CN114038229B - Roadside parking processing method and equipment - Google Patents

Abstract

The invention discloses a roadside parking processing method and equipment, wherein the equipment comprises the following steps: the data acquisition unit is configured to perform acquisition of a snapshot message; the processor is configured to perform: determining the vehicle information of the current vehicle according to the acquired snapshot message; determining that the snapshot message is an entrance snapshot message; if the parking data list has an entrance record or an exit record which is matched with the vehicle information and is later than the parking completion record of the snapshot time of the entrance snapshot message, determining that the parking abnormity type is message retransmission or message disorder; and if the parking data list has the parking records matched with the vehicle information, determining that the type of the parking abnormity is the last departure and omission. The parking abnormal type is determined by analyzing the admission snapshot message, so that the charging accuracy is improved according to the abnormal parking condition, and the charging error is avoided.

Description

Roadside parking processing method and equipment

Technical Field

The invention relates to the technical field of public transportation, in particular to a roadside parking processing method and equipment.

Background

With the increase of the automobile holding quantity in China, the problems of traffic jam and the like are increasingly serious, and in order to increase the traffic efficiency by the traffic department, a large number of roadside parking areas are increased. Meanwhile, in order to improve the intellectualization of parking charging and reduce the workload of manual work in a charging link, the parking duration is usually determined through the shooting of monitoring equipment, and then the vehicle is charged.

However, in the process, the situation of abnormal charging caused by snapshot errors may exist, which may cause charging errors, on one hand, inconvenience is brought to the car owner, and on the other hand, the parking lot manager cannot timely know the situation of abnormal charging, which is inconvenient to manage and improve.

Disclosure of Invention

The invention provides a roadside parking processing method and equipment, which realize the identification of abnormal parking types under different conditions, avoid the generation of abnormal billing orders, ensure the accuracy of the billing orders, facilitate the analysis and processing of abnormal parking completion records by parking lot managers and improve the accuracy of the overall parking lot billing.

According to a first aspect of an exemplary embodiment, there is provided a roadside parking method comprising:

determining the vehicle information of the current vehicle according to the acquired snapshot message;

determining the snapshot message as an entrance snapshot message;

if the parking data list has an entrance record or an exit record which is matched with the vehicle information and is later than the parking completion record of the snapshot time of the entrance snapshot message, determining that the parking abnormity type is message retransmission or message disorder;

and if the parking record matched with the vehicle information exists in the parking data list, determining that the parking abnormity type is the last leaving missing detection.

In the embodiment of the application, when the snapshot message is the admission snapshot message, the parking abnormity type is analyzed based on the vehicle information and the admission snapshot message. Therefore, when the snapshot message is the entrance snapshot message, the abnormal parking types under different conditions are identified, the abnormal billing order is prevented from being generated, the accuracy of the billing order is ensured, the parking lot management personnel can conveniently analyze and process the abnormal parking completion records, and the accuracy of the integral parking lot billing is improved.

In some exemplary embodiments, after determining the vehicle information of the current vehicle according to the acquired snapshot message, the method further includes:

determining the snapshot message as an outgoing snapshot message;

if the parking data list does not have a parking record matched with the vehicle information, determining that the parking abnormity type is the current entrance missing inspection;

if a parking record matched with the vehicle information exists in the parking data list and a parking section in the parking record is different from a current snapshot section, determining that the parking abnormal type is the last departure omission factor;

and if the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are smaller than the preset time interval, determining that the parking abnormal type is temporary parking of the passing vehicle.

In the above embodiment, when the snapshot message is the presence snapshot message, the analysis of the parking abnormality type is performed based on the vehicle information and the presence snapshot message. Therefore, when the snapshot message is the field-out snapshot message, the abnormal parking types under different conditions are identified, the abnormal billing order is prevented from being generated, the accuracy of the billing order is ensured, the parking lot management personnel can conveniently analyze and process the abnormal parking completion records, and the accuracy of the integral parking lot billing is improved.

In some exemplary embodiments, the type of snap message is determined by:

identifying the type identification of the snapshot device carried in the snapshot message;

if the type identification is the identification of the access snapshot equipment, determining that the snapshot message is the access snapshot message;

and if the type identifier is the identifier of the field snapshot equipment, determining that the snapshot message is the field snapshot message.

According to the embodiment, the source of the snapshot message can be accurately determined by identifying the type identifier of the snapshot device carried in the snapshot message.

In some exemplary embodiments, the method further comprises:

if a parking completion record of which the departure record matched with the vehicle information is later than the snapshot time of the entrance snapshot message exists in the parking data list, judging whether the parking section in the parking completion record is the same as the current snapshot section;

if the parking abnormity type is different from the abnormal parking type, the parking abnormity type is determined to be message disorder, and the admission snapshot message is an overdue message.

