CN111428203B - Method and system for monitoring electronic order safety reading, server and medium - Google Patents

Abstract

The invention discloses a method and a system for monitoring the safe reading of an electronic order, a server and a storage medium, wherein the method comprises the steps of judging a position danger coefficient and a speed moving danger coefficient of a distributor by monitoring position information and a moving speed of the distributor when the distributor checks the order, calculating to obtain the current distribution danger comprehensive coefficient of the distributor, judging the probability of traffic accidents easily occurring when the distributor checks the order according to the distribution danger comprehensive coefficient, and sending a safety penalty warning to the distributor with the distribution danger comprehensive coefficient exceeding a set threshold value, so that the attention degree of the distributor to the safety of the distributor is improved, and the probability of traffic accidents occurring in the distribution process of the distributor is reduced.

Description

Method and system for monitoring electronic order safety reading, server and medium

Technical Field

The invention relates to a takeaway safe distribution technology, in particular to a method and a system for monitoring safe reading of an electronic order, a server and a storage medium.

Background

Due to the rapid development of take-out order business and the rapid increase of orders, the general safety awareness of distributors is low, in order to improve the order receiving and sending efficiency, order information is often read in the driving process of a vehicle, so that the distributors cannot drive with great concentration, and the nearby traffic condition is careless, so that the dangerous behavior is very easy to cause traffic accidents of the distributors, great damage is brought to the distributors and take-out companies, and therefore, a safety monitoring method is urgently needed to standardize the order sending safety of the distributors.

Disclosure of Invention

The invention aims to overcome the technical defects, provides a method and a system for monitoring the safe reading of an electronic order, a server and a storage medium, and solves the problems that the safety awareness of the existing distributors is low, and traffic accidents are easy to happen in the distribution process.

In order to achieve the above technical object, a first aspect of the present invention provides a method for monitoring electronic order security reading, which includes the following steps:

s1, setting safety distribution rules of distributors, wherein the safety distribution rules comprise position safety rules and moving speed safety rules;

s2, monitoring the position information of the distributor in real time, and receiving feedback information obtained by the distributor when checking the order, wherein the feedback information comprises the position information when the distributor checks the order and the moving speed when the distributor checks the order;

s3, based on the position safety rule, judging the position danger coefficient of the distributor when the distributor checks the order according to the position information of the distributor when the distributor checks the order, based on the moving speed safety rule, judging the speed moving danger coefficient of the distributor when the distributor checks the order according to the moving speed, and calculating the comprehensive distribution danger coefficient of the distributor when the distributor checks the order;

s4, sending safety punishment warning to the distributors whose distribution danger comprehensive coefficient exceeds the set threshold value, and extracting and storing the feedback information which does not accord with the safety distribution rule;

wherein the location security rules include:

if the position where the distributor checks the order is in the free activity place, the danger coefficient of the position of the distributor is judged to be a₁；

If the position of the distributor when checking the order is positioned on the sidewalk, the danger coefficient of the position of the distributor is judged to be a₂；

If the position of the distributor when checking the order is in the driving lane, the danger coefficient of the position of the distributor is judged to be a₃；

Wherein, a₁<a₂<a₃；

The mobility rate security rules include:

if the displacement rate V when the distributor checks the order is 0, the rate movement danger coefficient of the distributor is judged to be b₁；

Displacement rate 0 if the distributor is looking at the order<V<8km/h, judging the speed moving danger coefficient of the distributor as b₂；

If the displacement rate when the distributor checks the order is V>8km/h, judging the speed moving danger coefficient of the distributor as b₃；

Wherein, b₁<b₂<b₃；

The calculation method of the distribution risk comprehensive coefficient comprises the following steps:

S=a_i*b_i；(i=1,2,3)

S_min≤S≤S_max

S_min=a₁*b₁

S_max=a₃*b₃。

in the above formula, S is the distribution danger comprehensive coefficient_minFor minimum distribution risk complex coefficient, S_maxFor maximum distribution hazard complex coefficient, a_iA location risk factor for the dispenser; b_iThe hazard coefficients are moved for the rate of the dispenser.

