CN113191915B

CN113191915B - Urban digital denture manufacturing and intelligent supply system and operation method

Info

Publication number: CN113191915B
Application number: CN202110227543.7A
Authority: CN
Inventors: 牛力; 牛东平
Original assignee: Beijing Liaison Dental Technology Co Ltd
Current assignee: Beijing Liaison Dental Technology Co Ltd
Priority date: 2021-03-01
Filing date: 2021-03-01
Publication date: 2023-09-29
Anticipated expiration: 2041-03-01
Also published as: CN113191915A

Abstract

The invention provides an urban digital denture manufacturing and intelligent supply system and an operation method, wherein the method comprises the following steps: the acquisition module is used for acquiring the positions of the denture manufacturing center and the denture using center within a preset range; the path establishing module is used for establishing a logistics path between the denture manufacturing center and the denture using center based on the positions and storing the logistics path; the business processing module is used for receiving the emergency denture request sent by the denture using center and selecting a corresponding target denture from a denture database which is built in advance; the supply module is used for matching an optimal manufacturing center related to the target denture, screening an optimal path from the stored result and supplying the target denture to a corresponding denture use center; accurate information of the denture is provided for the denture manufacturing center through the processing module, the denture transaction efficiency is improved, the optimal path selection is provided for the delivery of the denture through the supply module, the delivery time is saved, and the delivery safety is ensured.

Description

Urban digital denture manufacturing and intelligent supply system and operation method

Technical Field

The invention relates to the field of denture supply, in particular to an urban digital denture manufacturing and intelligent supply system and an operation method.

Background

The false teeth are false teeth which are inlaid for recovering the functions of chewing, beautiful appearance, pronunciation and the like after the teeth are detached or pulled out, and the demand of the current cities for the false teeth is higher and higher; the dental hospital and the dental clinic need to acquire the false teeth from the false tooth manufacturing center, and in the false tooth transaction process, the dental hospital, the dental clinic and the false tooth manufacturing center often cannot quickly establish connection, so that the false tooth manufacturing center cannot quickly acquire the accurate information of the required false teeth, the false tooth transaction period is long, and in the false tooth distribution process, a path cannot be reasonably selected, so that the problems of long distribution time, potential safety hazards and the like exist in the distribution.

Disclosure of Invention

The invention provides an urban digital denture manufacturing and intelligent supply system and an operation method, which can provide accurate information for a denture manufacturing center denture through a business processing module, improve the denture transaction efficiency, provide optimal path selection for denture delivery through a supply module, save delivery time and provide guarantee for delivery safety.

The invention provides an urban digital denture manufacturing and intelligent supply system, comprising:

the acquisition module is used for acquiring the positions of the denture manufacturing center and the denture using center within a preset range;

a path establishing module for establishing a logistic path between the denture manufacturing center and the denture using center based on the position and storing the logistic path;

the business processing module is used for receiving the urgent denture request sent by the denture using center and selecting a corresponding target denture from a denture database which is built in advance;

and the supply module is used for matching the optimal manufacturing center related to the target denture, screening an optimal path from the stored result and supplying the target denture to the corresponding denture using center.

In one possible implementation of this method,

the obtaining module is used for obtaining the positions of the denture manufacturing center and the denture using center within a preset range, and comprises the following steps:

determining search range areas of the denture manufacturing center and the denture using center, obtaining a map of the search range areas, and calibrating the positions and geographic coordinates of the positions of the denture manufacturing center and the denture using center from the map.

In one possible implementation of this method,

The path establishment module includes:

the marking unit is used for carrying out first identification on the position of the denture manufacturing center and carrying out second identification on the position of the denture using center;

the relation establishing unit is used for numbering the first mark in a first type, numbering the second mark in a second type, and establishing a correlation between the positions, marks and numbers of the denture manufacturing center and the denture using center;

a determining unit, configured to combine the numbers of the first type and the numbers of the second type, and determine a start point and an end point of a path;

the establishing unit is used for establishing an initial path from the starting point to the end point according to a preset method, determining an obstacle area of the initial path according to a map of a search range area, acquiring geographic coordinates of a plurality of obstacle-free points near the obstacle area as alternative intermediate points, and sequentially connecting the starting point, any one of the alternative intermediate points and the end point to obtain a plurality of target paths;

and the storage unit is used for generating path data from the multi-item label path information and carrying out storage management.