In the above embodiment, when the parking completion record exists in the parking data list, where the departure record matched with the vehicle information is later than the snapshot time of the entrance snapshot message, it is indicated that the parking abnormality type is message disorder; and further determining whether the parking section in the parking completion record is different from the current snapshot section, and further determining that the admission snapshot message is an expired message. Further subdivision of the parking anomaly type is achieved.

In some exemplary embodiments, the method further comprises:

if a parking record matched with the vehicle information exists in the parking data list, a parking section in the parking record is the same as a current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are greater than or equal to the preset time interval, determining charging information according to the parking record and the snapshot message;

and sending the charging information to a fee deduction system.

In the embodiment, when the on-site snapshot message and the parking record meet the requirements, the complete parking completion record can be generated, the charging information is generated according to the parking record and the snapshot message, and then the charging information is sent to the fee deduction system. The accuracy of the charging information is ensured, and the charging information is sent to the fee deduction system when the charging information is accurate and correct.

In some exemplary embodiments, the method further comprises:

and if the snapshot message is determined to come from the snapshot equipment at the entrance and exit of the road side cell, determining that the snapshot message is an invalid message.

In the above embodiment, when it is determined that the snapshot message is from the snapshot device at the roadside cell entrance, the snapshot message is directly determined to be an invalid message, and no parking completion record is generated, in consideration of the situation that the roadside parking lot has the cell entrance. The accuracy of the charging information is further improved.

According to a second aspect in the exemplary embodiments, there is provided a roadside parking processing apparatus including a processor and a transmission unit, wherein:

the data acquisition unit is configured to perform:

acquiring a snapshot message;

the processor is configured to perform:

determining the vehicle information of the current vehicle according to the acquired snapshot message;

determining the snapshot message as an entrance snapshot message;

if the parking data list has an entrance record or an exit record which is matched with the vehicle information and is later than the parking completion record of the snapshot time of the entrance snapshot message, determining that the parking abnormity type is message retransmission or message disorder;

and if the parking record matched with the vehicle information exists in the parking data list, determining that the parking abnormity type is the last departure and omission.

In some exemplary embodiments, the processor is further configured to, after the determining the vehicle information of the current vehicle according to the acquired snapshot message, perform:

determining the snapshot message as an outgoing snapshot message;

if the parking data list does not have a parking record matched with the vehicle information, determining that the parking abnormity type is the current entrance missing inspection;

if a parking record matched with the vehicle information exists in the parking data list and a parking section in the parking record is different from a current snapshot section, determining that the parking abnormal type is the last departure omission factor;

and if the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are smaller than the preset time interval, determining that the parking abnormal type is temporary parking of the passing vehicle.

In some exemplary embodiments, the processor is configured to determine the type of snap shot message by:

identifying the type identification of the snapshot device carried in the snapshot message;

if the type identification is the identification of the access snapshot equipment, determining that the snapshot message is the access snapshot message;

and if the type identifier is the identifier of the field snapshot equipment, determining that the snapshot message is the field snapshot message.

In some exemplary embodiments, the processor is further configured to:

if a parking completion record of which the departure record matched with the vehicle information is later than the snapshot time of the entrance snapshot message exists in the parking data list, judging whether the parking section in the parking completion record is the same as the current snapshot section;

if the parking abnormity type is different from the abnormal parking type, the parking abnormity type is determined to be message disorder, and the admission snapshot message is an overdue message.

In some exemplary embodiments, the processor is further configured to:

if a parking record matched with the vehicle information exists in the parking data list, a parking section in the parking record is the same as a current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are greater than or equal to the preset time interval, determining charging information according to the parking record and the snapshot message;

and sending the charging information to a fee deduction system.

In some exemplary embodiments, the processor is further configured to:

and if the snapshot message is determined to come from the snapshot equipment at the entrance and exit of the road side cell, determining that the snapshot message is an invalid message.

According to a third aspect of the exemplary embodiments, there is provided a roadside parking processing apparatus including:

the vehicle information determining module is used for determining the vehicle information of the current vehicle according to the acquired snapshot message;

the message type determining module is used for determining the snapshot message as an entrance snapshot message;

the abnormal type determining module is used for determining that the parking abnormal type is message retransmission or message disorder when an entrance record or an exit record matched with the vehicle information exists in the parking data list and is a parking completion record later than the snapshot time of the entrance snapshot message; and when the parking record matched with the vehicle information exists in the parking data list, determining that the type of the parking abnormity is the last departure and omission.

In some exemplary embodiments, the message type determining module is further configured to determine that the snapshot message is a departure snapshot message after determining vehicle information of the current vehicle according to the acquired snapshot message;

the anomaly type determination module is further configured to:

when no parking record matched with the vehicle information exists in the parking data list, determining that the parking abnormity type is the current entrance missing inspection;

determining that the parking abnormal type is the last departure missing inspection when a parking record matched with the vehicle information exists in the parking data list and a parking section in the parking record is different from a current snapshot section;

and when the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are smaller than the preset time interval, determining that the parking abnormal type is temporary parking of the passing vehicle.