The invention provides a system for monitoring the safe reading of an electronic order, which comprises the following functional modules:

the rule setting module is used for setting a safety distribution rule of a distributor, wherein the safety distribution rule comprises a position safety rule and a moving speed safety rule;

the safety monitoring module is used for monitoring the position information of a distributor in real time and receiving feedback information obtained by the distributor when the distributor checks the order, wherein the feedback information comprises the position information when the distributor checks the order and the moving speed when the distributor checks the order;

the safety judgment module is used for judging the position danger coefficient of a distributor when the distributor checks the order according to the position information of the distributor when the distributor checks the order based on the position safety rule, judging the speed movement danger coefficient of the distributor when the distributor checks the order based on the movement speed safety rule according to the movement speed, and calculating the comprehensive distribution danger coefficient of the distributor when the distributor checks the order;

the penalty storage module is used for sending a safety penalty warning to a distributor with the distribution danger comprehensive coefficient exceeding a set threshold value, and extracting and storing feedback information which does not accord with the safety distribution rule;

the calculation method of the distribution risk comprehensive coefficient comprises the following steps:

S=a_i*b_i；(i=1,2,3)

S_min≤S≤S_max

S_min=a₁*b₁

S_max=a₃*b₃。

in the above formula, S is the distribution danger comprehensive coefficient_minFor minimum distribution risk complex coefficient, S_maxFor maximum distribution hazard complex coefficient, a_iA location risk factor for the dispenser; b_iThe hazard coefficients are moved for the rate of the dispenser. A third aspect of the invention provides a server comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the above method for monitoring secure reading of an electronic order when executing the computer program.

A fourth aspect of the invention provides a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the above-mentioned method for monitoring secure reading of an electronic order.

Compared with the prior art, the method and the device have the advantages that the position information and the moving speed of the order are monitored when the order is checked by the distributor, the position danger coefficient and the speed moving danger coefficient of the distributor are judged, the current distribution danger comprehensive coefficient of the distributor is obtained through calculation, the probability that the traffic accident is easy to happen when the order is checked by the distributor is judged according to the distribution danger comprehensive coefficient, and the safety punishment warning is sent to the distributor with the distribution danger comprehensive coefficient exceeding the set threshold value, so that the attention degree of the distributor to the safety of the distributor is improved, and the probability that the traffic accident happens to the distributor in the distribution process is reduced.

Drawings

FIG. 1 is a flow chart of a method of the present invention for monitoring electronic order security readings;

FIG. 2 is a block diagram of the modules of the system for monitoring the secure reading of electronic orders of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in FIG. 1, an embodiment of the present invention provides a method for monitoring electronic order security readings, comprising the steps of:

and S1, setting safety distribution rules of distributors, wherein the safety distribution rules comprise position safety rules and moving speed safety rules.

The position safety rule is that whether a distributor meets a safety distribution criterion is judged according to the position of the distributor when the distributor checks an order, and a position danger coefficient of the position of the distributor is judged by combining a high-precision map, specifically, the position danger coefficient is divided in an area in the high-precision map, the size of the position danger coefficient is set according to the size of the probability of a traffic accident occurring at the position of the distributor, and when the distributor checks the order, the position danger coefficient is the minimum because the probability of the traffic accident occurring is the minimum; when the distributor looks over the order, the distributor is positioned on the sidewalk, the probability of traffic accidents is low, and therefore the position risk coefficient is low; when the distributor is located in the driving lane when checking the order, the probability of the occurrence of the traffic accident is the maximum, and therefore the position risk coefficient is the maximum, the position safety rule is as follows:

if the position where the distributor checks the order is in the free activity place, the danger coefficient of the position of the distributor is judged to be a₁；

If the position of the distributor when checking the order is positioned on the sidewalk, the danger coefficient of the position of the distributor is judged to be a₂；

If the position of the distributor when checking the order is in the driving lane, the danger coefficient of the position of the distributor is judged to be a₃;