In one possible implementation;

the service processing module comprises:

A receiving unit for receiving an emergency denture request from a denture use center;

the selecting unit is used for determining a denture manufacturing center meeting the requirements of the emergency denture, determining the distance from the denture manufacturing center to a denture using center, and selecting the denture manufacturing center meeting the requirements of the preset distance;

the feedback unit is used for sending the emergency denture demands to a denture manufacturing center which meets the preset distance demands and receiving feedback information from the denture manufacturing center;

and the sending unit is used for sending the feedback information to the denture using center with the urgent denture requirement.

In one possible implementation of the present invention,

the supply module includes:

the matching unit is used for matching the optimal manufacturing center based on feedback information of the false tooth manufacturing center of the service processing module;

a delivery determining unit for taking the optimal manufacturing center as a delivery starting point and taking a denture use center with a denture emergency requirement as a delivery end point;

a path determining unit configured to determine a selectable path of the delivery start point and the delivery end point from a path establishing module, determine an intermediate point of the selectable path, and divide the selectable path into a plurality of sub-paths using the intermediate point;

The first evaluation unit is used for evaluating the fluency of the selectable path, firstly determining the complexity of the sub path for the turning number of the acquired sub path, setting a complexity weight value according to the path length of the sub path, and determining the complexity of the selectable path based on the complexity of the sub path and the complexity weight value;

the first evaluation unit is further used for acquiring traffic flow of the selectable path in different time periods, determining traffic jam rate of the selectable path in different time periods, and analyzing and evaluating based on complexity and traffic jam rate of the selectable path to acquire fluency evaluation results of the selectable path in different time periods;

the second evaluation unit is used for evaluating the safety of the selectable path, acquiring and normalizing the historical traffic accident occurrence rate, the obstacle risk level coefficient and the road attribute value under the sub-path, and inputting the normalized traffic accident occurrence rate, the obstacle risk level coefficient and the road attribute value into a path safety evaluation model to obtain a safety evaluation result of the selectable path;

and a selecting unit, configured to select an optimal path from the selectable paths according to a level of an urgent need, wherein when the level of the urgent need is a first level, the optimal path is determined by taking the smoothness of the selectable paths as a first consideration, and when the level of the urgent need is a second level, the optimal path is determined by taking the security of the selectable paths as a first consideration.

In one possible implementation of the present invention,

the updating module is used for updating basic information of the denture manufacturing center and the denture using center in time, and comprises the following steps:

a setting unit for setting a monitoring time interval based on a variation of basic information of the denture manufacturing center and the denture use center;

the monitoring unit is used for monitoring and acquiring the manufacturing conditions and the use conditions of the false teeth in the false tooth manufacturing center and the false tooth using center at intervals of the monitoring time interval to acquire the latest false tooth data;

the comparing unit is used for numbering the latest denture data, correspondingly numbering the historical denture data, comparing the historical denture data with the latest denture data according to the numbering information, and judging whether the comparison results corresponding to the same number are the same or not;

if the historical denture data are the same, performing no operation on the historical denture data with the corresponding number;

otherwise, comparing and analyzing the historical denture data and the latest denture data with corresponding numbers to obtain first difference data of the historical denture data and second difference data of the latest denture data;

the first updating unit is used for converting the historical denture data into historical binary data, deleting the binary first difference data corresponding to the first difference data in the historical binary data, determining the position of the binary first difference data, inserting the binary second difference data corresponding to the second difference data into the corresponding position, generating new binary denture data, and then converting the new denture data into new denture data, so that updating of the historical denture data is completed;

And the second updating unit is used for analyzing the updated denture data and further updating the basic information of the denture manufacturing center and the denture using center.

In one possible implementation of the present invention,

the system further includes a service reminding module for periodically reminding the denture manufacturing center to send a denture supply request or reminding the denture using center to send a denture purchase request based on basic information of the denture manufacturing center and the denture using center, comprising:

an acquisition unit for acquiring basic information of the denture manufacturing center and the denture use center;

the basic information of the denture manufacturing center comprises geographic information of the denture manufacturing center, denture manufacturing type and denture manufacturing efficiency, and the basic information of the denture using center comprises geographic information of the denture using center, denture type, denture sales amount and the number of the existing dentures;

a matching unit for matching the denture manufacturing type of the denture manufacturing center with the denture type of the denture using center, and establishing a matching connection between the denture using center and the denture manufacturing center;

wherein, the matching connection can be any one of one-to-many, many-to-one, one-to-one and many-to-many matching of the denture use center and the denture manufacturing center;