In some exemplary embodiments, the message type determining module is specifically configured to:

identifying the type identification of the snapshot device carried in the snapshot message;

if the type identification is the identification of the access snapshot equipment, determining that the snapshot message is the access snapshot message;

and if the type identifier is the identifier of the field snapshot equipment, determining that the snapshot message is the field snapshot message.

In some exemplary embodiments, the anomaly type determination module is further configured to:

when a parking completion record of which the departure record matched with the vehicle information is later than the snapshot time of the entrance snapshot message exists in the parking data list, judging whether the parking section in the parking completion record is the same as the current snapshot section;

and when the parking abnormity type is different, determining that the parking abnormity type is message disorder, and the admission snapshot message is an overdue message.

In some exemplary embodiments, the anomaly type determination module is further configured to:

when a parking record matched with the vehicle information exists in the parking data list, a parking section in the parking record is the same as a current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are greater than or equal to the preset time interval, determining charging information according to the parking record and the snapshot message;

and sending the charging information to a fee deduction system.

In some exemplary embodiments, the message type determination module is further configured to:

and when the snapshot message is determined to come from the snapshot device at the entrance and exit of the road side cell, determining that the snapshot message is an invalid message.

According to a fourth aspect of the exemplary embodiments, there is provided a computer storage medium having stored therein computer program instructions which, when run on a computer, cause the computer to execute the roadside parking processing method according to the first aspect.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic diagram illustrating a roadside parking lot provided by an embodiment of the present invention;

FIG. 2 is a flow chart illustrating a roadside parking processing method according to an embodiment of the present invention;

FIG. 3 is a flow chart illustrating another roadside parking processing method provided by an embodiment of the invention;

FIG. 4 illustrates a schematic view of another roadside parking lot provided by an embodiment of the present invention;

FIG. 5 is a schematic diagram illustrating another roadside parking lot provided by embodiments of the present invention;

fig. 6 is a schematic structural diagram illustrating a roadside parking processing unit according to an embodiment of the present invention;

fig. 7 schematically illustrates a structure of a roadside parking processing apparatus according to an embodiment of the present invention.

Detailed Description

The technical solution in the embodiments of the present application will be described in detail and removed with reference to the accompanying drawings. In the description of the embodiments herein, "/" means "or" unless otherwise specified, for example, a/B may mean a or B; "and/or" in the text is only an association relationship describing an associated object, and means that three relationships may exist, for example, a and/or B may mean: three cases of a alone, a and B both, and B alone exist, and in addition, "a plurality" means two or more than two in the description of the embodiments of the present application.

In the following, the terms "first", "second" are used for descriptive purposes only and are not to be understood as implying or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature, and in the description of embodiments of the application, unless stated otherwise, "plurality" means two or more.

With the increase of the automobile holding quantity in China, the problems of traffic jam and the like are increasingly serious, and in order to increase the traffic efficiency by the traffic department, a large number of roadside parking areas are increased. Meanwhile, in order to improve the intellectualization of parking charging and reduce the workload of manual work in a charging link, the parking duration is usually determined through the shooting of monitoring equipment, and then the vehicle is charged.

However, in the process, the situation of abnormal charging caused by snapshot errors may exist, which may cause charging errors, on one hand, inconvenience is brought to the car owner, and on the other hand, the parking lot manager cannot timely know the situation of abnormal charging, which is inconvenient to manage and improve.

Therefore, the application provides a roadside parking processing method, wherein vehicle information of a current vehicle is determined according to an acquired snapshot message; if the parking data list has an entrance record or an exit record which is matched with the vehicle information and is later than the parking completion record of the snapshot time of the entrance snapshot message, determining that the parking abnormity type is message retransmission or message disorder; and if the parking data list has the parking records matched with the vehicle information, determining that the type of the parking abnormity is the last departure and omission. Therefore, different parking abnormity types can be determined according to the entrance snapshot message. The parking completion record recognition method and the parking completion record recognition device realize recognition of abnormal parking types under different conditions, avoid generation of abnormal billing orders, guarantee accuracy of the billing orders, facilitate parking lot managers to analyze and process the abnormal parking completion records, and improve accuracy of integral parking lot billing.

After introducing the design concept of the embodiment of the present application, some simple descriptions are provided below for application scenarios to which the technical solution of the embodiment of the present application can be applied, and it should be noted that the application scenarios described below are only used for describing the embodiment of the present application and are not limited. In specific implementation, the technical scheme provided by the embodiment of the application can be flexibly applied according to actual needs.

