CN113421454A

CN113421454A - Intelligent parking space parking system and parking method

Info

Publication number: CN113421454A
Application number: CN202110641321.XA
Authority: CN
Inventors: 万志远; 魏东坡; 倪传东
Original assignee: Shandong Huayu University of Technology
Current assignee: Shandong Huayu University of Technology
Priority date: 2021-06-09
Filing date: 2021-06-09
Publication date: 2021-09-21

Abstract

The invention relates to the technical field of intelligent parking, in particular to an intelligent parking stall parking system and a parking method. This intelligence parking stall parking system includes: the system comprises a mobile terminal, sub servers, a main server and a plurality of parking space indication locks; the mobile terminal is communicated with the main server and sends reservation information to the main server, the main server is communicated with the sub-servers, and the sub-servers are communicated with the parking space indicating locks to control the corresponding parking space indicating locks to act. The invention provides an intelligent parking space parking system and a parking method based on the intelligent parking space parking system.

Description

Intelligent parking space parking system and parking method

Technical Field

The invention relates to the technical field of intelligent parking, in particular to an intelligent parking stall parking system and a parking method.

Background

Along with the rapid development of economy, the requirement of people on traveling is higher and higher, the quantity of automobiles serving as daily travel necessities of people is increased sharply, but the quantity of parking spaces is limited, the problem of difficult parking has influenced the smoothness and the safety of urban traffic, and particularly in time periods with concentrated public travel such as weekends, holidays and nights, the parking spaces of markets, cinemas and the like are very short. The problem that the parking position needs to be found quickly is solved for a vehicle owner to know the information of the empty parking space of the destination in time.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides the intelligent parking space parking system, which improves the parking efficiency of users and solves the technical problem that the parking space is insufficient and can not be reserved during the peak period of travel.

In order to achieve the technical purpose, the embodiment of the invention provides an intelligent parking space parking system, which comprises a mobile terminal, a sub-server, a main server and a plurality of parking space indicating locks, wherein the mobile terminal is connected with the sub-server; the mobile terminal is communicated with the main server and sends reservation information to the main server, the main server is communicated with the sub-servers, and the sub-servers are communicated with the parking space indicating locks and control the corresponding parking space indicating locks to act.

Furthermore, a plurality of parking stall instruction locks include red lock, yellow lock and green lock, branch server is according to the information control that the total server transmitted in a plurality of one or two in the parking stall instruction lock rise.

Further, a plurality of be provided with network communication module in the parking stall instruction lock, network communication module includes but not limited to remote communication module, wiFi communication module and/or bluetooth communication module.

Further, still include the detection module of parking into a position, the detection module of parking into a position includes but not limited to ultrasonic detection module, earth induction detection module or long-range infrared detection module.

Another aspect of the present invention provides a parking method based on an intelligent parking space parking system, including: the main server acquires parking reservation information sent by the mobile terminal and judges according to the reservation information and corresponding parking space information in the sub-servers; when the main server judges that the parking space is not occupied, the main server feeds back the information that the parking space can be reserved to the sub-servers, assigns the parking space to the mobile terminal corresponding to the reserved parking space, and updates the reserved state of the parking space; and the sub-servers control the green lock to descend and the yellow lock to ascend when receiving the reservation information sent by the main server.

Further, after the controlling the green lock to descend and the yellow lock to ascend, the parking method further comprises the following steps: and when the sub-servers receive the verification error-free information sent by the main server, the yellow lock is controlled to descend, the red lock is controlled to ascend, and the charging is started.

Further, after the yellow lock is controlled to descend, the parking method further comprises the following steps: and the parking position detection module detects that the automobile of the user is parked and a position signal is sent to the sub-server.

Further, after the controlling the green lock to descend and the yellow lock to ascend, the method for parking further comprises the following steps: the main server sends a prompt signal to the mobile terminal when a user does not arrive within the reserved time, the user operation is cancelled or the mobile terminal cancels the reserved service and feeds back the signal to the main server, and the main server sends a reservation cancellation signal to the sub-servers and updates the reserved state of the parking space; and the sub-server controls the yellow lock to descend and the green lock to ascend.