A first determining unit configured to select a matching relationship satisfying a preset requirement from the matching relationships as a target matching relationship based on denture manufacturing efficiency of the denture manufacturing center and denture sales amount of the denture use center;

a second determining unit for predicting a use time based on an existing number of dentures of the denture use center, thereby determining a date of provision of dentures;

and the reminding unit is used for reminding the denture manufacturing center to send a denture supply request to the matched denture using center or reminding the denture using center to send a denture purchase request to the matched denture manufacturing center based on the target matching relationship when the providing date is reached.

In one possible implementation of the present invention,

the service reminding module further comprises: the encryption sub-module is used for encrypting the reminding request, and comprises the following steps:

the identity confirmation unit is used for acquiring identity information of the denture manufacturing center and the denture using center and generating an identity identification value from the identity information;

the encryption unit is used for dividing the content of the reminding request to obtain n sub-contents, encrypting the n contents to generate ciphertext, and representing the ciphertext by using a ciphertext representative value;

A calculation unit for calculating an encrypted value after encrypting the content of the alert request according to the following formula:

wherein S represents an encryption value of the content of the reminding request, Q represents an encryption coefficient, and the value is [0.85,1.15 ]]N represents the number of sub-contents of the reminding request, D _i Representing the ciphertext representative value obtained by encrypting the ith sub-content, and taking the value as [1.55,2.00 ]]C represents a standard ciphertext representative value, and the value is C=0.9 and alpha _i An information metric value representing the i-th sub-content, the value being [0.5,0.7 ]]，ε _i The weight value representing the ith sub-content is [0.6,0.9 ]]；

The relationship establishing unit is used for generating a matching relationship between the identity identification values of the denture manufacturing center and the denture using center with the reminding requirement and the encrypted values of the corresponding reminding requirement contents;

the verification unit is used for calculating a matching value between the identity identification value and the encryption value according to the following formula based on the matching relation:

wherein, P represents the matching value between the identity value and the encryption value, gamma represents the fault tolerance of the service reminding module, the value is [0.25,0.65], E represents the identity value of the denture manufacturing center or the denture using center to be verified, the value range is [1.50,3.50], E represents the natural number, sigma represents the correction factor of the identity value, the value is [0.9,1.1], tau represents the correction factor of the encryption value, and the value is [0.7,0.9];

If the matching value is [0.1,1.0], the false tooth manufacturing center or the false tooth using center corresponding to the identity value successfully verifies the identity and reminds of having the authority to check the content of the reminding request;

otherwise, the false tooth manufacturing center or the false tooth using center corresponding to the identification value fails to verify the identity, and the false tooth using center is reminded of not having permission to check the content of the reminding request.

A method for manufacturing and intelligent supply operation of an urban digital denture, comprising the steps of:

step 1, acquiring the positions of a denture manufacturing center and a denture using center within a preset range;

step 2, establishing a logistics path between a denture manufacturing center and a denture using center based on the positions, and storing;

step 3, receiving an urgent denture request sent by the denture using center, and screening a corresponding target denture from a pre-established denture database;

and 4, matching the optimal manufacturing center related to the target denture, and screening an optimal path from the stored result to supply the target denture to the corresponding denture using center.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims thereof as well as the appended drawings.

The technical scheme of the invention is further described in detail through the drawings and the embodiments.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a block diagram of an urban digital denture manufacturing and intelligent supply system according to an embodiment of the present invention;

FIG. 2 is a block diagram of a path establishment module according to an embodiment of the present invention;

FIG. 3 is a block diagram of a service processing module in an embodiment of the present invention;

FIG. 4 is a block diagram of a provisioning module according to an embodiment of the present invention;

fig. 5 is a flowchart of a method for city digital denture manufacturing and intelligent supply operation according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1:

an embodiment of the present invention provides an urban digital denture manufacturing and intelligent supply system, as shown in fig. 1, comprising:

In this embodiment, the preset range is a range of a certain city.

In this embodiment, the denture manufacturing center is a denture producing company, business, or the like.

In this embodiment, the denture use center is a dental hospital, dental clinic, or the like.