Referring to fig. 1, a schematic diagram of roadside parking is shown, where 11 is an entrance capture device (such as an entrance bayonet camera or an entrance camera), and 12 is an exit capture device (such as an exit bayonet camera or an exit camera). In this application embodiment, through the equipment of taking a candid photograph of entering, obtain the information of taking a candid photograph of leaving through the equipment of taking a candid photograph of leaving, the information of taking a candid photograph of entering and the information of taking a candid photograph of leaving all upload to roadside parking processing equipment, come to handle the parking, for example, after generating charging information, send charging information to car owner's intelligent terminal, the car owner can pass through the complete payment of intelligent terminal like this.

To further illustrate the technical solutions provided by the embodiments of the present application, the following detailed description is made with reference to the accompanying drawings and the detailed description. Although the embodiments of the present application provide method steps as shown in the following embodiments or figures, more or fewer steps may be included in the method based on conventional or non-inventive efforts. In steps where no necessary causal relationship exists logically, the order of execution of the steps is not limited to that provided by the embodiments of the present application.

The following describes, with reference to the application scenario shown in fig. 1, a roadside parking processing method shown in fig. 2, a technical solution provided by an embodiment of the present application.

S201, determining the vehicle information of the current vehicle according to the acquired snapshot message.

S202, determining the snapshot message as an entrance snapshot message.

S2031, if the parking data list has an entrance record or an exit record which is matched with the vehicle information and is later than the parking completion record of the snapshot time of the entrance snapshot message, determining that the parking abnormity type is message retransmission or message disorder.

S2032, if the parking data list has the parking record matched with the vehicle information, determining that the type of the parking abnormity is the last departure and omission.

In the embodiment of the application, when the snapshot message is the admission snapshot message, the parking abnormity type is analyzed based on the vehicle information and the admission snapshot message. Therefore, when the snapshot message is the entrance snapshot message, the abnormal parking types under different conditions are identified, the abnormal billing order is prevented from being generated, the accuracy of the billing order is ensured, the parking lot management personnel can conveniently analyze and process the abnormal parking completion records, and the accuracy of the integral parking lot billing is improved.

Referring to S201, the card cameras at the exit and entrance of the roadside parking lot upload snapshot messages to roadside parking processing equipment, such as equipment at the parking lot management, in real time, where the snapshot messages include an entrance snapshot message and an exit snapshot message. Under a normal condition, the snapshot message carries a type identifier of the snapshot device, for example, if the type identifier of the incoming snapshot device is R and the identifier of the outgoing snapshot device is C, the type identifier of the snapshot device carried in the snapshot message can be identified, and if the type identifier is the identifier of the incoming snapshot device, the snapshot message is determined to be the incoming snapshot message; and if the type identifier is the identifier of the field snapshot device, determining that the snapshot message is the field snapshot message. In this way, it can be determined whether the snapshot message is an incoming snapshot message or an outgoing snapshot message.

And S202, analyzing and identifying the snapshot message, and confirming that the snapshot message is the admission snapshot message.

For example, the snapshot message is generally determined according to the captured vehicle image, for example, the vehicle information is determined by identifying the vehicle image, and the vehicle information includes the license plate number and the vehicle type; the snapshot message also includes a snapshot time.

Referring to S2031, if there is a parking completion record in the parking data list that has an entry record or an exit record matching the vehicle information later than the snapshot time of the entry snapshot message, it is determined that the parking abnormality type is a message retransmission or a message disorder.

First, a parking data list in the roadside parking processing device is explained, wherein an order database parking completion record is stored in the parking data list, and the parking completion record comprises a finished parking completion record (paid and leaving) and a parking record (a vehicle is parked or paid and not leaving).

In this case, if there is a parking completion record in the parking data list that has an entry record matching the vehicle information later than the snapshot time of the entry snapshot message, which is generally the case where the current time is 15:40, the snapshot time determined from the snapshot message is 15:30, and there is a parking completion record in the parking data list that has an entry record of 15:35 minutes, the entry snapshot message is interpreted as a message retransmission (15: 30 minutes of the snapshot message are retransmitted once).

If a parking completion record which is matched with the vehicle information and has the departure record later than the snapshot time of the entrance snapshot message exists in the parking data list, whether the parking section in the parking completion record is the same as the current snapshot section is continuously judged, if the parking section in the parking completion record is different from the current snapshot section, the parking completion record is indicated to be a historical order of other sections, the abnormal type of the current parking is message disorder, and the snapshot message is overdue.

Referring to S2032, if there is a parking record matching the vehicle information in the parking data list, it is determined that the parking abnormality type is the last departure/omission.

Specifically, if there is a parking record matching with the vehicle information in the parking data list, and the snapshot message is an entry snapshot message, it indicates that no parking record has been generated for the current parking or a parking record has just been generated, so the parking record in the queried parking data list is the last missed parking. In this case, the status of the last outgoing order may be modified to be finished. And continuously processing the current admission snapshot message, for example, generating the current parking admission record.

