CN113903085B - Trickle-based anti-ticket-swiping method and system for scenic spot ticketing system - Google Patents

Abstract

The invention provides a trickle-measure-based anti-ticket-swiping method and system for a scenic spot ticketing system. The method comprises the following steps: setting N ticket stages for the day-to-day ticketing time of a scenic spot according to the total ticket amount, wherein N is an integer not less than 3; setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standards in the scenic spot every day; placing tickets according to the ticket placing quantity of each ticket placing stage, and entering the next ticket placing stage if the tickets placed in the current ticket placing stage are sold completely; recording the number of the returned tickets corresponding to each ticket releasing stage in real time, caching the number of the returned tickets of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage; real-name ticket purchasing information in a real-time ticket purchasing system is monitored, names of ticket purchasers who have abnormal ticket purchasing are extracted according to an abnormal ticket purchasing principle, and the names are recorded in a blacklist. The system comprises modules corresponding to the method steps.

Description

Trickle-based anti-ticket-swiping method and system for scenic spot ticketing system

Technical Field

The invention provides a trickle-measure-based anti-ticket-swiping method for a scenic spot ticketing system, and belongs to the technical field of ticketing systems.

Background

With the continuous development of information technology, the internet technology and the internet of things technology bring great convenience to the life of people. Wherein, the ticket buying mode of the high-speed rail and the common train is mainly changed from off-line to on-line. However, the networked ticket buying mode also brings about a great deal of behaviors of defaulting to sell tickets, such as cattle, and the like, and the cattle rob tickets and store tickets in a large amount by virtue of ticket buying technical conditions superior to those of ordinary users, thereby influencing the travel of the majority of the ordinary users.

Disclosure of Invention

The invention provides a trickle-measure-based anti-ticket-swiping method and system for a scenic spot ticketing system, which are used for solving the problem that the conventional scenic spot ticketing cannot effectively prevent the yellow cattle from swiping a ticket, and adopt the following technical scheme:

a trickle-based measure anti-ticket-swishing method for a scenic spot ticketing system, the method comprising:

setting N ticket stages for the day-to-day ticketing time of a scenic spot according to the total ticket amount, wherein N is an integer not less than 3;

setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standards in the scenic spot every day;

placing tickets according to the ticket placing quantity of each ticket placing stage, and entering the next ticket placing stage if the tickets placed in the current ticket placing stage are sold completely;

recording the number of the returned tickets corresponding to each ticket releasing stage in real time, caching the number of the returned tickets of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage;

real-name ticket purchasing information in a real-time ticket purchasing system is monitored, names of ticket purchasers who have abnormal ticket purchasing are extracted according to an abnormal ticket purchasing principle, and the names are recorded in a blacklist.

Further, setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standard in the scenic spot every day, and the method comprises the following steps:

extracting the times of ticket placing stages set by the ticket system for selling the ticket on the current day of the ticket period, and judging whether the current day of the ticket period is a holiday or not;

if the current day of ticket selling is a non-holiday, setting the number of tickets put in the first ticket putting stage to be 1.2 multiplied by M/N, wherein M represents the total number of tickets; the ticket amount corresponding to each subsequent ticket putting stage is (1.0 + 0.3) multiplied by M/N once and (1.2-0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage;

if the current day of ticket selling is holiday, setting the number of tickets put in the first ticket putting stage to be 1.1 multiplied by M/N, wherein M represents the total number of tickets; the ticket amount corresponding to each subsequent ticket putting stage is (1.1-0.2) multiplied by M/N once and (1.1 + 0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage.

Further, the trickle ticket issuing according to the ticket issuing stage includes:

after the number of the returned tickets in each ticket releasing stage is cached in a ticket returning area, the returned tickets in each ticket releasing stage are not sold in the current ticket releasing stage, but are stored in the ticket returning area to wait for the beginning of the next ticket releasing stage;

recording the number of the remaining ticket releasing stages in real time, and setting the number of reissued tickets registered in the ticket returning area according to the number of the remaining ticket releasing stages to obtain the proportion of the number of reissued tickets in each of the following remaining ticket releasing stages;

according to the proportion of the number of the returned tickets which are issued again in each subsequent ticket releasing stage, the number of the released tickets which is corresponding to the proportion of the number of the returned tickets which are issued again in each subsequent ticket releasing stage is extracted from the ticket returning area and is included in the number of the released tickets which are issued in the current ticket releasing stage for ticket releasing.

Further, the setting of the number of reissued tickets of the returned tickets registered in the ticket returning area comprises:

acquiring the total number of returned tickets in the ticketing period of the previous ticket releasing stage, and setting the number of re-issued tickets in the subsequent ticket releasing stage according to the following principle:

if the current day of ticket selling is a non-holiday, setting the number of the returned tickets in the next ticket releasing stage as P/T, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.2) multiplied by M/N for one time and (1.0 + 0.5) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; if the amount of the returned tickets remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing;

if the current day of ticket selling is holiday, setting the number of the returned tickets in the next ticket releasing stage to be (1.0-0.2) multiplied by P/T, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.3) multiplied by M/N for one time and (1.0 + 0.2) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; and if the amount of the returned tickets still remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing.