The working principle of the design scheme is as follows: the connection between the denture manufacturing center and the denture using center is established through the acquisition module and the path establishing module, denture transaction service is provided for the denture manufacturing center and the denture using center through the business processing module, and after denture transaction is confirmed, the final supply module provides safe and rapid path selection for denture distribution.

The beneficial effects of above-mentioned design scheme are: accurate information of the denture is provided for the denture manufacturing center through the service processing module, the denture transaction efficiency is improved, the optimal path selection is provided for the delivery of the denture through the supply path selection module, the delivery time is saved, and the delivery safety is ensured.

Example 2:

based on embodiment 1, an embodiment of the present invention provides an urban digital denture manufacturing and intelligent supply system, wherein the obtaining module is configured to obtain the positions of a denture manufacturing center and a denture use center within a preset range, and the obtaining module includes:

The beneficial effects of above-mentioned design scheme are: geographic coordinates of the denture manufacturing center and the denture use center are determined by determining a map of the search range area, providing a basis for path establishment and path selection.

Example 3

Based on embodiment 1, an embodiment of the present invention provides a city digital denture manufacturing and intelligent supply system, as shown in fig. 2, wherein the path establishment module comprises:

the establishing unit is used for establishing an initial path from the starting point to the end point according to a preset method, determining an obstacle area of the initial path according to a map of a search range area, acquiring geographic coordinates of a plurality of obstacle-free points near the obstacle area as alternative intermediate points, and sequentially connecting the starting point with any one of the alternative intermediate points and the end point to obtain a plurality of target paths;

In this embodiment, the preset method may be to establish a path using a manhattan algorithm.

In this embodiment, the second identifier of the first identifier is used to distinguish the geographic coordinates as a denture manufacturing center or a denture use center.

In this embodiment, the combination of the first type of number and the second type of number is a combination that does not repeat and does not miss any of the first type of number and any of the second type of number.

In this embodiment, the denture manufacturing center corresponding to the first type of number is the starting point and the denture use center corresponding to the second type of number is the ending point.

In this embodiment, the manhattan algorithm is the sum of the absolute value of the difference between the abscissa and the absolute value of the difference between the ordinate, which has the advantage of fast operation.

The beneficial effects of above-mentioned design scheme are: by establishing all paths from the denture manufacturing center to the denture use center, a guarantee is provided for the selection of the paths at a later time.

Example 4

Based on embodiment 1, an embodiment of the present invention provides a system for manufacturing and intelligent supply of urban digital denture, as shown in fig. 3, the service processing module includes:

In this embodiment, the preset distance requirement is a distance of no more than 10 km.

The beneficial effects of above-mentioned design scheme are: the service management processing module provides the service of the denture use center for the requirements of the emergency denture, and improves the efficiency of denture transaction.

Example 5

Based on embodiment 1, an embodiment of the present invention provides a city digital denture manufacturing and intelligent supply system, as shown in fig. 4, the supply module comprises:

In this embodiment, the delivery service is a denture delivery order confirmed via both a denture use center and a denture manufacturing center.

In this embodiment, the selectable paths are a plurality of paths.

In this embodiment, the middle point of the selectable path is a geographic coordinate point corresponding to the unobstructed area.

In this embodiment, the greater the traffic flow of the selectable path at different time periods, the greater the traffic congestion rate.

In this embodiment, the path safety evaluation model obtains the safety evaluation result of the selectable path after comprehensively evaluating the historical traffic accident occurrence rate, the obstacle risk level coefficient and the road attribute value under the sub-path.

In this embodiment, the emergency demand is rated as one level when the time demand in the emergency demand does not exceed 1 hour; otherwise, the emergency demand is secondary.

The beneficial effects of above-mentioned design scheme are: the supply module evaluates the fluency and the safety of the selectable paths, and selects the optimal path for distribution according to the emergency level of the distribution service, thereby saving the distribution time and providing guarantee for the distribution safety.

Example 6

Based on embodiment 1, the embodiment of the invention provides an urban digital denture manufacturing and intelligent supply system, further comprising a renewal module for timely renewing basic information of a denture manufacturing center and a denture using center, comprising the following steps:

In this embodiment, the latest denture data and the historical denture data should be numbered in a one-to-one correspondence, for example, the latest denture type data and the historical denture type data, and the latest denture number data and the historical denture number data should be numbered the same.

In this embodiment, the first difference data is a part of the historical denture data that is different from the latest denture data.

In this embodiment, the second difference data is a part of the most recent denture data that is different from the past denture data.