Further, after the yellow lock is controlled to descend, the red lock is controlled to ascend, and the charging is started, the parking method further comprises the following steps: the user makes a drive away reservation, the drive away information is fed back to the main server through the mobile terminal, and the main server sends the drive away information to the sub-servers and updates the reserved state of the parking space; if other users reserve the next time slot according to the driving away information, the sub-servers receive the feedback information of the main server and control the yellow lock to rise and the red lock to be inactive; and if no other user makes an appointment in the next time period according to the driving-away information, the sub-servers receive the feedback information of the main server and control the green lock to rise and the red lock to be inactive.

Further, the parking method further comprises: the user does not drive away within the reservation time, the mobile terminal reminds the user or directly cancels the reservation information, and the information is fed back to the main server; and if other users make an appointment in the next time period according to the driving-away information, the corresponding mobile terminal prompts the user to search and make an appointment for other parking spaces.

One or more technical solutions provided in the embodiments of the present invention have at least the following technical effects or advantages:

the invention provides an intelligent parking space parking system and a parking method based on the intelligent parking space parking system.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent parking space parking system according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a parking method based on the intelligent parking space parking system in the embodiment of the present invention.

Description of the reference numerals

The system comprises a 1-parking space, a 2-sub server, a 3-parking space indication lock, a 301-red lock, a 302-yellow lock, a 303-green lock and a 4-main server.

Detailed Description

Other objects and advantages of the present invention will become apparent by the following explanation of preferred embodiments of the present invention.

Fig. 1 shows a schematic structural diagram of an intelligent parking space parking system according to an embodiment of the present invention.

As shown in fig. 1 and 2, an intelligent parking system includes: the system comprises a mobile terminal, sub servers 2, a main server 4 and a plurality of parking space indication locks 3; the mobile terminal is communicated with the main server 4 and sends reservation information to the main server 4, the main server 4 is communicated with the sub-servers 2, and the sub-servers 2 are communicated with the parking space indication locks 3 to control the corresponding parking space indication locks 3 to act.

The mobile terminal is a user operation terminal, can be an APP in a mobile phone, a tablet and the like, is attached with a parking service system, and is communicated with the main server 4; the mobile terminal internal interface can display available parking information such as positioning information, destination query information, appointment time selection and the like; the sub-server 2 is a transfer station for information such as vacant stall 1, use, charging and the like, and is responsible for feeding back the information of the stall 1 to the main server 4. The main server 4 receives the information of the sub-servers 2 and transmits the information to the mobile terminal, so that a user can conveniently inquire the information of the parking space 1.

The communication among the mobile terminal, the sub-servers 2 and the main server 4 can be selected from telecommunication operator network signals, and can also be selected from a wired mode to access the internet, so that the stable communication among all parts is ensured.

In one embodiment, as shown in fig. 1, the plurality of parking space indication locks 3 include a red lock 301, a yellow lock 302 and a green lock 303, and the sub server 2 controls one or two of the plurality of parking space indication locks 3 to be lifted according to the reservation information transmitted by the main server 4. Wherein the red lock 301 is lifted when a car is in the parking space 1; the green lock 303 rises when the parking space 1 is free; yellow lock 302 is raised after parking stall 1 is reserved.

In one embodiment, the parking space indication lock 3 is provided with a network communication module, which includes, but is not limited to, a long-distance communication module, a WiFi communication module, and/or a bluetooth communication module.

Wherein, the network communication module includes: a wired network communication module and a wireless network communication module; wired network communication modules include, but are not limited to: an RS485 communication module, an RS232 communication module and an Ethernet communication module; the wireless network communication module includes: a short-range communication module and a long-range communication module; short-range communication modules include, but are not limited to: an NFC communication module (non-contact radio frequency identification technology), a WiFi communication module and a Bluetooth communication module; telecommunications modules include, but are not limited to: the communication module comprises a LoRa communication module, a GPRS communication module, a GSM communication module, a CDMA module, a TDS-CDMA communication module, a 3G communication module, a 4G communication module and/or a 5G communication module.

It is worth mentioning that a narrowband Internet of Things Narrow Band Internet of Things can be selected, NB-IoT becomes an important branch of the Internet of everything, and is a communication mode based on the Internet of Things, the NB-IoT is constructed in a cellular network, only consumes a bandwidth of about 180kHz, and can be directly deployed in a GSM network, a UMTS network or an LTE network, so as to reduce deployment cost and realize smooth upgrade.

