CN114418495A - Intelligent logistics express delivery management method and equipment for smart campus construction and computer storage medium - Google Patents

Abstract

The invention discloses an intelligent logistics distribution management method, equipment and a computer storage medium for building an intelligent campus, which are characterized in that corresponding student information in order information of pre-distributed parcels in the campus logistics center is extracted, students to be received in students ' dormitory buildings in the campus are counted, idle time periods of the students to be received in the students ' dormitory buildings in the campus are obtained, distribution priority weight coefficients corresponding to dormitory addresses of the students to be received in the students ' dormitory buildings in the dormitory buildings in each distribution time period and pre-distribution parcel quantities corresponding to the students to be received are analyzed, express distribution efficiency influence coefficients corresponding to the students to be received in the students ' dormitory buildings in each distribution time period are calculated, predicted express distribution time of the students to be received in each distribution time period in the students ' dormitory buildings in each distribution time period is analyzed and is sent to the corresponding students, so that the quality of express distribution service of the campus logistics center is improved, the express service experience of students is increased.

Description

Intelligent logistics express delivery management method and equipment for smart campus construction and computer storage medium

Technical Field

The invention relates to the field of logistics express delivery management, in particular to an intelligent logistics express delivery management method and equipment for smart campus construction and a computer storage medium.

Background

With the increasingly strong competition of the logistics express market, all large logistics companies recognize that huge commercial value is hidden behind the last mile of express, so that campus logistics express distribution serving students in colleges and universities takes place at the right moment.

At present, the following problems generally exist in the existing campus logistics express delivery management method:

1. the conventional campus logistics express delivery mode is mainly characterized in that a school express delivery network intensively informs students of self-taking of express within a fixed time, and the phenomenon that some students cannot timely self-take the express within the fixed time due to course reasons exists, so that the self-taking time of the express of the students is delayed, the express delivery efficiency of the school express delivery network is reduced, and the service quality of the campus logistics express delivery network is influenced;

2. the existing campus logistics express delivery management does not realize cooperation management of express enterprises, and the phenomenon that some students need to roll over among a plurality of express distribution points when taking express by themselves exists, so that a large amount of time cost of taking express by themselves is caused for the students, normal class plan and work and rest arrangement of the students are influenced, the service level of the campus logistics express distribution points is further reduced, and the experience of express service of the students is seriously influenced;

in order to solve the problems, an intelligent logistics express delivery management method, equipment and a computer storage medium for smart campus construction are designed.

Disclosure of Invention

The invention aims to provide an intelligent logistics express delivery management method, equipment and a computer storage medium for building an intelligent campus, which are characterized in that corresponding student information in order information of pre-distributed express in a campus logistics center is extracted, students to be received in students ' dormitory buildings in the campus are counted, free time periods of the students to be received in the students ' dormitory buildings in the campus are obtained, delivery priority weight coefficients corresponding to dormitory addresses of the students to be received in the students ' dormitory buildings in the respective express delivery time periods are analyzed and arranged, pre-distributed express quantity corresponding to the students to be received arranged in the student dormitory buildings in the respective express delivery time periods is counted, express delivery efficiency influence coefficients corresponding to the students to be received arranged in the student delivery time periods in the respective student dormitory buildings are calculated, and expected delivery time of the students to be received arranged in the respective express delivery time periods in the respective dormitory buildings is analyzed, and the data is sent to the corresponding students, so that the problems in the background technology are solved.

The purpose of the invention can be realized by the following technical scheme:

in a first aspect, the invention provides an intelligent logistics express delivery management method for smart campus construction, which comprises the following steps:

s1, express order information acquisition: acquiring order information of each pre-distributed express in a campus logistics center, and extracting corresponding student information in the order information of each pre-distributed express in the campus logistics center to obtain order information of each pre-distributed express of each student to be received in the campus;

s2, extracting express order information of students: counting students to be received in each student dormitory building in the campus by extracting corresponding information of each pre-distributed express order of each student to be received in the campus;

s3, analyzing the spare time period of the student: the method comprises the steps that a campus student management server is accessed to obtain a class attendance list corresponding to students to be received in each student dormitory building in a campus, spare time periods of the students to be received in each student dormitory building in the campus are analyzed, and sequencing is carried out in sequence according to the time sequence;

s4, dividing express delivery and distribution time period: dividing the express delivery time of the school garden logistics center into express delivery time periods according to a set time period, and analyzing students to be received in each express delivery time period in each student dormitory building;

s5, extracting students' dormitory addresses: the dormitory addresses of students to be received in each express delivery time period in each student dormitory building are respectively extracted, the delivery priority weight coefficients corresponding to the dormitory addresses of the students to be received in each express delivery time period in each student dormitory building are analyzed, and the dormitory addresses are sequentially arranged according to the delivery priority weight coefficients from large to small;