Further, the abnormal ticket buying principle is as follows:

when the same ticket purchasing name is in a monitoring period and the ticket purchasing record exceeds three times, calling the number of ticket purchasing in the current monitoring period, if the number of ticket purchasing of the ticket purchasing name in the current monitoring period exceeds 10, carrying out abnormal marking on the ticket purchasing name, and monitoring whether the ticket purchasing information of the name appears in the next monitoring period; if the ticket purchase name is satisfied in the next ticket purchase period: if the number of ticket buying in the next ticket buying period exceeds 8 and the number of ticket buying in the next ticket buying period exceeds any one of two conditions, the name of the ticket buying is counted into a blacklist; forbidding ticket buying in the future three monitoring periods of the ticket buying name, and unsealing the ticket buying name after the three monitoring periods;

and reporting the name user to a network police system if the ticket purchasing name still has any one of the condition that the number of ticket purchasing in a single ticket purchasing period exceeds 8 and the ticket purchasing frequency in the single ticket purchasing period exceeds two times after the ticket purchasing name is unpacked in one ticket purchasing period.

Further, the system comprises:

the stage setting module is used for setting N ticket stages for selling tickets in the scenic spot all day according to the total ticket amount, wherein N is an integer not less than 3;

the quantity setting module is used for setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standards in the scenic spot every day;

the ticket releasing module is used for releasing tickets according to the ticket releasing quantity of each ticket releasing stage, and entering the next ticket releasing stage if the ticket releasing quantity of the current ticket releasing stage is sold completely;

the ticket returning recording module is used for recording the ticket returning quantity corresponding to each ticket releasing stage in real time, caching the ticket returning quantity of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage;

and the monitoring module is used for monitoring real-name ticket purchasing information in the ticketing system in real time, extracting the names of ticket purchasers with abnormal ticket purchasing according to an abnormal ticket purchasing principle, and recording the names into a blacklist.

Further, the number setting module includes:

the extracting module is used for extracting the times of ticket placing stages set by the ticket selling system on the current day of the ticket term and judging whether the current day of the ticket term is a holiday or not;

the first ticket releasing module is used for setting the ticket releasing quantity of a first ticket releasing stage to be 1.2 multiplied by M/N if the current day of ticket releasing is a non-holiday, wherein M represents the total ticket quantity; the ticket amount corresponding to each subsequent ticket putting stage is (1.0 + 0.3) multiplied by M/N once and (1.2-0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage;

the second ticket releasing module is used for setting the ticket releasing quantity of the first ticket releasing stage to be 1.1 multiplied by M/N if the current day of ticket releasing is a holiday, wherein M represents the total ticket quantity; the ticket amount corresponding to each subsequent ticket putting stage is (1.1-0.2) multiplied by M/N once and (1.1 + 0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage.

Further, the ticket refund recording module comprises:

the storage module is used for storing the returned tickets in each ticket releasing stage in the ticket returning area after the returned ticket amount of each ticket releasing stage is cached in the ticket returning area, so that the returned tickets in each ticket releasing stage are not sold in the current ticket releasing stage, and are stored in the ticket returning area to wait for the start of the next ticket releasing stage;

the ticket re-releasing setting module is used for recording the number of the remaining ticket releasing stages in real time, and performing ticket re-releasing number setting on the returned tickets stored in the ticket releasing area according to the number of the remaining ticket releasing stages to obtain the proportion of the number of the returned tickets re-released in each subsequent remaining number of the ticket releasing stages;

and the ticket returning and releasing module is used for extracting the number of released tickets corresponding to the ticket returning and releasing number proportion from the ticket returning area and bringing the extracted number of released tickets into the number of released tickets to be released in the current ticket releasing stage for releasing the tickets according to the ticket returning and releasing number proportion in the number of times of each remaining ticket releasing stage in the follow-up process.

Further, the resale setting module comprises:

the ticket returning quantity acquisition module is used for acquiring the total number of returned tickets in the ticket selling period of the last ticket releasing stage;

the first ticket returning and resale quantity setting module is used for setting the ticket returning and resale quantity in the next ticket releasing stage to be P/T if the current day of ticket selling is a non-holiday, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.2) multiplied by M/N for one time and (1.0 + 0.5) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; if the amount of the returned tickets remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing;

the second ticket returning and resale quantity setting module is used for setting the ticket returning and resale quantity of the ticket returning in the next ticket releasing stage to be (1.0-0.2) multiplied by P/T if the current day of ticket selling is a holiday, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.3) multiplied by M/N for one time and (1.0 + 0.2) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; and if the amount of the returned tickets still remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing.

Further, the abnormal ticket buying principle is as follows:

when the same ticket purchasing name is in a monitoring period and the ticket purchasing record exceeds three times, calling the number of ticket purchasing in the current monitoring period, if the number of ticket purchasing of the ticket purchasing name in the current monitoring period exceeds 10, carrying out abnormal marking on the ticket purchasing name, and monitoring whether the ticket purchasing information of the name appears in the next monitoring period; if the ticket purchase name is satisfied in the next ticket purchase period: if the number of ticket buying in the next ticket buying period exceeds 8 and the number of ticket buying in the next ticket buying period exceeds any one of two conditions, the name of the ticket buying is counted into a blacklist; forbidding ticket buying in the future three monitoring periods of the ticket buying name, and unsealing the ticket buying name after the three monitoring periods;

and reporting the name user to a network police system if the ticket purchasing name still has any one of the condition that the number of ticket purchasing in a single ticket purchasing period exceeds 8 and the ticket purchasing frequency in the single ticket purchasing period exceeds two times after the ticket purchasing name is unpacked in one ticket purchasing period.

