernet communication module;

 Preferably, the intelligent parking space lock is further provided with an environment monitoring module, and the environmental monitoring module is an ultrasonic detecting module, a geomagnetic sensing detecting module or a remote infrared detecting module.

 Among them, the environmental monitoring module is used to monitor whether the parking space is driving away from the parking space.

 FIG. 4 is a schematic flowchart of an off-site on-site parking method based on an intelligent parking communication system according to an embodiment of the present invention. As shown in FIG. 4, the method includes the following steps:

401. The terminal scans the scanning identifier of the smart parking space lock corresponding to the parking space, and the remote information processing center acquires the on-site parking application information sent by the parking information platform in the terminal, and stops according to the site. The vehicle application information verifies the right to use the parking space corresponding to the on-site parking application information; wherein, the manner in which the terminal scans the scanning identifier of the smart parking space lock includes, but is not limited to: the terminal scanning the two-dimensional code of the smart parking space lock through the camera , or the terminal scans the NFC logo of the smart parking lock through NFC technology;

 402. The remote information processing center sends, when the right to use the parking space is not locked, the parking payment information to the parking information platform, and after receiving the payment success instruction sent by the parking information platform, Assigning the right to use the parking space to the parking information platform corresponding to the on-site parking application information, and updating the reservation status of the parking space on the remote information processing center; it can be understood that the parking space is displayed on the remote information processing center. "Reserved status", etc., and close the reservation application service for this parking space.

 403. The user sends control request information to the remote information processing center according to the use right of the parking space by using a parking information platform in the terminal, to request to control opening and closing of the smart parking space lock corresponding to the parking space.

 The off-site parking space in the above method can be understood as a roadside parking space, that is, a parking space where the distribution is not limited to a fixed area and the vehicle enters the parking area without identification.

 Preferably, after the remote information processing center determines that the usage right of the parking space is not locked, and sends the parking payment information to the parking information platform, the method further includes:

 The reservation status of the parking space on the telematics center is updated.

 It can be understood that the reservation application service for the parking space is temporarily closed, and the parking reservation status is displayed as "subscribing".

 Preferably, after the remote information processing center verifies the right to use the parking space corresponding to the on-site parking application information according to the on-site parking application information sent by the parking information platform, the method further includes:

 The telematics center sends information indicating that the parking application has failed to the parking information platform when it is determined that the usage right of the parking space has been locked and does not match the on-site parking application information.

 Preferably, after the updating of the reservation status of the parking space on the telematics center, the method further includes:

When the payment success instruction sent by the parking information platform is not received within the preset time period, The reservation status of the parking space on the telematics center is updated. After the smart parking lock is completed, the scanning identifier on the smart parking lock is scanned, and the remote information processing center verifies the right to use. When the verification fails, the user is prompted to reserve the parking space. When the verification is successful, the remote information processing center provides the temporary parking space locking service. After the payment is made online, the user obtains the temporary control right of the smart parking space lock, and the reserved user submits the unlocking request to the remote information processing center through the parking information platform, and the remote information processing center finds the reserved smart parking space lock according to the user information. The telematics center sends an unlock command to the smart parking space lock, the smart parking space lock is successfully unlocked, and the information is fed back to the remote information processing center, and the remote information processing center records the parking space status.

 FIG. 6 is a schematic flow chart of a method for on-site stoppage of an intelligent parking communication system according to an embodiment of the present invention. As shown in FIG. 6, the method includes the following steps:

 601. When the environment monitoring module corresponding to the smart parking lock detects that a vehicle enters the parking area, the smart parking space lock determines whether the parking space corresponding to the smart parking space lock has been reserved.

 602. If yes, alarm and prohibit the vehicle from entering the parking space;

 Or

 603. If not, unlocking the parking space corresponding to the smart parking space lock, allowing the vehicle to be parked, and uploading the parking space status to the remote information processing center;

 604. The telematics center updates a reservation status of the parking space on the remote information processing center according to the parking space status. Includes:

 The user selects the parking space to stop at the site, and the geomagnetic detection vehicle enters. When the parking space is not reserved, the intelligent parking space locks the lower arm, allowing the vehicle to be placed for parking, and the intelligent parking lock uploads the parking position state to the telematics. Conversely, When the parking space has been reserved, the intelligent parking space locks the sound or the light alarm, and the vehicle is prohibited from being placed.