Wherein, a₁<a₂<a₃。

The moving speed safety rule is used for judging whether a distributor meets a safety distribution criterion or not according to the moving speed of the distributor when the distributor checks an order, specifically, judging the moving state of the distributor according to the moving speed of the distributor, setting the speed moving danger coefficient according to the probability of a traffic accident occurring in the moving state of the distributor when the distributor checks the order, judging that the current state of the distributor is a static waiting state when the highest walking speed is 8km/h according to the reference standard, and when the moving speed of the distributor when the distributor checks the order is 0, wherein the probability of the traffic accident occurring at the moment is minimum, so that the speed moving danger coefficient is minimum; when the moving speed of a distributor when checking an order is 0< V <8km/h, judging that the current state of the distributor is a walking state, wherein the probability of traffic accidents is low, and therefore the speed moving danger coefficient is low; when the moving speed of a distributor viewing an order is V >8km/h, judging that the current state of the distributor is a high-speed moving state, namely a driving state, and the probability of traffic accidents is the maximum at the moment, so that the speed moving danger coefficient is the maximum; the mobility rate security rules are as follows:

if the displacement rate V when the distributor checks the order is 0, the rate movement danger coefficient of the distributor is judged to be b₁；

Displacement rate 0 if the distributor is looking at the order<V<8km/h, judging the speed moving danger coefficient of the distributor as b₂；

If the displacement rate when the distributor checks the order is V>8km/h, judging the speed moving danger coefficient of the distributor as b₃；

Wherein, b₁<b₂<b₃。

The judgment result of the safety distribution criterion is to combine the position risk coefficient and the speed moving safety speed when a distributor checks an order, that is, the calculation method of the distribution risk comprehensive coefficient S is as follows:

S=a_i*b_i；(i=1,2,3)

S_min≤S≤S_max

S_min=a₁*b₁

S_max=a₃*b₃

in the above formula, S is the distribution danger comprehensive coefficient_minFor minimum distribution risk complex coefficient, S_maxFor maximum distribution hazard complex coefficient, a_iA location risk factor for the dispenser; b_iThe hazard coefficients are moved for the rate of the dispenser.

And setting corresponding safety penalty warning clauses according to the distribution danger comprehensive coefficient, wherein the safety penalty warning clauses are as follows:

when the distribution danger comprehensive coefficient S = S_minWhen the system is used, no safety punishment warning is sent to the distributor;

when distribution danger comprehensive coefficient S_min<S<S_maxWhen the safety distribution rule is met, a primary safety punishment warning is sent to a distributor who does not meet the safety distribution rule;

when distribution danger comprehensive coefficient S>S_maxAnd sending advanced safety punishment warning to the distributors who do not accord with the safety distribution rule.

And S2, monitoring the position information of the distributor in real time, and receiving feedback information obtained by the distributor when the distributor checks the order, wherein the feedback information comprises the position information when the distributor checks the order and the moving speed when the distributor checks the order.

The position information of the distributor is obtained through a positioning module in a mobile phone of the distributor; the moving speed of the distributor is obtained by installing a speed measuring module on the wheels of the electric vehicle of the distributor, the speed measuring module is in communication connection with the mobile phone of the distributor, and the mobile phone of the distributor reads the moving speed of the distributor from the speed measuring module.

The system monitors the position of the deliverer in real time, the mobile phone positioning module of the deliverer obtains the approximate real-time position information of the deliverer, the positioning precision is low, however, when the deliverer views an order, the system is in communication connection with the high-precision map module in the mobile phone, the high-precision map module obtains the precise position information when the deliverer views the order information, and the system packages the precise position information, the movement rate information, the order information and the courier number to generate feedback information and sends the feedback information to the server.

And S3, based on the position safety rule, judging the position danger coefficient of the distributor when the distributor checks the order according to the position information of the distributor when the distributor checks the order, based on the moving speed safety rule, judging the speed moving danger coefficient of the distributor when the distributor checks the order according to the moving speed, and calculating the comprehensive distribution danger coefficient of the distributor when the distributor checks the order.

For example: when the distributor looks over the order information while walking on the sidewalk, the danger coefficient of the position is judged to be a according to the position safety rule₂Judging the rate moving danger coefficient to be b according to the moving rate safety rule₂According to the formula S = a_i*b_iCalculated distribution danger comprehensive coefficient S_min<S<S_max。

S4, sending safety punishment warning to the distributors whose distribution danger comprehensive coefficient exceeds the set threshold value, and extracting and storing the feedback information which does not accord with the safety distribution rule;

and judging whether the order information is in a safe state or not when the order information is checked by a distributor according to the size of the distribution danger comprehensive coefficient, and giving corresponding safety punishment warning to the distributor with the distribution danger comprehensive coefficient exceeding a danger threshold value. In the above example, the risk combination S is distributed_min<S<S_maxAnd sending a primary safety punishment warning to the distributors who do not accord with the safety distribution rule.