The above-described embodiment is an analysis of the parking abnormality type when the snapshot message is an entry snapshot message. Next, the type of the parking anomaly when the snapshot message is the exit snapshot message is analyzed, and referring to fig. 3, a method for processing the type of the parking anomaly when the snapshot message is the exit snapshot message is illustrated.

Referring to fig. 3, for the snapshot message of the departure, the determined parking anomaly type generally has the following conditions:

s301, determining the vehicle information of the current vehicle according to the acquired snapshot message.

S302, determining that the snapshot message is an outgoing snapshot message.

S3031, if the parking data list does not have the parking record matched with the vehicle information, determining that the parking abnormity type is the current entrance missing inspection.

Specifically, when the departure snapshot message is acquired, if there is no record in parking matching with the vehicle information in the parking data list, that is, there is a case of departure snapshot but no entry record, it is determined that the parking abnormality type is the current entry missing, resulting in a case of no entry record of the vehicle at the time of departure.

S3032, if the parking record matched with the vehicle information exists in the parking data list and the parking section in the parking record is different from the current snapshot section, determining that the parking abnormal type is the last departure and omission factor.

Specifically, when the field-leaving snapshot message is obtained, if a parking record matched with the vehicle information exists in the parking data list, whether the parking section recorded in the parking is the same as the current snapshot section is continuously judged, and if the parking section recorded in the parking is different from the current snapshot section, the type of the parking abnormality can be determined to be the previous field-leaving missed detection. In this case, the state recorded in the parking may be modified to be ended.

And S3033, if the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the exit snapshot message and the vehicle entrance interval recorded in the parking are smaller than the preset time interval, determining that the parking abnormal type is temporary parking of the passing vehicle.

Specifically, when the departure snapshot message is acquired, if a parking record matched with the vehicle information exists in the parking data list, whether the parking section recorded in the parking is the same as the current snapshot section is continuously judged, and if the parking section recorded in the departure snapshot message is the same as the current snapshot section, and the snapshot time of the departure snapshot message and the vehicle entrance interval recorded in the parking are smaller than a preset time interval (for example, 5 minutes), it is determined that the parking abnormal type is that the passing vehicle is temporarily parked, and no billing information is generated.

If the time interval is larger than or equal to the preset time interval, the parking completion record is normal, and the charging information is determined according to the parking record and the snapshot message; and then the charging information is sent to a fee deduction system. In one particular example, the billing information may include, for example, cost information, time of entry, and time of departure. The fee deduction system is, for example, ETC (Electronic Toll Collection).

In the practical application process, in order to improve the accuracy of roadside parking charging, in a roadside parking lot including a cell entrance, a snapshot device is installed at the cell entrance, after receiving a snapshot message, if the snapshot device is determined to be from the snapshot device at the roadside cell entrance, the vehicle is indicated to enter the cell or leave the cell, at this time, a parking completion record is not generated, and the snapshot message is determined to be an invalid message.

In the roadside parking lot in the above embodiment, a capturing device may be installed at an entrance and an exit of the parking lot, and a capturing device may also be installed at an entrance and an exit of a road vehicle parking lot including a cell entrance, where, referring to fig. 4, 41 is an entrance capturing device (such as an entrance bayonet camera or an entrance camera), 42 is an exit capturing device (such as an exit bayonet camera or an exit camera), and 43 is a cell entrance capturing device. The snapshot device at the entrance of the parking lot can acquire the entrance snapshot message, the snapshot device at the exit of the parking lot can acquire the exit snapshot message, and the snapshot message of the snapshot device at the entrance and exit of the cell is used for determining whether the vehicle is to enter the cell or exit the cell.

In order to improve the accuracy of charging of the roadside parking lot, an ETC device may be installed at an exit of the roadside parking lot, and referring to fig. 5, 51 is an entry snapshot device (for example, an entry gate camera or an entry camera), 52 is an exit snapshot device (for example, an exit gate camera or an exit camera), 53 is a cell entrance and exit snapshot device, and 54 is an entry ETC device. The ETC equipment has two functions, wherein the first function is that when the vehicle leaves a factory, the ETC equipment identifies the ETC vehicle-mounted electronic tag in the vehicle, and identifies the vehicle information again so as to avoid the condition that the vehicle information identified by the exit snapshot equipment is wrong; the second function is to communicate with ETC system network, carry on the parking and deduct the fees. The ETC equipment is additionally installed at the road outlet of the roadside parking lot, the vehicle license plate is identified by the roadside vehicle lot intersection bayonet camera, the vehicle information is acquired through the ETC equipment and the vehicle-mounted electronic tag, the vehicle information is identified by the bayonet camera, the two pieces of information are compared, and the real license plate information is finally confirmed. The accuracy of vehicle information identification and the accuracy of charging are improved, and the possibility of fee deduction errors is reduced.

In this embodiment, a snapshot device, an ETC device, and a roadside parking processing device, such as a device located in a parking management room, may include a parking charge management system and an ETC system.