 FIG. 8 is a schematic flowchart of a method for scheduling a parking of an intelligent parking communication system according to an embodiment of the present invention. As shown in FIG. 8, the method includes the following steps:

801. The remote information processing center opens the parking space reservation application information submitted according to the parking information platform. Parking reservation service;

 802. The parking information platform generates a guiding route according to a destination location in the reservation application information and performs parking guidance.

 803. The telematics center performs a reservation lock on the vacant parking space in the destination location and performs a withholding fee operation on the parking information platform when the vehicle corresponding to the parking information platform approaches the destination location, and simultaneously locks The reservation status of the parking space is updated, and the geographical location information of the smart parking space lock corresponding to the locked parking space is pushed to the parking information platform;

 The method for the remote information processing center to reserve the parking space may be: designating the right to use the parking space on the remote information processing center, pushing the reservation information to the smart parking space lock corresponding to the parking space, and notifying the management personnel of the parking space The parking space is manually locked; here, it can be understood that the reservation information is sent to the trouble-free intelligent parking lock corresponding to the empty parking space, and the right to use the locked parking space is assigned to the parking information platform corresponding to the parking reservation application information. At the same time, the smart parking space lock is entered into the reservation state, for example, the reservation status indication column is displayed as reserved;

 Preferably, after the remote information processing center pushes the geographical location information of the smart parking space lock corresponding to the locked parking space to the parking information platform, the method further includes:

 If the locked parking space is located in the parking lot, the telematics center pushes the reservation application information to the parking lot corresponding to the locked parking space; the reservation application information can be understood as: including but not limited to user information, User vehicle information, reservation order information.

 The parking lot corresponding to the locked parking space is verified and identified according to the reservation application information, and the vehicle or the user identifier corresponding to the parking information platform is verified, and the vehicle is entered after the verification is passed, and the vehicle corresponding to the parking information platform is The entry time is recorded and pushed to the telematics center.

 The parking lot mentioned above can be understood as a parking lot management system or a parking lot manager;

 The verification and identification of the vehicle corresponding to the terminal can be understood as: the parking lot management system or the parking lot personnel verify the relevant information of the vehicle license plate and the vehicle body color; and verify and identify the user identifier corresponding to the terminal. For: The parking lot management system obtains relevant information on the user terminal for user verification; the entry time of the vehicle is used to record the start time of the vehicle entering the parking lot, and compares with the departure time when the vehicle leaves the parking lot, thereby To calculate the parking fee.

Preferably, the telematics center locks the smart parking space corresponding to the locked parking space After the location information is pushed to the parking information platform, the method further includes: the parking information platform generates a guiding route to perform parking space navigation according to the geographical location information of the smart parking space lock corresponding to the locked parking space;

 The parking information platform sends control request information to the remote information processing center when the vehicle 4 corresponding to the parking information platform reaches the locked parking space;

 The telematics center verifies the right to use the locked parking space according to the control request information;

 After the verification is passed, the remote information processing center sends an unlocking instruction to the smart parking space lock corresponding to the locked parking space; the specific smart parking space lock and the remote information processing center may also communicate through the second terminal or the communication smart parking space lock, The embodiment does not limit it.

 The smart parking space lock performs an unlocking operation according to the unlocking command and allows the vehicle corresponding to the parking information platform to enter the parking, and simultaneously uploads the parking space state to the remote information processing center;

 The telematics center updates the reservation status of the parking space corresponding to the smart parking space lock on the telematics center according to the parking space state;

 If the locked parking space is not in the parking lot, the telematics center updates the reservation status of the parking space corresponding to the smart parking space lock on the remote information processing center according to the parking space state, and further The parking space corresponding to the parking lock starts to be charged for parking.