In the embodiment of the invention, S_min=a₁*b₁Set as the dangerous threshold value of synthesizing of delivery, when the system finds that the dangerous comprehensive coefficient of delivery person exceeds the threshold value of setting for, the feedback information that will not accord with safe delivery criterion is drawed and is saved alone, and the later stage delivery person of being convenient for looks over the reason that oneself received safe punishment warning, also is the statistics of punishment number of times that receives punishment to the delivery person.

According to the invention, the position information and the moving speed of the distributor when checking the order are monitored, the position danger coefficient and the speed moving danger coefficient of the distributor are judged, the current distribution danger comprehensive coefficient of the distributor is obtained through calculation, the probability that the state of the distributor when checking the order is easy to generate traffic accidents is judged according to the distribution danger comprehensive coefficient, and a safety punishment warning is sent to the distributor with the distribution danger comprehensive coefficient exceeding a set threshold value, so that the attention degree of the distributor to the safety of the distributor is improved, and the probability of the traffic accidents of the distributor in the distribution process is reduced.

As shown in fig. 2, an embodiment of the present invention further discloses a system for monitoring the secure reading of an electronic order, which includes the following functional modules:

the rule setting module 10 is used for setting safety distribution rules of distributors, wherein the safety distribution rules comprise position safety rules and moving rate safety rules;

the safety monitoring module 20 is configured to monitor position information of a distributor in real time, and receive feedback information obtained by the distributor viewing an order, where the feedback information includes position information when the distributor views the order and a movement rate when the distributor views the order;

the safety judgment module 30 is used for judging the position danger coefficient of a distributor when the distributor checks the order according to the position information of the distributor when the distributor checks the order based on the position safety rule, judging the speed movement danger coefficient of the distributor when the distributor checks the order according to the movement speed safety rule based on the movement speed, and calculating the comprehensive distribution danger coefficient of the distributor when the distributor checks the order;

the penalty storage module 40 is used for sending a safe penalty warning to a distributor whose distribution danger comprehensive coefficient exceeds a set threshold value, and extracting and storing feedback information which does not accord with a safe distribution rule;

the calculation method of the distribution risk comprehensive coefficient comprises the following steps:

S=a_i*b_i；(i=1,2,3)

S_min≤S≤S_max

S_min=a₁*b₁

S_max=a₃*b₃。

in the above formula, S is the distribution danger comprehensive coefficient_minFor minimum distribution risk complex coefficient, S_maxFor maximum distribution hazard complex coefficient, a_iA location risk factor for the dispenser; b_iThe hazard coefficients are moved for the rate of the dispenser.

The execution mode of the system for monitoring the electronic order safety reading in this embodiment is basically the same as that of the electronic order pushing method, and therefore, detailed description thereof is omitted.

The server in this embodiment is a device for providing computing services, and generally refers to a computer with high computing power, which is provided to a plurality of users via a network. The server of this embodiment includes: a memory including an executable program stored thereon, a processor, and a system bus, it will be understood by those skilled in the art that the terminal device structure of the present embodiment does not constitute a limitation of the terminal device, and may include more or less components than those shown, or some components in combination, or a different arrangement of components.

The memory may be used to store software programs and modules, and the processor may execute various functional applications of the terminal and data processing by operating the software programs and modules stored in the memory. The memory may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required by at least one function (such as a sound playing function, an image playing function, etc.), and the like; the storage data area may store data (such as audio data, a phonebook, etc.) created according to the use of the terminal, etc. Further, the memory may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid state storage device.

The executable program for monitoring the method for the safe reading of the electronic order is contained in a memory, the executable program can be divided into one or more modules/units, the one or more modules/units are stored in the memory and executed by a processor to complete the information acquisition and implementation process, and the one or more modules/units can be a series of computer program instruction segments capable of completing specific functions, and the instruction segments are used for describing the execution process of the computer program in the server. For example, the computer program may be divided into a rule setting unit, a security monitoring unit, a security determination unit, and a penalty storage unit.