NB-IoT is an emerging technology in the IoT field, supports cellular data connection of low-power consumption equipment in a Wide Area Network (WAN), is also called a low-power consumption wide area network (LPWAN), and has four characteristics: the method has the advantages that firstly, the wide coverage is realized, the improved indoor coverage is provided, and under the same frequency band, the NB-IoT gains 20dB more than the existing network, which is equivalent to the capability of improving the coverage area by 100 times; the system has the capacity of supporting connection, one sector of NB-IoT can support 10 ten thousand connections, low delay sensitivity, ultralow equipment cost, low equipment power consumption and optimized network architecture are supported, and NB-IoT supports high-efficiency connection of equipment with long standby time and higher requirement on network connection; thirdly, the power consumption is lower, the standby time of the NB-IoT terminal module can be as long as 10 years, the service life of the NB-IoT equipment is said to be improved by at least 10 years, and meanwhile, the very comprehensive indoor cellular data connection coverage can be provided; fourth, lower module cost, enterprise expects a single contiguous module to exceed $ 5. On a commercial level, cellular networks cover more than 50% of the geographic area worldwide, and 90% of the population is the most complete network. Taking hua as an example of a company, assuming that the hua has about 500 ten thousand physical sites around the world, all deploys NB-IoT, each site has 3 sectors, each sector deploys 200kHz, and each sensor transmits 100 bytes per hour, the number of sensors that can be connected to the global site is up to 4500 hundred million.

In some embodiments, the intelligent parking space parking system further comprises a parking detection module, which includes, but is not limited to, an ultrasonic detection module, a geomagnetic induction detection module, or a long-distance infrared detection module. The parking detection module is used for detecting whether the vehicle is parked or not and whether the vehicle drives out of the parking space 1 or not.

Fig. 2 is a schematic flow chart of a parking method based on an intelligent parking space parking system according to an embodiment of the present invention, and as shown in the figure, the parking method includes the following steps:

the main server 4 acquires parking reservation information sent by the mobile terminal and judges the parking reservation information according to the reservation information and the corresponding parking space 1 information in the sub-servers 2; when the main server 4 judges that the parking space 1 is not occupied, feeding back information that the parking space 1 can be reserved to the sub-servers 2, assigning the parking space 1 to a mobile terminal corresponding to the reserved parking space 1, and updating the reserved state of the parking space 1; after receiving the reservable information sent by the main server 4, the sub-servers 2 control the green lock 303 to fall and the yellow lock 302 to rise.

Specifically, a user positions the current position through the mobile terminal, inquires the destination position, makes an appointment with the information of the parking space 1 through the mobile terminal, sends the appointment information to the main server 4, and the main server 4 and the sub-servers 2 are in information intercommunication to feed back the information of the parking space 1 at any time. The system calculates the reservation time according to the distance, and after the reservation is successful, the sub-server 2 controls the green lock 303 to descend and the yellow lock 302 to ascend.

The reservation state update of the main server 4 to the parking space 1 can display that the parking space 1 is reserved and the like in mobile terminal systems of other clients, and the reservation application service of the parking space 1 is closed; or the icon of the parking space 1 changes from green to red in color, which indicates that the parking space 1 is reserved.

Further, when the main server 4 determines that the parking space 1 is occupied and does not match the reservation information transmitted from the mobile terminal, it transmits information indicating that the parking application has failed to the sub-server 2.

In some embodiments, after the sub-server 2 controls the green lock 303 to fall and the yellow lock 302 to rise when receiving the reservation available information sent by the main server 4, the parking method further includes: the user arrives within the reservation time, the in-place information is sent to the main server 4 through the mobile terminal, the main server 4 verifies the reservation information and sends the judgment result to the sub-servers 2, and when the sub-servers 2 receive the verification error-free information sent by the main server 4, the yellow lock 302 is controlled to descend, the red lock 301 is controlled to ascend, and the charging is started.

Specifically, after the owner of the vehicle actually performs the contract, the owner of the vehicle operates the mobile terminal, and controls the yellow lock 302 to descend, the red lock 301 to ascend and the charging to start according to the contract information through the main server 4 and the sub-server 2.

In some embodiments, when the sub-server 2 receives the information of no error of verification sent by the main server 4, after controlling the yellow-lock 302 to descend, the parking method further includes: the parking position detection module detects that the automobile of the user is parked and sends a parking position signal to the sub-server 2. After the sub-server 2 receives the parking signal, the red lock 301 is controlled to lift, and charging is started.