 Preferably, after the remote information processing center verifies the right to use the locked parking space according to the control request information, the remote information processing center further includes:

If the remote information processing center fails to verify that the use right of the locked parking space is verified by the control request information, the verification failure information is sent to the parking information platform. The platform makes a parking space reservation, the telematics center opens the parking space reservation service, the parking information platform plans the route and starts the route guidance, the vehicle is close to the location, the telematics center locks the parking space in the ground location and performs the withholding operation on the parking information platform. (Specify the right to use and send the reservation information to the smart parking lock). The parking information platform plans the driving route and guides the parking space according to the geographical location of the final parking space. At this time, it is divided into the on-site reservation and the off-site reservation. The telematics center sends the user reservation application information to the parking lot, and the parking lot is based on the reservation application information. The vehicle is verified. After the verification is passed, the time when the vehicle enters the parking lot is recorded and released. As with the off-site appointment, the vehicle arrives at the destination parking space, and the reservation user submits an unlock request to the remote information processing center through the parking information platform. The telematics center To verify the user information, when the verification fails, the parking information platform prompts relevant information. When the verification is successful, the remote information processing center pushes the unlocking instruction to the smart parking space lock, the intelligent parking space lock is successfully unlocked and the information is fed back to the remote information processing center, and the remote information processing is performed. The center records the parking space status. At this time, the on-site reservation has been completed, but for off-site reservations, the telematics center will also start parking for the off-site reserved vehicle.

 The on-site reservation in the above example can be understood as the user has reserved a parking space, the parking space is in a fixed parking area and the vehicle needs to identify the vehicle when entering the parking area, which can be simply understood as an appointment for a parking space with inbound and outbound vehicle management. An off-site appointment can be understood as a reserved parking space for the user. The parking space is on the roadside parking space, that is, the parking space is not limited to a fixed area and the vehicle does not need to be identified in the parking area.

 FIG. 10 is a schematic flowchart diagram of an automatic control method for a vehicle to leave a parking space of an intelligent parking communication system according to an embodiment of the present invention. As shown in FIG. 10, the method includes the following steps:

 1001: The environment monitoring module in the smart parking space lock, when detecting the departure signal, the intelligent parking space lock locks the parking space corresponding to the smart parking space lock;

 1002. The smart parking space lock sends vehicle departure information to a remote information processing center;

 1003. The telematics center updates a reservation status of the parking space corresponding to the smart parking space lock on the remote information processing center according to the vehicle departure information;

 1004. If the smart parking space lock is a pre-charged smart parking space lock and the parking space corresponding to the smart parking space lock is not in the parking lot, the telematics center locks the smart parking space according to the vehicle departure information. After the corresponding parking space is updated in the reservation state on the telematics center, the parking fee of the corresponding parking space of the smart parking space lock is also settled.

 The smart parking lock of the withholding fee can be understood as the smart parking lock corresponding to the parking space prepaid for the parking fee;

Preferably, after the remote information processing center updates the reservation status of the parking space corresponding to the smart parking space lock on the remote information processing center according to the vehicle departure information, the method further includes: If the smart parking space lock is a pre-charged smart parking space lock and the parking space corresponding to the smart parking space lock is in the parking lot, then

 The parking lot where the smart parking space lock is located verifies the departing vehicle according to the reservation application information sent by the remote information processing center, and after the verification is passed, the departing vehicle is allowed to leave the parking lot and record the departure time. And finally sending an exit report to the telematics center;

 The telematics center settles the parking fee for the departing vehicle based on the departure report.

 It can be understood that the parking lot verifies the vehicle leaving the parking lot according to the reservation application information at the time of admission.

 The above method is applicable to the automatic locking manner of the intelligent parking lock. The above method is described in detail through a specific embodiment. As shown in FIG. 11, the method includes the following steps: the vehicle is driven away from the parking space, and the environmental monitoring module detects the vehicle. When the vehicle is driven away, the intelligent parking space lock automatically raises the locked parking space, and the smart parking space lock uploads the locking information to the remote information processing center, and the remote information processing center performs the reservation state of the parking space corresponding to the smart parking space lock on the remote information processing center. Update, the completion of the non-withholding fee smart parking lock (ie, the non-deductible user) departure process; if the smart parking lock is a pre-charged smart parking lock and the parking space corresponding to the smart parking lock is not parking During the on-site (off-site withholding fee user), the telematics center performs parking fee settlement based on the departure information; if the smart parking space lock is a pre-charged smart parking space lock and the parking space corresponding to the smart parking space lock is in parking During the on-site (in-counter deduction fee user), the parking lot where the smart parking space lock is located is based on the remote letter The reservation request information sent by the processing center verifies the departing vehicle, and after the verification is passed, the departing vehicle is allowed to leave the parking lot and the departure time is recorded, and finally the departure report is sent to the remote information processing center. The telematics center settles the parking fee of the departing vehicle according to the departure report.