The invention has the beneficial effects that:

the trickle-measure-based anti-ticket-swiping method and system for the scenic spot ticketing system can effectively prevent the mode that the cattle quickly acquire the ticket source to swipe tickets through temporarily not buying the returned tickets but through a subsequent mode of gradually buying tickets in sequence, and simultaneously restrain the ticket vendor from selling tickets in time and quantity through a trickle-flow mode of gradually selling tickets in a step-by-step mode, so that the problem that the selling order of the scenic spot ticketing is influenced by the selling of the stored tickets of the cattle is effectively avoided.

Drawings

FIG. 1 is a first flow chart of the method of the present invention;

FIG. 2 is a second flow chart of the method of the present invention;

fig. 3 is a system block diagram of the system of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

The invention provides a trickle-measure-based anti-ticket-swiping method for a scenic spot ticketing system, which comprises the following steps of:

s1, setting N ticket stages according to the total ticket amount in the whole day ticketing time of the scenic spot, wherein N is an integer not less than 3;

s2, setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standard in the scenic spot every day;

s3, placing tickets according to the ticket placing quantity of each ticket placing stage, and entering the next ticket placing stage if the ticket number placed in the current ticket placing stage is sold completely;

s4, recording the number of the returned tickets corresponding to each ticket releasing stage in real time, caching the number of the returned tickets of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage;

and S5, real-name ticket purchasing information in the ticket system is monitored in real time, and the names of ticket purchasers who have abnormal ticket purchasing are extracted according to an abnormal ticket purchasing principle and are recorded into a blacklist.

The abnormal ticket buying principle is as follows:

when the same ticket purchasing name is in a monitoring period and the ticket purchasing record exceeds three times, calling the number of ticket purchasing in the current monitoring period, if the number of ticket purchasing of the ticket purchasing name in the current monitoring period exceeds 10, carrying out abnormal marking on the ticket purchasing name, and monitoring whether the ticket purchasing information of the name appears in the next monitoring period; if the ticket purchase name is satisfied in the next ticket purchase period: if the number of ticket buying in the next ticket buying period exceeds 8 and the number of ticket buying in the next ticket buying period exceeds any one of two conditions, the name of the ticket buying is counted into a blacklist; forbidding ticket buying in the future three monitoring periods of the ticket buying name, and unsealing the ticket buying name after the three monitoring periods;

and reporting the name user to a network police system if the ticket purchasing name still has any one of the condition that the number of ticket purchasing in a single ticket purchasing period exceeds 8 and the ticket purchasing frequency in the single ticket purchasing period exceeds two times after the ticket purchasing name is unpacked in one ticket purchasing period.

Meanwhile, the ticket refunding and ticket releasing mechanism can adopt the following principles:

a ticket placing mechanism: there are two possible algorithms in the trickle ticketing system for trickle flow when guests in a scenic spot begin to decrease after they reach a peak:

a. and (4) looking at the ticket refund rate in the current ticket stock, and putting tickets in time according to the ticket refund rate.

b. The system randomly places a random number of tickets.

The mechanism of returning tickets:

1. according to the sequence of the ports (the ports are divided into a field ticketing window end, a scenic spot official background and an OTA distribution channel), namely, if the tourist is in the scenic spot, the priority is that the field ticketing window is higher than the scenic spot official background which is not less than the OTA distribution channel.

2. The automatic matching is carried out according to the access amount of the port, the field window is matched for returning tickets if the field ticket window has large access amount, the background returning tickets on the official line of the scenic spot are preferentially matched if the official background access amount of the scenic spot is large, and the tourists who buy tickets in OTA channels such as travel, beauty group, same travel and the like can only return the tickets in the purchasing channel.

The working principle of the technical scheme is as follows: firstly, setting N ticket stages for selling tickets in a scenic spot all day according to the total ticket amount, wherein N is an integer not less than 3; then, setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standards in the scenic spot every day; then, placing tickets according to the ticket placing quantity of each ticket placing stage, and entering the next ticket placing stage if the tickets placed in the current ticket placing stage are sold completely; then recording the number of the returned tickets corresponding to each ticket releasing stage in real time, caching the number of the returned tickets of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage; and finally, real-name ticket purchasing information in the ticketing system is monitored in real time, the names of ticket purchasers who have abnormal ticket purchasing are extracted according to an abnormal ticket purchasing principle, and the names are recorded into a blacklist.

The effect of the above technical scheme is as follows: the trickle-measure-based anti-ticket-swiping method for the scenic spot ticketing system can be used for temporarily keeping the returned tickets for buying, and can be used for effectively preventing the mode of fast acquiring ticket sources for swiping the tickets for the cattle through the subsequent progressive buying mode, and meanwhile, the trickle-flow type progressive ticket-swiping mode is used for containing the hoarding tickets for selling from time and quantity, so that the problem that the situation that the ticket order of the scenic spot is influenced due to the hoarding ticket selling of the cattle is effectively avoided. Meanwhile, malicious ticket purchasing names are effectively monitored and restricted, and the system is in butt joint with a network police system to report malicious ticket purchasing personnel, so that the precaution and the precaution of the cattle ticket swiping and storing are effectively improved.