In some embodiments, after the sub-server 2 controls the green lock 303 to fall and the yellow lock 302 to rise when receiving the reservation available information sent by the main server 4, the parking method further includes: the user does not arrive within the reservation time, the main server 4 sends a prompt signal to the mobile terminal, the user operates to cancel or the mobile terminal cancels the reservation service and feeds back the signal to the main server 4, and the main server 4 sends a reservation cancellation signal to the sub-servers 2 and updates the reservation state of the parking space 1; the sub server 2 controls the yellow lock 302 to descend and the green lock 303 to ascend.

Specifically, if the owner does not perform faithfully within the limited time due to an accident or the like, the mobile terminal may give a prompt according to the appointment time, the mobile terminal interface may be prompted by sound or vibration, the owner cancels the appointment service by himself or the system, the information is fed back to the main server 4, the sub-server 2 is controlled, the yellow lock 302 is lowered, and the green lock 303 is raised. After the green lock 303 is lifted, the vacancy information of the parking space 1 is fed back to the main server 4, so that the parking space information is convenient for the owner to inquire, and the parking space information enters the waiting state again, so that other people can make an appointment.

In some embodiments, when the sub-server 2 receives the information of no error of verification sent by the main server 4, the yellow lock 302 is controlled to descend, the red lock 301 is controlled to ascend, and after the charging is started, the parking method further includes: the user makes a drive away reservation, the drive away information is fed back to the main server 4 through the mobile terminal, the main server 4 sends the drive away information to the sub-servers 2, and the reservation state of the parking space 1 is updated; if other users make a reservation for the next time slot according to the driving information, the sub-server 2 receives the feedback information of the main server 4 and controls the yellow lock 302 to rise and the red lock 301 to be inactive; if no other user makes a reservation for the next time slot according to the driving information, the sub-server 2 receives the feedback information of the main server 4, and controls the green lock 303 to rise and the red lock 301 to be inactive.

Specifically, when the car owner wants to drive to leave, the driving time can be reserved through the mobile terminal, information is fed back to the main server 4, on one hand, the main server 4 sends the information to other car owners, the other car owners can make a next cycle of reservation according to the driving time, on the other hand, the information is fed back to the sub server 2, the yellow lock 302 is controlled to rise, at the moment, the red lock 301 and the yellow lock 302 both rise, and therefore the fact that the car is currently in the parking space 1 but the car is driven away in a short time and the parking space 1 is reserved is indicated, and if the red lock 301 and the green lock 303 rise, the fact that the car is currently in the parking space 1 but the car is driven away in a short time and the parking space 1 is free. The vehicle owner drives off in real performance, the parking position detection module detects that the vehicle of the user drives off after the vehicle drives off, and the charging is stopped.

After the charging is stopped, the sub-servers 2 send payment information to the main server 4, and the main server 4 reminds the user of payment through the mobile terminal, so that the user performs payment operation; or when the sub-server 2 receives the reservation available information sent by the main server 4, the sub-server controls the green lock 303 to descend and the yellow lock 302 to ascend, and then feeds back the information to the main server 4, and the main server 4 sends the information to the mobile terminal to perform the pre-deduction operation.

In some embodiments, the parking method further comprises: the user does not drive away within the reservation time, the mobile terminal reminds the user or directly cancels the reservation information, and the information is fed back to the main server 4; and if other users make an appointment in the next time period according to the driving information, the corresponding mobile terminal prompts the user to search and make an appointment for the other parking space 1.

Specifically, the car owner makes a reservation for driving away from the parking space 1 on the mobile terminal, but does not perform the reservation according to the appointed time, at the moment, the mobile terminal reminds the car owner or directly cancels the reservation information, and the information is fed back to the main server 4. If the existing car owner makes an appointment in the period of time, the main server 4 feeds back the appointment to the mobile terminal system to prompt the car owner to search and make an appointment for the other parking spaces 1, and other empty parking spaces 1 are recommended, so that efficient utilization of the parking spaces 1 is realized.

The whole intelligent parking system records the performance of the vehicle owner in real time, preferentially pushes the information of the empty parking space 1 if the performance information is good, and does not push or even forbids the vehicle to park in the destination area or improves the parking cost if the performance information is not good.

The intelligent parking system of the present invention has been described in detail with reference to the preferred embodiments thereof, however, it should be understood that those skilled in the art can make modifications, alterations and adaptations to the present invention without departing from the spirit of the present invention. The invention includes the specific embodiments described above and any equivalents thereof.