Specifically, the capturing devices are respectively arranged at an entrance and an exit of the roadside parking lot, and when a vehicle enters a road section, the vehicle entrance information is identified through the capturing devices at the entrance and is stored in the parking charging management system. Through the snapshot equipment angle of adjustment export, the bayonet socket camera discerns vehicle information earlier than ETC equipment when guaranteeing that the vehicle is out of the court to match the information of entering the court of this vehicle in parking area management system, send the ETC system after the matching and initiate and withhold. When the vehicle is out of the field, the ETC equipment installed at the outlet identifies the ETC vehicle-mounted electronic tag inside the vehicle, identifies the vehicle information, and sends the vehicle information to the ETC system to initiate fee deduction.

The ETC system compares the fee deduction request initiated by the bayonet camera with the vehicle information of the ETC equipment, executes fee deduction after the vehicle information of the ETC equipment is matched with the fee deduction request, and returns a fee deduction result. The parking lot management system updates the vehicle departure state. If the matching fails, the currently generated billing order is possibly wrong, and a prompt message can be generated to prompt the owner of the vehicle and the parking manager so as to pay attention to the billing order.

In detail, the specific implementation of the above embodiment is explained:

(1) vehicle approach

The roadside parking lot entrance recognition equipment recognizes that a vehicle enters the parking lot, recognizes license plate information and sends the license plate information to the parking charging management system. When the vehicle enters the parking lot, the parking charging management system records the license plate number, the entrance time and the vehicle type information and stores the information in the parking charging management system.

(2) Installation of equipment

Referring to fig. 5, a gate camera is installed at an entrance of the roadside parking lot, a gate camera and a set of ETC devices are installed at an exit of the roadside parking lot, wherein the gate camera is installed above the ETC devices, and the gate camera can detect a wider range by adjusting an angle of the gate camera, and detect vehicle information of a departure earlier than the ETC devices.

(3) Exit dual mode identification

When a vehicle arrives at an exit, the vehicle firstly enters the identification range of the gate camera and is detected by the gate camera, the gate camera sends the identified exit vehicle information to the parking charging management system, the parking charging management system matches the entrance record of the vehicle in the system, a complete parking record is generated by matching the entrance information and the exit information of the vehicle, the parking duration is calculated according to the entrance time and the exit time, the parking charging is calculated, a piece of charging information is generated and sent to the ETC system for parking fee deduction.

When the vehicle continues to move forward at the exit and reaches the identification range of the ETC equipment, the ETC equipment identifies the ETC vehicle-mounted electronic tag in the vehicle, reads vehicle information of the vehicle leaving the vehicle, and sends the vehicle information to the ETC system for deduction.

(4) ETC fee deduction

When the ETC system receives a parking fee deduction request of the parking lot charging system, the ETC system does not execute fee deduction temporarily, and waits for the fee deduction request of the ETC device. When the charge deduction request of the ETC equipment arrives, the ETC system compares and matches vehicle information sent by the ETC equipment with a charging request sent by a parking lot charging system, if the vehicle information corresponding to the received charging request is consistent with the vehicle information sent by the ETC equipment within a set time threshold value, the dual-mode identification is judged to be successful, and the charge deduction operation is executed.

(5) Vehicle leaving

And (4) after the ETC equipment in the step (4) executes parking fee deduction, returning to a parking lot charging system and the ETC equipment fee deduction result, if the fee deduction is successful, updating the vehicle payment state of the parking lot charging system to be that the ETC fee deduction is successful, and completing automatic payment of the roadside parking departure place without subsequent compensation and additional payment.

There is also a case that if the license plate information recognized first by the exit gate camera does not reach the ETC system yet, but the vehicle information of the later recognized ETC device reaches the ETC system first, the ETC fee deduction is not executed strictly according to the sequence, but the same license plate fee deduction request in a shorter time interval is executed, and the actual fee deduction is not influenced by the case.

In conclusion, based on the dual-mode identification processing of the camera and the ETC radio frequency, the accuracy of vehicle information identification is improved through dual-mode identification, and the problems of mistaken fee deduction caused by mistaken identification and the problem of in-road parking fee pursuit are solved. The use scene of ETC has been richened, has improved the installation rate and the utilization ratio of ETC equipment. The enthusiasm of the user for using the ETC is improved, and fee deduction disputes caused by charging errors are reduced.

In addition, the method also comprises the following conditions that, for example, if the snapshot message is abnormal, the vehicle information identified by the ETC equipment is obtained, and then the charging order is generated according to the currently obtained parking record, the vehicle information obtained by the ETC equipment and the departure time.

As shown in fig. 6, based on the same inventive concept, an embodiment of the present invention provides a roadside parking processing apparatus, including: a vehicle information determination module 61, a message type determination module 62, and an abnormality type determination module 63.