According to one embodiment of the invention, the method for setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standard in the scenic spot every day comprises the following steps:

s201, extracting the times of ticket placing stages set by a ticket system for selling the ticket corresponding to the current day of the ticket term, and judging whether the current day of the ticket term is a holiday or not;

s202, if the current day of ticket selling is a non-holiday, setting the number of tickets put in the first ticket putting stage to be 1.2 multiplied by M/N, wherein M represents the total number of tickets; the ticket amount corresponding to each subsequent ticket putting stage is (1.0 + 0.3) multiplied by M/N once and (1.2-0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage;

s203, if the current day of ticket selling is a holiday, setting the number of tickets put in the first ticket putting stage to be 1.1 multiplied by M/N, wherein M represents the total number of tickets; the ticket amount corresponding to each subsequent ticket putting stage is (1.1-0.2) multiplied by M/N once and (1.1 + 0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage.

The working principle of the technical scheme is as follows: firstly, extracting the number of times of ticket placing stages set by a ticket system for selling tickets on the current day of a ticket term, and judging whether the current day of the ticket term is a holiday or not; then, if the current day of ticket selling is a non-holiday, setting the number of the tickets put in the first ticket putting stage to be 1.2 multiplied by M/N, wherein M represents the total number of the tickets; the ticket amount corresponding to each subsequent ticket putting stage is (1.0 + 0.3) multiplied by M/N once and (1.2-0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage; finally, if the current day of ticket selling is a holiday, setting the number of tickets put in the first ticket putting stage to be 1.1 multiplied by M/N, wherein M represents the total ticket amount; the ticket amount corresponding to each subsequent ticket putting stage is (1.1-0.2) multiplied by M/N once and (1.1 + 0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage.

The effect of the above technical scheme is as follows: by means of the mode, trickle performance and cyclicity in the ticket releasing process can be effectively improved, ticket releasing time and limitation on ticket releasing quantity are effectively prolonged, and inhibition on cattle ticket accumulation is effectively improved by intermittent ticket releasing. Meanwhile, the ticket number of each ticket placing stage is set through the mode and the number, the ticket placing number range can be controlled, and the problem that the regular ticket brushing and storing of the buffalos by the buffalos due to the fact that the tickets are placed in the same number is further utilized by the buffalos is solved.

According to one embodiment of the invention, the trickle-type ticket issuing according to the ticket issuing stage, as shown in fig. 2, includes:

s401, after the number of the returned tickets at each ticket releasing stage is cached in a ticket returning area, the returned tickets at each ticket releasing stage are not sold at the current ticket releasing stage, but are stored in the ticket returning area to wait for the start of the next ticket releasing stage;

s402, recording the number of the remaining ticket releasing stages in real time, and setting the number of reissued tickets registered in the ticket returning area according to the number of the remaining ticket releasing stages to obtain the proportion of the number of reissued tickets in each subsequent remaining ticket releasing stage;

and S403, extracting the ticket releasing quantity corresponding to the ticket number ratio of the reissued tickets in the ticket returning area from the ticket returning area according to the ticket number ratio of the reissued tickets in each subsequent ticket releasing stage, and adding the extracted ticket releasing quantity into the ticket releasing quantity to be released in the current ticket releasing stage for ticket releasing.

Wherein, the setting of the number of reissued tickets registered in the ticket returning area comprises the following steps:

s4021, acquiring all the number of returned tickets in the ticketing period of the previous ticket releasing stage, and setting the number of re-issued tickets in the subsequent ticket releasing stage according to the following principle:

s4022, if the current day of ticket selling is a non-holiday, setting the number of the returned tickets in the next ticket releasing stage to be P/T, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.2) multiplied by M/N for one time and (1.0 + 0.5) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; if the amount of the returned tickets remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing;

s4023, if the current day of ticket selling is holiday, setting the number of the returned tickets in the next ticket releasing stage to be (1.0-0.2) multiplied by P/T, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the remaining ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.3) multiplied by M/N for one time and (1.0 + 0.2) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; and if the amount of the returned tickets still remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing.

The abnormal ticket buying principle is as follows:

when the same ticket purchasing name is in a monitoring period and the ticket purchasing record exceeds three times, calling the number of ticket purchasing in the current monitoring period, if the number of ticket purchasing of the ticket purchasing name in the current monitoring period exceeds 10, carrying out abnormal marking on the ticket purchasing name, and monitoring whether the ticket purchasing information of the name appears in the next monitoring period; if the ticket purchase name is satisfied in the next ticket purchase period: if the number of ticket buying in the next ticket buying period exceeds 8 and the number of ticket buying in the next ticket buying period exceeds any one of two conditions, the name of the ticket buying is counted into a blacklist; forbidding ticket buying in the future three monitoring periods of the ticket buying name, and unsealing the ticket buying name after the three monitoring periods;

and reporting the name user to a network police system if the ticket purchasing name still has any one of the condition that the number of ticket purchasing in a single ticket purchasing period exceeds 8 and the ticket purchasing frequency in the single ticket purchasing period exceeds two times after the ticket purchasing name is unpacked in one ticket purchasing period.