 FIG. 12 is a schematic flowchart of a manual control method for a vehicle to leave a parking space of an intelligent parking communication system according to an embodiment of the present invention. As shown in FIG. 12, the method includes the following steps:

1201. After the vehicle leaves the parking space corresponding to the smart parking lock, the parking information platform sends a vehicle departure request to the remote information processing center, and after leaving the confirmation information of the remote information processing center, leaves the parking space; 1202. The telematics center locks the smart parking space lock corresponding to the departure request according to the received departure request sent by the parking information platform, and the parking space corresponding to the smart parking space lock is The reservation status on the telematics center is updated, and the parking fee of the parking space corresponding to the smart parking space lock is settled;

 Preferably, after the remote information processing center updates the reservation status of the smart parking space corresponding parking space on the remote information processing center, the method further includes:

 If the smart parking space lock is in the parking lot, the parking lot where the smart parking space lock is located is verified according to the reservation application information sent by the remote information processing center, and the departure is allowed after the verification is passed. The vehicle leaves the parking lot and records the departure time, and finally sends an exit report to the telematics center;

 The telematics center settles the parking fee for the departing vehicle based on the departure report.

 The above method is applicable to the self-locking mode of the smart parking lock. The above method is described in detail through a specific embodiment. As shown in FIG. 13, the method includes the following steps: after the vehicle leaves the parking space corresponding to the smart parking lock The parking information platform sends a vehicle departure request to the remote information processing center, and after obtaining the confirmation information of the remote information processing center, drives away from the parking space, and the remote information processing center sends the driving according to the received parking information platform. Retaining the smart parking space lock corresponding to the departure request, and updating the reservation status of the parking space corresponding to the smart parking space lock on the telematics center, and then dividing the off-site reservation with There are two situations in the on-site reservation. When the off-site reservation is made, the telematics center settles the parking fee of the parking space corresponding to the smart parking space lock. When the reservation is made in the field, the parking lot where the smart parking space lock is located is based on the remote information. The reservation application information sent by the processing center verifies the departing vehicle, and verifies the verification Afterwards, the departing vehicle is allowed to leave the parking lot and record the departure time, and finally an exit report is sent to the telematics center, and the remote information processing center reports the departing vehicle according to the departure report. The parking fee is settled.

It should be noted that the terminal in the above example can be understood as a smart handheld device (including but not limited to: a smart phone, a handheld device specially developed for a smart parking system), a portable human-machine interaction terminal (including but not limited to: including BMW iDrive car system, Ford SYNC car system, Google Android Auto car system, human-computer interaction terminal of Apple Carplay car system); Intelligent parking lock can be understood as intelligent lock with rocker arm, intelligent stereo parking garage, intelligent garage security door. This example is for illustrative purposes only, but does not limit which smart parking lock is specifically used.

 In addition, those skilled in the art will appreciate that, although some embodiments described herein include certain features that are not included in other embodiments, and other features, combinations of features of different embodiments are intended to be within the scope of the present invention. Different embodiments are formed and formed.

 While the invention has been described with respect to the embodiments of the embodiments of the embodiments of the invention Within the limits defined by the requirements. Industrial applicability

 The invention provides an intelligent parking communication system and a reservation parking method based on the intelligent parking communication system, and realizes the user from the parking space search through the interaction between the terminal, the parking information platform in the terminal, the remote information processing center and the intelligent parking space lock. The entire parking reservation service, which is reserved for parking spaces, improves the parking efficiency of users and brings a new experience to users.

Claims

Claim statement:

A smart parking communication system, comprising: a first terminal, a parking information platform, a telematics center, and a plurality of smart parking spaces;

 The parking information platform is disposed in the first terminal, the parking information platform in the first terminal is in communication with the remote information processing center, and the plurality of smart parking spaces are locked with the remote information processing center. Communicate.

 2. The system of claim 1 wherein the system further comprises a second terminal, the plurality of smart parking space locks in communication with the telematics center via the second terminal.