The vehicle information determining module 61 is configured to determine vehicle information of a current vehicle according to the acquired snapshot message;

a message type determining module 62, configured to determine that the snapshot message is an incoming snapshot message;

an abnormal type determining module 63, configured to determine that the parking abnormal type is a message retransmission or a message disorder when an entry record or an exit record matching the vehicle information exists in the parking data list and a parking completion record is recorded at a time later than the snapshot time of the entry snapshot message; and when the parking record matched with the vehicle information exists in the parking data list, determining that the type of the parking abnormity is the last departure and omission.

In some exemplary embodiments, the message type determining module 62 is further configured to determine that the snapshot message is a departure snapshot message after determining the vehicle information of the current vehicle according to the acquired snapshot message;

an anomaly type determining module 63, further configured to:

when no parking record matched with the vehicle information exists in the parking data list, determining that the parking abnormity type is the current entrance missing detection;

the method comprises the steps that a parking record matched with vehicle information exists in a parking data list, and a parking section in the parking record is different from a current snapshot section, and the type of parking abnormity is determined to be the last departure and omission factor;

and when the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the exit snapshot message and the vehicle entrance interval recorded in the parking are smaller than the preset time interval, determining that the parking abnormal type is temporary parking of the passing vehicle.

In some exemplary embodiments, the message type determination module 62 is specifically configured to:

identifying the type identification of the snapshot device carried in the snapshot message;

if the type identifier is the identifier of the access snapshot device, determining that the snapshot message is the access snapshot message;

and if the type identifier is the identifier of the field snapshot device, determining that the snapshot message is the field snapshot message.

In some exemplary embodiments, the anomaly type determining module 63 is further configured to:

when a parking completion record of which the departure record matched with the vehicle information is later than the snapshot time of the entrance snapshot message exists in the parking data list, judging whether the parking section in the parking completion record is the same as the current snapshot section;

and when the parking exception type is different, determining that the parking exception type is message disorder, and the admission snapshot message is an overdue message.

In some exemplary embodiments, the anomaly type determining module 63 is further configured to:

when a parking record matched with the vehicle information exists in the parking data list, and the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the departure snapshot message and the vehicle entrance interval recorded in the parking are greater than or equal to the preset time interval, determining the charging information according to the parking record and the snapshot message;

and sending the charging information to a fee deduction system.

In some exemplary embodiments, the message type determination module 62 is further configured to:

and when determining that the snapshot message comes from the snapshot equipment at the entrance and exit of the road side cell, determining that the snapshot message is an invalid message.

Since the apparatus is the apparatus in the method in the embodiment of the present invention, and the principle of the apparatus for solving the problem is similar to that of the method, the implementation of the apparatus may refer to the implementation of the method, and repeated details are not repeated.

As shown in fig. 7, based on the same inventive concept, an embodiment of the present invention provides a roadside parking processing apparatus including: a processor 701 and a data acquisition unit 702.

The data acquisition unit 702 is configured to perform:

acquiring a snapshot message;

the processor 701 is configured to perform:

determining the vehicle information of the current vehicle according to the acquired snapshot message;

determining that the snapshot message is an entrance snapshot message;

if the parking data list has an entrance record or an exit record which is matched with the vehicle information and is later than the parking completion record of the snapshot time of the entrance snapshot message, determining that the parking abnormity type is message retransmission or message disorder;

and if the parking data list has the parking records matched with the vehicle information, determining that the type of the parking abnormity is the last departure and omission.

In some exemplary embodiments, the processor 701 is further configured to, after determining the vehicle information of the current vehicle from the acquired snapshot message, perform:

determining that the snapshot message is an outgoing snapshot message;

if the parking data list does not have a parking record matched with the vehicle information, determining that the type of the parking abnormity is the current entrance missing inspection;

if the parking record matched with the vehicle information exists in the parking data list and the parking section in the parking record is different from the current snapshot section, determining that the parking abnormal type is the last departure omission factor;

and if the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the exit snapshot message and the vehicle entrance interval recorded in the parking are smaller than the preset time interval, determining that the parking abnormal type is temporary parking of the passing vehicle.

In some exemplary embodiments, the processor 701 is configured to determine the type of snap message by:

identifying the type identification of the snapshot equipment carried in the snapshot message;

if the type identifier is the identifier of the access snapshot device, determining that the snapshot message is the access snapshot message;

and if the type identifier is the identifier of the field snapshot device, determining that the snapshot message is the field snapshot message.

In some exemplary embodiments, the processor 701 is further configured to:

if a parking completion record of which the departure record matched with the vehicle information is later than the snapshot time of the entrance snapshot message exists in the parking data list, judging whether the parking section in the parking completion record is the same as the current snapshot section;

if the parking exception type is different from the message out-of-order type, the parking exception type is determined to be a message out-of-order type, and the admission snapshot message is an overdue message.