The effect of the above technical scheme is as follows: by the adoption of the mode, trickle performance and cyclicity in the ticket returning and ticket releasing process can be effectively improved, ticket releasing time of ticket returning and the limitation on ticket releasing quantity are effectively prolonged, and further the inhibition on the cattle ticket storing is effectively improved through continuous intermittent ticket releasing. Meanwhile, the ticket number of each ticket placing stage is set through the mode and the number, the ticket placing number range can be controlled, and the problem that the regular ticket brushing and storing of the buffalos by the buffalos due to the fact that the tickets are placed in the same number is further utilized by the buffalos is solved. Moreover, by means of a progressive ticket returning and releasing method and an indefinite number of ticket returning and releasing methods, the situation that the cattle cannot observe the actual situation of the returned tickets can be effectively guaranteed, and the possibility of ticket brushing and ticket storing of the cattle and the influence on ticket selling can be further prevented.

The invention provides a trickle-based anti-ticket-swiping system for a scenic spot ticketing system, which comprises the following components in percentage by weight as shown in figure 3:

the stage setting module is used for setting N ticket stages for selling tickets in the scenic spot all day according to the total ticket amount, wherein N is an integer not less than 3;

the quantity setting module is used for setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standards in the scenic spot every day;

the ticket releasing module is used for releasing tickets according to the ticket releasing quantity of each ticket releasing stage, and entering the next ticket releasing stage if the ticket releasing quantity of the current ticket releasing stage is sold completely;

the ticket returning recording module is used for recording the ticket returning quantity corresponding to each ticket releasing stage in real time, caching the ticket returning quantity of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage;

and the monitoring module is used for monitoring real-name ticket purchasing information in the ticketing system in real time, extracting the names of ticket purchasers with abnormal ticket purchasing according to an abnormal ticket purchasing principle, and recording the names into a blacklist.

The working principle of the technical scheme is as follows: firstly, setting N ticket stages for selling tickets in a scenic spot all day according to the total ticket amount through a stage setting module, wherein N is an integer not less than 3; then, setting the ticket placing quantity corresponding to each ticket placing stage by using a quantity setting module according to the total ticket placing quantity of the ticket placing standards in the scenic spot every day; then, the ticket placing module is adopted to place tickets according to the ticket placing quantity of each ticket placing stage, and if the ticket number placed in the current ticket placing stage is sold completely, the next ticket placing stage is started; then, recording the number of the returned tickets corresponding to each ticket releasing stage in real time through a ticket returning recording module, caching the number of the returned tickets of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage; and finally, monitoring real-name ticket purchasing information in the ticketing system in real time by using a monitoring module, extracting the names of ticket purchasers who have abnormal ticket purchasing according to an abnormal ticket purchasing principle, and recording the names into a blacklist.

The effect of the above technical scheme is as follows: a prevent system of punching a bill for scenic spot ticketing system that this embodiment provided can be through putting temporarily not buying to the ticket refund, but put the mode of buying through follow-up progressive, obtain the ticket source fast and take precautions against effectively to the ox mode of punching a bill, simultaneously, progressively put the ticket mode through the trickle and suppress this ticket vendor in time and quantity and sell, effectively avoid the ox to store up the ticket and sell and lead to influencing the problem emergence of scenic spot ticketing order. Meanwhile, malicious ticket purchasing names are effectively monitored and restricted, and the system is in butt joint with a network police system to report malicious ticket purchasing personnel, so that the precaution and the precaution of the cattle ticket swiping and storing are effectively improved.

In one embodiment of the present invention, the number setting module includes:

the extracting module is used for extracting the times of ticket placing stages set by the ticket selling system on the current day of the ticket term and judging whether the current day of the ticket term is a holiday or not;

the first ticket releasing module is used for setting the ticket releasing quantity of a first ticket releasing stage to be 1.2 multiplied by M/N if the current day of ticket releasing is a non-holiday, wherein M represents the total ticket quantity; the ticket amount corresponding to each subsequent ticket putting stage is (1.0 + 0.3) multiplied by M/N once and (1.2-0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage;

the second ticket releasing module is used for setting the ticket releasing quantity of the first ticket releasing stage to be 1.1 multiplied by M/N if the current day of ticket releasing is a holiday, wherein M represents the total ticket quantity; the ticket amount corresponding to each subsequent ticket putting stage is (1.1-0.2) multiplied by M/N once and (1.1 + 0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage.

The working principle of the technical scheme is as follows: firstly, extracting the times of ticket placing stages set by a ticket system for selling the ticket corresponding to the current day of the ticket term through an extraction module, and judging whether the current day of the ticket term is a holiday or not; then, if the current day of ticket selling is a non-holiday by utilizing a first ticket releasing module, setting the number of tickets released in a first ticket releasing stage to be 1.2 multiplied by M/N, wherein M represents the total ticket amount; the ticket amount corresponding to each subsequent ticket putting stage is (1.0 + 0.3) multiplied by M/N once and (1.2-0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage; finally, if the current day of ticket selling is a holiday day, a second ticket placing module is adopted, the number of tickets placed in the first ticket placing stage is set to be 1.1 multiplied by M/N, wherein M represents the total ticket amount; the ticket amount corresponding to each subsequent ticket putting stage is (1.1-0.2) multiplied by M/N once and (1.1 + 0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage.