 3. The system according to claim 1, wherein the system further comprises a communication smart parking space lock, wherein the plurality of smart parking space locks communicate with the communication smart parking space lock, the communication smart parking space lock and the The telematics center communicates.

 The system according to claim 1, wherein a plurality of smart parking spaces or communication smart parking spaces are provided with a network communication module, a status indicating module or the plurality of smart parking spaces or communication intelligence. A network communication module and a status indication module are connected outside the parking space lock.

 The system according to claim 1, wherein the first terminal and the second terminal are each provided with a network communication module, and the first terminal further includes a geographic location positioning module and an imaging module.

 6. The system of claim 4 or 5, wherein the network communication module comprises, but is not limited to, a long range communication module, a WiFi communication module, and/or a Bluetooth communication module.

 The system according to claim 1, wherein the smart parking lock is further provided with an environment monitoring module, and the environmental monitoring module is an ultrasonic detecting module, a geomagnetic sensing detecting module or a remote infrared detecting module.

 The off-site on-site parking method of the intelligent parking communication system according to any one of claims 1 to 7, characterized in that it comprises:

The terminal scans the scan identifier of the smart parking space lock corresponding to the parking space, and the remote information processing center acquires the on-site parking application information sent by the parking information platform in the terminal, and corresponding to the on-site parking application information according to the on-site parking application information. The right to use the parking space is verified; The telematics center sends the parking payment information to the parking information platform when it is determined that the usage right of the parking space is not locked, and after receiving the payment success instruction sent by the parking information platform, The use right of the parking space is assigned to the parking information platform corresponding to the on-site parking application information, and the reservation status of the parking space on the remote information processing center is updated; the user passes the parking information platform in the terminal according to the The use right of the parking space sends control request information to the remote information processing center to request to control the opening and closing of the smart parking space lock corresponding to the parking space.

 The method according to claim 8, wherein the remote information processing center sends the parking payment information to the parking information platform after determining that the usage right of the parking space is not locked, the method Also includes:

 The reservation status of the parking space on the telematics center is updated.

 The method according to claim 8, wherein the remote information processing center verifies the right to use the parking space corresponding to the on-site parking application information according to the on-site parking application information sent by the parking information platform. The method further includes:

 The telematics center sends information indicating that the parking application has failed to the parking information platform when it is determined that the usage right of the parking space has been locked and does not match the on-site parking application information.

 The method according to claim 9, wherein after the updating of the reservation status of the parking space on the remote information processing center, the method further includes:

 When the payment success instruction sent by the parking information platform is not received within the preset time period, the reservation status of the parking space at the remote information processing center is updated.

 12. An on-site on-site parking method for an intelligent parking communication system according to any one of claims 1-7, comprising:

 When the environment monitoring module corresponding to the smart parking lock detects that a vehicle enters the parking area, the intelligent parking space lock determines whether the parking space corresponding to the smart parking space lock has been reserved.

 If yes, the alarm is given and the vehicle is prohibited from entering the parking space;

 Or

If not, unlocking the parking space corresponding to the smart parking space lock, allowing the vehicle to park in position, and uploading the parking space status to the remote information processing center; The telematics center updates the reservation status of the parking space on the telematics center according to the parking space status.

 13. A method of parking a reservation based on the intelligent parking communication system according to any one of claims 1-7, characterized in that it comprises:

 The telematics center opens the parking space reservation service according to the parking space reservation application information submitted by the parking information platform;

 The parking information platform generates a guiding route according to the destination location in the reservation application information and performs parking guidance;

 The telematics center performs a reservation lock on the vacant parking space in the destination location and performs a withholding fee operation on the parking information platform when the vehicle corresponding to the parking information platform approaches the destination location, and simultaneously The reservation state of the locked parking space is updated, and finally the geographical location information of the smart parking space lock corresponding to the locked parking space is pushed to the parking information platform.

 The method according to claim 13, wherein after the remote information processing center pushes the geographical location information of the smart parking space lock corresponding to the locked parking space to the parking information platform, the method further includes :

 If the locked parking space is located in the parking lot, the telematics center pushes the reservation application information to the parking lot corresponding to the locked parking space;

 The parking lot corresponding to the locked parking space is verified and identified according to the reservation application information, and the vehicle or the user identifier corresponding to the parking information platform is verified, and the vehicle is entered after the verification is passed, and the vehicle corresponding to the parking information platform is The entry time is recorded and pushed to the telematics center.