In some exemplary embodiments, the processor 701 is further configured to:

if the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the departure snapshot message and the vehicle entrance interval recorded in the parking are greater than or equal to the preset time interval, determining the charging information according to the parking record and the snapshot message;

and sending the charging information to a fee deduction system.

In some exemplary embodiments, the processor 701 is further configured to:

and if the snapshot message is determined to come from the snapshot equipment at the entrance and exit of the road side cell, determining that the snapshot message is an invalid message.

The embodiment of the invention also provides a computer storage medium, wherein computer program instructions are stored in the computer storage medium, and when the instructions run on a computer, the computer is enabled to execute the steps of the network distribution method of the electronic home equipment.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and so forth) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (8)

1. A roadside parking processing apparatus characterized by comprising a data acquisition unit and a processor:

the data acquisition unit is configured to perform:

acquiring a snapshot message;

the processor is configured to perform:

determining the vehicle information of the current vehicle according to the acquired snapshot message;

determining the snapshot message as an entrance snapshot message;

if the parking data list has an entrance record or an exit record which is matched with the vehicle information and is later than the parking completion record of the snapshot time of the entrance snapshot message, determining that the parking abnormity type is message retransmission or message disorder;

if the parking data list has the parking records matched with the vehicle information, determining that the parking abnormity type is the last departure omission factor;

if a parking completion record of which the departure record matched with the vehicle information is later than the snapshot time of the entrance snapshot message exists in the parking data list, judging whether the parking section in the parking completion record is the same as the current snapshot section; if the parking abnormity type is different from the abnormal parking type, the parking abnormity type is determined to be message disorder, and the admission snapshot message is an overdue message.

2. The apparatus of claim 1, wherein the processor is further configured to, after the determining of the vehicle information of the current vehicle from the acquired snapshot message, perform:

determining the snapshot message as an outgoing snapshot message;

if the parking data list does not have a parking record matched with the vehicle information, determining that the parking abnormity type is the current entrance missing inspection;

if a parking record matched with the vehicle information exists in the parking data list and a parking section in the parking record is different from a current snapshot section, determining that the parking abnormal type is the last departure omission factor;

and if the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are smaller than the preset time interval, determining that the parking abnormal type is temporary parking of the passing vehicle.

3. The device of claim 2, wherein the processor is configured to determine the type of snap message by:

identifying the type identification of the snapshot device carried in the snapshot message;

if the type identification is the identification of the access snapshot equipment, determining that the snapshot message is the access snapshot message;

and if the type identifier is the identifier of the field snapshot equipment, determining that the snapshot message is the field snapshot message.

4. The device of claim 2, wherein the processor is further configured to:

if a parking record matched with the vehicle information exists in the parking data list, a parking section in the parking record is the same as a current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are greater than or equal to the preset time interval, determining charging information according to the parking record and the snapshot message;

and sending the charging information to a fee deduction system.

5. The apparatus of any of claims 2-4, wherein the processor is further configured to:

and if the snapshot message is determined to come from the snapshot equipment at the entrance and exit of the road side cell, determining that the snapshot message is an invalid message.

6. A roadside parking processing method characterized by comprising:

determining the vehicle information of the current vehicle according to the acquired snapshot message;

determining the snapshot message as an entrance snapshot message;

if the parking data list has an entrance record or an exit record which is matched with the vehicle information and is later than the parking completion record of the snapshot time of the entrance snapshot message, determining that the parking abnormity type is message retransmission or message disorder;

if the parking data list has the parking records matched with the vehicle information, determining that the parking abnormity type is the last departure omission factor;

if a parking completion record of which the departure record matched with the vehicle information is later than the snapshot time of the entrance snapshot message exists in the parking data list, judging whether the parking section in the parking completion record is the same as the current snapshot section; if the parking abnormity type is different from the abnormal parking type, the parking abnormity type is determined to be message disorder, and the admission snapshot message is an overdue message.

7. The method according to claim 6, wherein after determining the vehicle information of the current vehicle according to the acquired snapshot message, the method further comprises:

determining the snapshot message as an outgoing snapshot message;

if the parking data list does not have a parking record matched with the vehicle information, determining that the parking abnormity type is the current entrance missing inspection;

if a parking record matched with the vehicle information exists in the parking data list and a parking section in the parking record is different from a current snapshot section, determining that the parking abnormal type is the last departure omission factor;

and if the parking record matched with the vehicle information exists in the parking data list, the parking section in the parking record is the same as the current snapshot section, and the snapshot time of the field-out snapshot message and the vehicle entrance interval recorded in the parking are smaller than the preset time interval, determining that the parking abnormal type is temporary parking of the passing vehicle.

8. The method of claim 7, wherein the type of snap shot message is determined by:

identifying the type identification of the snapshot device carried in the snapshot message;

if the type identification is the identification of the access snapshot equipment, determining that the snapshot message is the access snapshot message;

and if the type identifier is the identifier of the field snapshot equipment, determining that the snapshot message is the field snapshot message.

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