The effect of the above technical scheme is as follows: by means of the mode, trickle performance and cyclicity in the ticket releasing process can be effectively improved, ticket releasing time and limitation on ticket releasing quantity are effectively prolonged, and inhibition on cattle ticket accumulation is effectively improved by intermittent ticket releasing. Meanwhile, the ticket number of each ticket placing stage is set through the mode and the number, the ticket placing number range can be controlled, and the problem that the regular ticket brushing and storing of the buffalos by the buffalos due to the fact that the tickets are placed in the same number is further utilized by the buffalos is solved.

In one embodiment of the present invention, the ticket refund recording module includes:

the storage module is used for storing the returned tickets in each ticket releasing stage in the ticket returning area after the returned ticket amount of each ticket releasing stage is cached in the ticket returning area, so that the returned tickets in each ticket releasing stage are not sold in the current ticket releasing stage, and are stored in the ticket returning area to wait for the start of the next ticket releasing stage;

the ticket re-releasing setting module is used for recording the number of the remaining ticket releasing stages in real time, and performing ticket re-releasing number setting on the returned tickets stored in the ticket releasing area according to the number of the remaining ticket releasing stages to obtain the proportion of the number of the returned tickets re-released in each subsequent remaining number of the ticket releasing stages;

and the ticket returning and releasing module is used for extracting the number of released tickets corresponding to the ticket returning and releasing number proportion from the ticket returning area and bringing the extracted number of released tickets into the number of released tickets to be released in the current ticket releasing stage for releasing the tickets according to the ticket returning and releasing number proportion in the number of times of each remaining ticket releasing stage in the follow-up process.

Wherein, put the ticket setting module again and include:

the ticket returning quantity acquisition module is used for acquiring the total number of returned tickets in the ticket selling period of the last ticket releasing stage;

the first ticket returning and resale quantity setting module is used for setting the ticket returning and resale quantity in the next ticket releasing stage to be P/T if the current day of ticket selling is a non-holiday, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.2) multiplied by M/N for one time and (1.0 + 0.5) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; if the amount of the returned tickets remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing;

the second ticket returning and resale quantity setting module is used for setting the ticket returning and resale quantity of the ticket returning in the next ticket releasing stage to be (1.0-0.2) multiplied by P/T if the current day of ticket selling is a holiday, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.3) multiplied by M/N for one time and (1.0 + 0.2) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; and if the amount of the returned tickets still remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing.

The working principle of the technical scheme is as follows: the operation process of the ticket refunding recording module comprises the following steps:

firstly, after the number of the returned tickets at each ticket releasing stage is cached in a ticket returning area through a registering module, the returned tickets at each ticket releasing stage are not sold at the current ticket releasing stage, but are registered in the ticket returning area to wait for the start of the next ticket releasing stage; then, the ticket re-releasing setting module is used for recording the number of the remaining ticket releasing stages in real time, and setting the number of the reissued tickets registered in the ticket returning area according to the number of the remaining ticket releasing stages to obtain the proportion of the number of the reissued tickets in each of the following remaining ticket releasing stages; and finally, extracting the ticket releasing quantity corresponding to the ticket number proportion of the reissued tickets in the ticket refunding area from the ticket releasing quantity to be released in the current ticket releasing stage for ticket releasing according to the ticket number proportion of the reissued tickets in the times of each remaining ticket releasing stage in the follow-up process by adopting a ticket refunding and ticket releasing module.

Wherein, the operation process of the ticket re-putting setting module comprises the following steps:

firstly, acquiring the total number of returned tickets in the ticketing period of the last ticket releasing stage through a number-of-returned tickets acquisition module; then, if the current day of ticket selling is a non-holiday, setting the number of the returned tickets in the next ticket releasing stage as P/T by using a first number setting module for returning the tickets, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.2) multiplied by M/N for one time and (1.0 + 0.5) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; if the amount of the returned tickets remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing; then, setting the number of the returned tickets in the next ticket releasing stage to be (1.0-0.2) multiplied by P/T by adopting a second ticket returning and reselling number setting module if the current day of ticket selling is a holiday day, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.3) multiplied by M/N for one time and (1.0 + 0.2) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; and if the amount of the returned tickets still remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing.

The effect of the above technical scheme is as follows: by the adoption of the mode, trickle performance and cyclicity in the ticket returning and ticket releasing process can be effectively improved, ticket releasing time of ticket returning and the limitation on ticket releasing quantity are effectively prolonged, and further the inhibition on the cattle ticket storing is effectively improved through continuous intermittent ticket releasing. Meanwhile, the ticket number of each ticket placing stage is set through the mode and the number, the ticket placing number range can be controlled, and the problem that the regular ticket brushing and storing of the buffalos by the buffalos due to the fact that the tickets are placed in the same number is further utilized by the buffalos is solved. Moreover, by means of a progressive ticket returning and releasing method and an indefinite number of ticket returning and releasing methods, the situation that the cattle cannot observe the actual situation of the returned tickets can be effectively guaranteed, and the possibility of ticket brushing and ticket storing of the cattle and the influence on ticket selling can be further prevented.