The processor is a control center of the server, connects various parts of the whole terminal equipment by various interfaces and lines, and executes various functions of the terminal and processes data by running or executing software programs and/or modules stored in the memory and calling data stored in the memory, thereby performing overall monitoring of the terminal. Alternatively, the processor may include one or more processing units; preferably, the processor may integrate an application processor, which mainly handles operating systems, application programs, etc., and a modem processor, which mainly handles wireless communications. It will be appreciated that the modem processor described above may not be integrated into the processor.

The system bus is used to connect functional units in the computer, and can transmit data information, address information and control information, and the types of the functional units can be PCI bus, ISA bus, VESA bus, etc. The system bus is responsible for data and instruction interaction between the processor and the memory. Of course, the system bus may also access other devices such as network interfaces, display devices, etc.

The server at least includes a CPU, a chipset, a memory, a disk system, and the like, and other components are not described herein again.

In the embodiment of the present invention, the executable program executed by the processor included in the terminal specifically includes: a method for monitoring electronic order security readings, comprising:

setting safety distribution rules of distributors, wherein the safety distribution rules comprise position safety rules and moving rate safety rules;

monitoring the position information of a distributor in real time, and receiving feedback information obtained by the distributor when checking the order, wherein the feedback information comprises the position information when the distributor checks the order and the moving speed when the distributor checks the order;

based on the position safety rule, the position danger coefficient of the distributor when the distributor checks the order is judged according to the position information of the distributor when the distributor checks the order, based on the moving speed safety rule, the speed moving danger coefficient of the distributor when the distributor checks the order is judged according to the moving speed, and the comprehensive distribution danger coefficient of the distributor when the distributor checks the order is calculated;

sending a safety punishment warning to a distributor with the distribution danger comprehensive coefficient exceeding a set threshold value, and extracting and independently storing feedback information which does not accord with the safety distribution rule;

the calculation method of the distribution risk comprehensive coefficient comprises the following steps:

S=a_i*b_i；(i=1,2,3)

S_min≤S≤S_max

S_min=a₁*b₁

S_max=a₃*b₃。

in the above formula, S is the distribution danger comprehensive coefficient_minFor minimum distribution risk complex coefficient, S_maxFor maximum distribution hazard complex coefficient, a_iA location risk factor for the dispenser; b_iThe hazard coefficients are moved for the rate of the dispenser.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to the related descriptions of other embodiments for parts that are not described or illustrated in a certain embodiment.

Those of ordinary skill in the art would appreciate that the modules, elements, and/or method steps of the various embodiments described in connection with the embodiments disclosed herein may be implemented as electronic hardware, or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present invention, and not for limiting the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. A method for monitoring the secure reading of an electronic order, comprising the steps of:

s1, setting safety distribution rules of distributors, wherein the safety distribution rules comprise position safety rules and moving speed safety rules;

s2, monitoring the position information of the distributor in real time, and receiving feedback information obtained by the distributor when checking the order, wherein the feedback information comprises the position information when the distributor checks the order and the moving speed when the distributor checks the order;

s3, based on the position safety rule, judging the position danger coefficient of the distributor when the distributor checks the order according to the position information of the distributor when the distributor checks the order, based on the moving speed safety rule, judging the speed moving danger coefficient of the distributor when the distributor checks the order according to the moving speed, and calculating the comprehensive distribution danger coefficient of the distributor when the distributor checks the order;

s4, sending safety punishment warning to the distributors whose distribution danger comprehensive coefficient exceeds the set threshold value, and extracting and storing the feedback information which does not accord with the safety distribution rule;

wherein the location security rules include:

if the position where the distributor checks the order is in the free activity place, the danger coefficient of the position of the distributor is judged to be a₁；

If the position of the distributor when checking the order is positioned on the sidewalk, the danger coefficient of the position of the distributor is judged to be a₂；

If the position of the distributor when checking the order is in the driving lane, the danger coefficient of the position of the distributor is judged to be a₃；

Wherein, a₁<a₂<a₃；

The mobility rate security rules include:

if the displacement rate V when the distributor checks the order is 0, the rate movement danger coefficient of the distributor is judged to be b₁；

Displacement rate 0 if the distributor is looking at the order<V<8km/h, judging the speed moving danger coefficient of the distributor as b₂；

If the displacement rate when the distributor checks the order is V>8km/h, judging the speed moving danger coefficient of the distributor as b₃；

Wherein, b₁<b₂<b₃；

The calculation method of the distribution risk comprehensive coefficient comprises the following steps:

S=a_i*b_i；(i=1,2,3)

S_min≤S≤S_max

S_min=a₁*b₁

S_max=a₃*b₃；

in the above formula, S is the distribution danger comprehensive coefficient_minFor minimum distribution risk complex coefficient, S_maxFor maximum distribution hazard complex coefficient, a_iA location risk factor for the dispenser; b_iThe hazard coefficients are moved for the rate of the dispenser.