 The method according to claim 13 or 14, wherein the remote information processing center pushes the geographical location information of the smart parking space lock corresponding to the locked parking space to the parking information platform, The method also includes:

 The parking information platform generates a guiding route to perform parking space navigation according to geographical location information of the smart parking space lock corresponding to the locked parking space;

 The parking information platform sends control request information to the remote information processing center when the vehicle 4 corresponding to the parking information platform reaches the locked parking space;

The remote information processing center uses the locked parking space according to the control request information Right to verify;

 After the verification is passed, the telematics center sends an unlocking instruction to the smart parking space lock corresponding to the locked parking space;

 The smart parking space lock performs an unlocking operation according to the unlocking command and allows the vehicle corresponding to the parking information platform to enter the parking, and simultaneously uploads the parking space state to the remote information processing center;

 The telematics center updates the reservation status of the parking space corresponding to the smart parking space lock on the telematics center according to the parking space state;

 If the locked parking space is not in the parking lot, the telematics center updates the reservation status of the parking space corresponding to the smart parking space lock on the remote information processing center according to the parking space state, and further The parking space corresponding to the parking lock starts to be charged for parking.

 The method according to claim 15, wherein after the remote information processing center verifies the use right of the locked parking space according to the control request information, the method further includes:

 If the remote information processing center fails to verify that the control right of the locked parking space is verified by the control request information, the verification failure information is sent to the parking information platform.

 17. An automatic control method for a vehicle to leave a parking space based on the intelligent parking communication system according to any one of claims 1 to 7, characterized in that it comprises:

 When the environment monitoring module in the smart parking space lock detects the departure signal, the smart parking space lock locks the parking space corresponding to the smart parking space lock and sends the vehicle departure information to the remote information processing center;

 The telematics center updates the reservation status of the parking space corresponding to the smart parking space lock on the telematics center according to the vehicle departure information;

 If the smart parking space lock is a pre-charged smart parking space lock and the parking space corresponding to the smart parking space lock is not in the parking lot, the telematics center corresponding to the smart parking space lock according to the vehicle departure information After the parking space is updated in the reservation state on the telematics center, the parking fee of the parking space corresponding to the smart parking space lock is also settled.

18. The method according to claim 17, wherein the remote information processing center updates the reservation status of the parking space corresponding to the smart parking space lock on the remote information processing center according to the vehicle departure information. Afterwards, the method further includes: If the smart parking space lock is a pre-charged smart parking space lock and the parking space corresponding to the smart parking space lock is in the parking lot, the parking lot where the smart parking space lock is located is according to the reservation sent by the remote information processing center. The application information is verified by the departure vehicle, after the verification is passed, the departing vehicle is allowed to leave the parking lot and the departure time is recorded, and finally the departure report is sent to the remote information processing center;

 The telematics center settles the parking fee for the departing vehicle based on the departure report.

 A manual control method for a vehicle to leave a parking space based on the intelligent parking communication system according to any one of claims 1 to 7, characterized in that it comprises:

 After the vehicle leaves the parking space corresponding to the smart parking lock, the parking information platform sends a vehicle departure request to the telematics center, and leaves the parking space after obtaining the confirmation information of the remote information processing center;

 The telematics center locks the smart parking space lock corresponding to the departure request according to the received departure request sent by the parking information platform, and the parking space corresponding to the smart parking space lock is in the remote information. The reservation status on the processing center is updated, and the parking fee of the parking space corresponding to the smart parking space lock is settled.

 The method according to claim 19, wherein after the remote information processing center updates the reservation status of the smart parking space corresponding parking space on the remote information processing center, the method further includes:

 If the smart parking space lock is in the parking lot, the parking lot where the smart parking space lock is located is verified according to the reservation application information sent by the remote information processing center, and the departure is allowed after the verification is passed. The vehicle leaves the parking lot and records the departure time, and finally sends an exit report to the telematics center;

 The telematics center settles the parking fee for the departing vehicle based on the departure report.