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

Claims (6)

1. A trickle-based anti-ticket-swiping method for a scenic spot ticketing system, the method comprising:

setting N ticket stages for the day-to-day ticketing time of a scenic spot according to the total ticket amount, wherein N is an integer not less than 3;

setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standards in the scenic spot every day;

placing tickets according to the ticket placing quantity of each ticket placing stage, and entering the next ticket placing stage if the tickets placed in the current ticket placing stage are sold completely;

recording the number of the returned tickets corresponding to each ticket releasing stage in real time, caching the number of the returned tickets of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage;

real-name ticket purchasing information in a real-time monitoring ticketing system, extracting names of ticket purchasers with abnormal ticket purchasing according to an abnormal ticket purchasing principle, and recording the names into a blacklist;

wherein, the trickle ticket issuing according to the ticket issuing stage comprises the following steps:

after the number of the returned tickets in each ticket releasing stage is cached in a ticket returning area, the returned tickets in each ticket releasing stage are not sold in the current ticket releasing stage, but are stored in the ticket returning area to wait for the beginning of the next ticket releasing stage;

recording the number of the remaining ticket releasing stages in real time, and setting the number of reissued tickets registered in the ticket returning area according to the number of the remaining ticket releasing stages to obtain the proportion of the number of reissued tickets in each of the following remaining ticket releasing stages;

according to the ticket number proportion of the reissued tickets in the times of each subsequent remaining ticket releasing stage, extracting the ticket releasing quantity corresponding to the ticket number proportion of the reissued tickets from the ticket returning area from the ticket releasing quantity which is supposed to be released in the subsequent ticket releasing stage, and bringing the extracted ticket releasing quantity into the ticket releasing quantity which is supposed to be released in the current ticket releasing stage for ticket releasing;

the setting of the number of reissued tickets registered in the ticket returning area comprises the following steps:

acquiring the total number of returned tickets in the ticketing period of the previous ticket releasing stage, and setting the number of re-issued tickets in the subsequent ticket releasing stage according to the following principle:

if the current day of ticket selling is a non-holiday, setting the number of the returned tickets in the next ticket releasing stage as P/T, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.2) multiplied by M/N for one time and (1.0 + 0.5) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; if the amount of the returned tickets remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing;

if the current day of ticket selling is holiday, setting the number of the returned tickets in the next ticket releasing stage to be (1.0-0.2) multiplied by P/T, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.3) multiplied by M/N for one time and (1.0 + 0.2) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; and if the amount of the returned tickets still remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing.

2. The trickle-measure-based anti-ticket-swiping method according to claim 1, wherein the step of setting the ticket-swiping number corresponding to each ticket-swiping stage according to the total ticket-swiping amount of the ticket-swiping standard in the scenic spot every day comprises the following steps:

extracting the times of ticket placing stages set by the ticket system for selling the ticket on the current day of the ticket period, and judging whether the current day of the ticket period is a holiday or not;

if the current day of ticket selling is a non-holiday, setting the number of tickets put in the first ticket putting stage to be 1.2 multiplied by M/N, wherein M represents the total number of tickets; the ticket amount corresponding to each subsequent ticket putting stage is (1.0 + 0.3) multiplied by M/N once and (1.2-0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage;

if the current day of ticket selling is holiday, setting the number of tickets put in the first ticket putting stage to be 1.1 multiplied by M/N, wherein M represents the total number of tickets; the ticket amount corresponding to each subsequent ticket putting stage is (1.1-0.2) multiplied by M/N once and (1.1 + 0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage.

3. The trickle-based measure anti-ticket-swiping method according to claim 1, wherein the abnormal ticket-buying principle is as follows:

when the same ticket purchasing name is in a monitoring period and the ticket purchasing record exceeds three times, calling the number of ticket purchasing in the current monitoring period, if the number of ticket purchasing of the ticket purchasing name in the current monitoring period exceeds 10, carrying out abnormal marking on the ticket purchasing name, and monitoring whether the ticket purchasing information of the name appears in the next monitoring period; if the ticket purchase name is satisfied in the next ticket purchase period: if the number of ticket buying in the next ticket buying period exceeds 8 and the number of ticket buying in the next ticket buying period exceeds any one of two conditions, the name of the ticket buying is counted into a blacklist; forbidding ticket buying in the future three monitoring periods of the ticket buying name, and unsealing the ticket buying name after the three monitoring periods;

and reporting the name user to a network police system if the ticket purchasing name still has any one of the condition that the number of ticket purchasing in a single ticket purchasing period exceeds 8 and the ticket purchasing frequency in the single ticket purchasing period exceeds two times after the ticket purchasing name is unpacked in one ticket purchasing period.