2. The method for monitoring electronic order security readings according to claim 1, wherein the security penalty alert includes:

when the distribution danger comprehensive coefficient S = Smin, no safety punishment warning is sent to a distributor;

when the distribution danger comprehensive coefficient Smin is less than S and less than Smax, primary safety punishment warning is sent to a distributor who does not accord with the safety distribution rule;

and when the distribution danger comprehensive coefficient S is larger than Smax, sending advanced safety punishment warning to distributors who do not accord with the safety distribution rule.

3. The method for monitoring the secure reading of electronic orders as claimed in claim 1, characterised in that said feedback information further comprises the number of the deliverer and the order number.

4. The method for monitoring the secure reading of electronic orders according to claim 1, characterized in that the location information of the deliverer is obtained by a positioning module in the deliverer's mobile phone.

5. The method for monitoring the safe reading of the electronic order according to claim 1, wherein the moving speed of the distributor is obtained by installing a speed measuring module on the electric vehicle wheel of the distributor, the speed measuring module establishes a communication connection with the mobile phone of the distributor, and the mobile phone of the distributor reads the moving speed of the distributor from the speed measuring module.

6. A system for monitoring the secure reading of electronic orders, comprising the following functional modules:

the rule setting module is used for setting a safety distribution rule of a distributor, wherein the safety distribution rule comprises a position safety rule and a moving speed safety rule;

the safety monitoring module is used for monitoring the position information of a distributor in real time and receiving feedback information obtained by the distributor when the distributor checks the order, wherein the feedback information comprises the position information when the distributor checks the order and the moving speed when the distributor checks the order;

the safety judgment module is used for judging the position danger coefficient of a distributor when the distributor checks the order according to the position information of the distributor when the distributor checks the order based on the position safety rule, judging the speed movement danger coefficient of the distributor when the distributor checks the order based on the movement speed safety rule according to the movement speed, and calculating the comprehensive distribution danger coefficient of the distributor when the distributor checks the order;

the penalty storage module is used for sending a safety penalty warning to a distributor with the distribution danger comprehensive coefficient exceeding a set threshold value, and extracting and storing feedback information which does not accord with the safety distribution rule;

wherein the location security rules include:

if the position where the distributor checks the order is in the free activity place, the danger coefficient of the position of the distributor is judged to be a₁；

If the position of the distributor when checking the order is positioned on the sidewalk, the danger coefficient of the position of the distributor is judged to be a₂；

If the position of the distributor when checking the order is in the driving lane, the danger coefficient of the position of the distributor is judged to be a₃；

Wherein, a₁<a₂<a₃；

The mobility rate security rules include:

if the displacement rate V when the distributor checks the order is 0, the rate movement danger coefficient of the distributor is judged to be b₁；

Displacement rate 0 if the distributor is looking at the order<V<8km/h, judging the speed moving danger coefficient of the distributor as b₂；

If the displacement rate when the distributor checks the order is V>8km/h, judging the speed moving danger coefficient of the distributor as b₃；

Wherein, b₁<b₂<b₃；

The calculation method of the distribution risk comprehensive coefficient comprises the following steps:

S=a_i*b_i；(i=1,2,3)

S_min≤S≤S_max

S_min=a₁*b₁

S_max=a₃*b₃；

in the above formula, S is the distribution danger comprehensive coefficient_minFor minimum distribution risk complex coefficient, S_maxFor maximum distribution hazard complex coefficient, a_iA location risk factor for the dispenser; b_iThe hazard coefficients are moved for the rate of the dispenser.

7. A server comprising a memory, a processor and a computer program stored in said memory and executable on said processor, characterized in that said processor, when executing said computer program, carries out the steps of a method for monitoring the secure reading of electronic orders according to any of claims 1 to 5.

8. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, carries out the steps of the method for monitoring the secure reading of electronic orders according to any one of claims 1 to 5.

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