In this embodiment, the conversion of data into binary data makes the replacement of data more convenient, and improves the efficiency of data replacement.

The beneficial effects of above-mentioned design scheme are: the basic information of the denture manufacturing center and the denture using center can be updated in time, so that the latest basic information of the denture manufacturing center and the denture using center can be provided, the business reminding of the business processing module is more accurate, and the reliability of denture transaction is ensured.

Example 7

Based on the implementation 1, the embodiment of the invention provides an urban digital denture manufacturing and intelligent supply system, further comprising a business reminding module, which is used for periodically reminding a denture manufacturing center to send denture supply requests or reminding the denture using center to send denture purchase requests based on basic information of the denture manufacturing center and the denture using center, and comprises the following steps:

In this embodiment, when the denture type of the denture manufacturing center and the denture use center are the same, a matching relationship is established.

In this embodiment, the denture manufacturing efficiency of the denture manufacturing center may establish a target matching relationship when the selling amount of the denture at the denture use center is satisfied.

In this embodiment, the shorter the predicted use time of the number of existing dentures, the more anterior the date of denture delivery.

The beneficial effects of above-mentioned design scheme are: basic information of the denture manufacturing center and the denture using center provides denture supply requests or denture purchase request reminders for the denture manufacturing center and the denture using center, provides accurate denture types, helps the denture manufacturing center and the denture using center to realize denture transaction service, and improves denture transaction efficiency.

Example 8

Based on embodiment 7, an embodiment of the present invention provides a system for manufacturing and intelligent supply of urban digital denture, wherein the first service processing module further comprises: the encryption sub-module is used for encrypting the reminding request, and comprises the following steps:

In this embodiment, the identification value is a unique identification, and the identity of the denture manufacturing center and the denture use center may be determined based on the identification value.

In this embodiment, the ciphertext representative value is a unique value, and the ciphertext of the sub-content of the alert request may be determined according to the ciphertext representative value, and the setting of the ciphertext representative value uses the standard ciphertext representative value as a reference.

In this embodiment, the information metric value of the sub-content indicates the size of the information provided in the content, the larger the information metric value, the more information is provided.

In this embodiment, the weight value of the sub-content is set according to the importance of the sub-content, and the larger the weight value, the more important the sub-content is.

In this embodiment, the denture manufacturing center or denture use center to be validated is the center that initiates the review of the alert request.

In this embodiment, the identification values of the denture manufacturing center and the denture use center having the reminding requirement have a matching relationship with the encrypted value of the content of the reminding requirement corresponding thereto, and the other cases have no matching relationship.

The beneficial effects of above-mentioned design scheme are: the matching degree calculation is carried out on the identity identification values of the denture manufacturing center and the denture using center with the reminding requirements and the encrypted values of the corresponding reminding requirements, and the correction factors and the fault tolerance of the first service processing module are added in the calculation process to improve the accuracy of the matching values, so that the safety and the efficiency of denture transaction are improved.

Example 9

An embodiment of the present invention provides a method for manufacturing and intelligent supply operation of an urban digital denture, as shown in fig. 5, including:

The advantageous effects of the above design are described in reference to embodiment 1 and will not be described here too much.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims

1. An urban digital denture manufacturing and intelligent supply system, comprising:

a supply module for matching an optimal manufacturing center associated with the target denture, and selecting an optimal path from the stored results, and supplying the target denture to the corresponding denture use center;

determining search range areas of a denture manufacturing center and a denture using center, acquiring a map of the search range areas, and calibrating positions and geographic coordinates of the positions of the denture manufacturing center and the denture using center from the map;

the path establishment module includes:

The storage unit is used for generating path data from the multi-item label path information and carrying out storage management;

the service processing module comprises:

the sending unit is used for sending the feedback information to a denture using center with an urgent denture requirement;

the supply module includes:

the first evaluation unit is further used for acquiring the traffic flow of the selectable path in different time periods, determining the traffic jam rate of the selectable path in different time periods, and analyzing and evaluating the traffic jam rate based on the complexity of the selectable path and the traffic jam rate to acquire the fluency evaluation result of the selectable path in different time periods;

2. The urban digital denture manufacturing and intelligent supply system according to claim 1, further comprising an update module for timely updating basic information of a denture manufacturing center and a denture use center, comprising:

3. The urban digital denture manufacturing and intelligent provisioning system according to claim 1, further comprising a business alert module for periodically alerting the denture manufacturing center to send denture provisioning requests or to alert the denture using center to send denture purchase requests based on basic information of the denture manufacturing center and the denture using center, comprising:

4. The urban digital denture manufacturing and intelligent supply system according to claim 3, wherein said business alert module further comprises: the encryption sub-module is used for encrypting the reminding request, and comprises the following steps:

；

wherein ,represents an encryption value of the content of the reminding request, Q represents an encryption coefficient, and the value is [0.85,1.15 ]]N represents the number of sub-contents of the alert request,/->Representing the ciphertext representative value obtained by encrypting the ith sub-content, and taking the value as [1.55,2.00 ]]C represents a standard ciphertext representative value, and the value is C=0.9, and is ++>An information metric value representing the i-th sub-content, the value being [0.5,0.7 ]]，/>The weight value representing the ith sub-content is [0.6,0.9 ]]；

；

Wherein the saidRepresenting a matching value between said identification value and the encryption value,/for>The fault tolerance rate of the service reminding module is represented, and the value is [0.25,0.65 ]]，/>Identity value representing denture manufacturing center or denture using center to be verified, the range of the identity value is [1.50,3.50 ]]E represents a natural number, < >>The correction factor representing the identity identification value is [0.9,1.1 ]]，/>The correction factor representing the encryption value is [0.7,0.9 ]]；

5. A method for manufacturing and intelligent supply operation of an urban digital denture, comprising the steps of:

step 4, matching the optimal manufacturing center related to the target denture, screening the optimal path from the stored result, and supplying the target denture to the corresponding denture using center;

the step 1 comprises the following steps:

the step 2 comprises the following steps:

the position of the denture manufacturing center is marked for the first time, and the position of the denture using center is marked for the second time;

numbering the first mark in the first type, numbering the second mark in the second type, and establishing association between the positions, marks and numbers of the denture manufacturing center and the denture using center;

combining the numbers of the first type and the numbers of the second type to determine the starting point and the ending point of the path;

establishing an initial path from the starting point to the end point according to a preset method, determining an obstacle area of the initial path according to a map of a search range area, acquiring geographic coordinates of a plurality of non-obstacle points near the obstacle area as alternative intermediate points, and sequentially connecting the starting point, any one of the alternative intermediate points and the end point to obtain a plurality of target paths;

Generating path data from the multi-item label path information, and performing storage management;

the step 3 comprises the following steps:

receiving an urgent denture request from a denture use center;

determining a denture manufacturing center meeting the requirements of the emergency denture, determining the distance from the denture manufacturing center to a denture using center, and selecting the denture manufacturing center meeting the requirements of the preset distance;

the emergency denture needs are sent to a denture manufacturing center which meets the preset distance requirements, and feedback information from the denture manufacturing center is received;

transmitting the feedback information to a denture use center with an urgent denture requirement;

step 4 comprises:

matching an optimal manufacturing center based on feedback information of the denture manufacturing center of the service processing module;

taking the optimal manufacturing center as a distribution starting point, and taking a denture use center with denture emergency requirements as a distribution ending point;

determining a selectable path of the delivery start point and the delivery end point from a path establishment module, determining an intermediate point of the selectable path, and dividing the selectable path into a plurality of sub-paths by using the intermediate point;

evaluating the fluency of the selectable path, firstly determining the complexity of a sub-path for obtaining the turning number of the sub-path, setting a complexity weight value according to the path length of the sub-path, and determining the complexity of the selectable path based on the complexity of the sub-path and the complexity weight value;

Acquiring traffic flow of the selectable path in different time periods, determining traffic jam rate of the selectable path in different time periods, and analyzing and evaluating based on complexity and traffic jam rate of the selectable path to obtain fluency evaluation results of the selectable path in different time periods;

evaluating the safety of the selectable path, acquiring and normalizing the historical traffic accident occurrence rate, the obstacle risk level coefficient and the road attribute value under the sub-path, and inputting the normalized traffic accident occurrence rate, the obstacle risk level coefficient and the road attribute value into a path safety evaluation model to obtain a safety evaluation result of the selectable path;

and selecting an optimal path from the selectable paths according to the level of the emergency demand, wherein the optimal path is determined by taking the fluency of the selectable paths as a first consideration when the level of the emergency demand is first level, and the optimal path is determined by taking the safety of the selectable paths as a first consideration when the level of the emergency demand is second level.