4. A trickle-based anti-ticket system for a scenic spot ticketing system, the system comprising:

the stage setting module is used for setting N ticket stages for selling tickets in the scenic spot all day according to the total ticket amount, wherein N is an integer not less than 3;

the quantity setting module is used for setting the ticket placing quantity corresponding to each ticket placing stage according to the total ticket placing quantity of the ticket placing standards in the scenic spot every day;

the ticket releasing module is used for releasing tickets according to the ticket releasing quantity of each ticket releasing stage, and entering the next ticket releasing stage if the ticket releasing quantity of the current ticket releasing stage is sold completely;

the ticket returning recording module is used for recording the ticket returning quantity corresponding to each ticket releasing stage in real time, caching the ticket returning quantity of each ticket releasing stage into a ticket returning area, and performing trickle ticket releasing according to the ticket releasing stage;

the monitoring module is used for monitoring real-name ticket purchasing information in the ticketing system in real time, extracting the names of ticket purchasers who have abnormal ticket purchasing according to an abnormal ticket purchasing principle, and recording the names into a blacklist;

the ticket refunding recording module comprises:

the storage module is used for storing the returned tickets in each ticket releasing stage in the ticket returning area after the returned ticket amount of each ticket releasing stage is cached in the ticket returning area, so that the returned tickets in each ticket releasing stage are not sold in the current ticket releasing stage, and are stored in the ticket returning area to wait for the start of the next ticket releasing stage;

the ticket re-releasing setting module is used for recording the number of the remaining ticket releasing stages in real time, and performing ticket re-releasing number setting on the returned tickets stored in the ticket releasing area according to the number of the remaining ticket releasing stages to obtain the proportion of the number of the returned tickets re-released in each subsequent remaining number of the ticket releasing stages;

the ticket returning and releasing module is used for extracting the ticket releasing quantity corresponding to the ticket returning and releasing quantity proportion from the ticket returning area according to the ticket returning and releasing quantity proportion in the number of the remaining ticket releasing stages in the follow-up process, and bringing the extracted ticket releasing quantity into the ticket releasing quantity in the current ticket releasing stage for releasing the tickets;

the setting module for putting tickets again comprises:

the ticket returning quantity acquisition module is used for acquiring the total number of returned tickets in the ticket selling period of the last ticket releasing stage;

the first ticket returning and resale quantity setting module is used for setting the ticket returning and resale quantity in the next ticket releasing stage to be P/T if the current day of ticket selling is a non-holiday, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.2) multiplied by M/N for one time and (1.0 + 0.5) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; if the amount of the returned tickets remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing;

the second ticket returning and resale quantity setting module is used for setting the ticket returning and resale quantity of the ticket returning in the next ticket releasing stage to be (1.0-0.2) multiplied by P/T if the current day of ticket selling is a holiday, wherein P represents the total number of the returned tickets in the ticket selling period of each ticket releasing stage, and T represents the corresponding times of the rest ticket releasing stages; the number of the returned tickets corresponding to each subsequent ticket releasing stage is sequentially released according to the mode of (1.0-0.3) multiplied by M/N for one time and (1.0 + 0.2) multiplied by P/T for the next time until all the number of the returned tickets in the ticketing period of the last ticket releasing stage are released in the subsequent remaining ticket releasing stage; and if the amount of the returned tickets still remains in the last ticket releasing stage, replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage, and replacing the remaining total amount of the returned tickets with the number of the tickets released in the last ticket releasing stage for ticket releasing.

5. The trickle-based anti-ticket system of claim 4, wherein the number setting module comprises:

the extracting module is used for extracting the times of ticket placing stages set by the ticket selling system on the current day of the ticket term and judging whether the current day of the ticket term is a holiday or not;

the first ticket releasing module is used for setting the ticket releasing quantity of a first ticket releasing stage to be 1.2 multiplied by M/N if the current day of ticket releasing is a non-holiday, wherein M represents the total ticket quantity; the ticket amount corresponding to each subsequent ticket putting stage is (1.0 + 0.3) multiplied by M/N once and (1.2-0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage;

the second ticket releasing module is used for setting the ticket releasing quantity of the first ticket releasing stage to be 1.1 multiplied by M/N if the current day of ticket releasing is a holiday, wherein M represents the total ticket quantity; the ticket amount corresponding to each subsequent ticket putting stage is (1.1-0.2) multiplied by M/N once and (1.1 + 0.3) multiplied by M/N next time, and all the remaining ticket amounts are uniformly released until the last ticket putting stage.

6. The trickle-based anti-ticket system of claim 4, wherein the abnormal ticket buying principle is as follows:

when the same ticket purchasing name is in a monitoring period and the ticket purchasing record exceeds three times, calling the number of ticket purchasing in the current monitoring period, if the number of ticket purchasing of the ticket purchasing name in the current monitoring period exceeds 10, carrying out abnormal marking on the ticket purchasing name, and monitoring whether the ticket purchasing information of the name appears in the next monitoring period; if the ticket purchase name is satisfied in the next ticket purchase period: if the number of ticket buying in the next ticket buying period exceeds 8 and the number of ticket buying in the next ticket buying period exceeds any one of two conditions, the name of the ticket buying is counted into a blacklist; forbidding ticket buying in the future three monitoring periods of the ticket buying name, and unsealing the ticket buying name after the three monitoring periods;

and reporting the name user to a network police system if the ticket purchasing name still has any one of the condition that the number of ticket purchasing in a single ticket purchasing period exceeds 8 and the ticket purchasing frequency in the single ticket purchasing period exceeds two times after the ticket purchasing name is unpacked in one ticket purchasing period.

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