Claims

1. An intelligent parking space parking system is characterized by comprising a mobile terminal, sub servers (2), a main server (4) and a plurality of parking space indication locks (3);

the mobile terminal is communicated with the main server (4) and sends reservation information to the main server (4), the main server (4) is communicated with the sub-servers (2), and the sub-servers (2) are communicated with the parking space indication locks (3) and control the corresponding parking space indication locks (3) to act.

2. The intelligent parking system according to claim 1, wherein the plurality of parking space indication locks (3) comprise a red lock (301), a yellow lock (302) and a green lock (303), and the sub-server (2) controls one or two of the plurality of parking space indication locks (3) to be lifted according to the information transmitted by the main server (4).

3. The intelligent parking system according to claim 1, wherein a plurality of parking space indication locks (3) are provided with network communication modules, and the network communication modules include but are not limited to a long-distance communication module, a WiFi communication module and/or a Bluetooth communication module.

4. The intelligent parking space parking system according to claim 1, further comprising a parking detection module, wherein the parking detection module includes but is not limited to an ultrasonic detection module, a geomagnetic induction detection module or a remote infrared detection module.

5. A parking method based on the intelligent parking space parking system of any one of claims 1-5, characterized in that the parking method comprises the following steps:

the main server (4) acquires parking reservation information sent by the mobile terminal and judges the parking reservation information according to the reservation information and the corresponding parking space (1) information in the sub-servers (2);

when the main server (4) judges that the parking space (1) is not occupied, feeding back the information that the parking space (1) can be reserved to the sub-servers (2), assigning the parking space (1) to the mobile terminal corresponding to the reserved parking space (1), and updating the reserved state of the parking space (1);

and when the sub-servers (2) receive the reservation available information sent by the main server (4), the sub-servers control the green lock (303) to descend and control the yellow lock (302) to ascend.

6. The intelligent parking method according to claim 5, wherein after the green lock (303) is controlled to descend and the yellow lock (302) is controlled to ascend, the parking method further comprises the following steps:

the user arrives within the reserved time, the in-place information is sent to the main server (4) through the mobile terminal, the main server (4) verifies the in-place information and the reserved information, the judgment result is sent to the sub-servers (2), and when the sub-servers (2) receive the verification error-free information sent by the main server (4), the yellow lock (302) is controlled to descend, the red lock (301) is controlled to ascend, and the charging is started.

7. The intelligent parking method according to claim 6, wherein after the control yellow lock (302) is lowered, the parking method further comprises: the parking detection module detects that the automobile of the user is parked and sends a parking signal to the sub-server (2).

8. The intelligent parking method according to claim 5, wherein after the green lock (303) is controlled to descend and the yellow lock (302) is controlled to ascend, the method further comprises the following steps:

the method comprises the following steps that a user does not arrive within a reserved time, a main server (4) sends a prompt signal to a mobile terminal, the user operates to cancel or the mobile terminal cancels reserved service and feeds back the service to the main server (4), and the main server (4) sends a reserved canceling signal to a sub-server (2) and updates the reserved state of a parking space (1); the sub-server (2) controls the yellow lock (302) to descend and the green lock (303) to ascend.

9. The intelligent parking method according to claim 6, wherein after the yellow lock (302) is controlled to descend, the red lock (301) is controlled to ascend, and the billing is started, the parking method further comprises the following steps:

a user makes a drive away reservation, the drive away information is fed back to the main server (4) through the mobile terminal, the main server (4) sends the drive away information to the sub-servers (2), and the reservation state of the parking space (1) is updated;

if other users reserve the next time slot according to the driving away information, the sub-server (2) receives the feedback information of the main server (4) and controls the yellow lock (302) to lift and the red lock (301) to be inactive;

if no other user makes a reservation for the next time slot according to the driving-away information, the sub-server (2) receives the feedback information of the main server (4) and controls the green lock (303) to rise and the red lock (301) to be inactive.

10. The intelligent carport parking method according to claim 9, wherein the parking method further comprises:

the user does not drive away within the reservation time, the mobile terminal reminds the user or directly cancels the reservation information, and the information is fed back to the main server (4); and if other users make an appointment in the next time period according to the driving-away information, the corresponding mobile terminal prompts the user to search and make an appointment for other parking spaces (1).