s6, counting the pre-distribution express quantity: counting the pre-distribution express quantity corresponding to each student to be received arranged in each express distribution time period in each student dormitory building by extracting the pre-distribution express order information corresponding to each student to be received arranged in each express distribution time period in each student dormitory building;

s7, analyzing influence of express delivery efficiency: the method comprises the steps of calculating the express delivery efficiency influence coefficients corresponding to students to be received after being arranged in each express delivery time period in each student dormitory building comprehensively, and counting the express delivery efficiency influence coefficients corresponding to the students to be received after being arranged in each express delivery time period in each student dormitory building;

s8, analyzing express delivery distribution predicted time: by acquiring the starting and sending time of each express delivery time period in each student dormitory building in the campus logistics center, the estimated express delivery time of each to-be-received student arranged in each express delivery time period in each student dormitory building is analyzed and sent to the corresponding student mobile terminal.

In a possible design, the step S1 includes counting pre-distribution express order information of each to-be-received student in the campus, and forming a pre-distribution express order information set a of each to-be-received student in the campus_iB(a_ib₁,a_ib₂,...,a_ib_v,...,a_ib_f)，a_ib_vExpress as the nth pre-prepared express order information of the ith student to be received in the campus, wherein i is 1, 2.

In a possible design, the step S4 includes comparing first idle time periods of students waiting to be received in each student dormitory building in the campus with each express delivery time period of the campus logistics center, if the first idle time periods of students waiting to be received in a student dormitory building in the campus are within a certain express delivery time period, indicating that the express delivery time periods of the students waiting to be received in the student dormitory building are within the express delivery time period, and if the first idle time periods of the students waiting to be received in a student dormitory building in the campus are not within the express delivery time periods, comparing the second idle time periods of the students waiting to be received in the student dormitory building with the corresponding express delivery time periods until the corresponding express delivery time periods of the students waiting to be received in the student dormitory building are matched.

In a possible design, the step S4 further includes counting students waiting to be received in each express delivery time period in each dormitory building, and forming each dormitory building for each studentStudent set to be received in express delivery distribution time period

The system is represented as the r-th student waiting for receiving in the s-th express delivery time period in the j-th student dormitory building, wherein j is 1, 2.

In one possible design, step S5 includes the following steps:

s51, extracting dormitory addresses of students to be received in each express delivery time period in each student dormitory building, obtaining dormitory floors of the students to be received in each express delivery time period in each student dormitory building, and forming dormitory floor set of the students to be received in each express delivery time period in each student dormitory building

The dormitory floor is represented as the dormitory floor of the r-th student to be received in the s-th express delivery time period in the j-th student dormitory building;

s52, obtaining the dormitory house number of each student to be received in each express delivery time period in each student dormitory building simultaneously, and forming a dormitory house number set of each student to be received in each express delivery time period in each student dormitory building

The dormitory house number is expressed as the dormitory house number of the r-th student to be received in the s-th express delivery time period in the jth student dormitory building;

s53, analyzing distribution priority weight coefficients corresponding to dormitory addresses of students to be received in each express distribution time period in each student dormitory building

Expressed as a delivery priority weight coefficient corresponding to the dormitory address of the r-th student to be received in the s-th delivery time period in the jth student dormitory building,

expressed as the dormitory floor corresponding to the distribution priority proportion weight of the ith student to be received in the ith express delivery time period in the jth student dormitory building,

the dormitory house number of the ith student to be received in the ith express delivery time period in the jth student dormitory building corresponds to the delivery priority proportion weight;

and S54, sequentially detecting and arranging according to the distribution priority weight coefficients from large to small to obtain distribution priority weight coefficients corresponding to the to-be-received student dormitory addresses arranged in each express distribution time period in each student dormitory building.

In a possible design, the step S6 includes forming a pre-delivery express quantity set corresponding to each to-be-received student arranged in each express delivery time period in each student dormitory building

Expressed as the pre-delivery express quantity corresponding to the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building.

In a possible design, the calculation formula of the express delivery efficiency influence coefficient corresponding to each to-be-received student arranged in each express delivery time period in each dormitory building is

Expressed as the express delivery efficiency influence coefficient corresponding to the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building,

the distribution priority weight coefficient corresponding to the dormitory address of the r-th students to be collected after being arranged in the s-th express distribution time period in the j-th student dormitory building is represented, alpha is the influence coefficient of distribution quantity on express distribution efficiency, beta is the influence proportion coefficient of express distribution time length, u is the number of students to be collected in the s-th express distribution time period in the j-th student dormitory building, and t'_{Sign board}s is expressed as a standard time length of the s-th express delivery time period of the campus logistics center,

the average distribution time length of express delivery of single students in the dormitory buildings of the campus is represented.

In a possible design, the step S8 includes analyzing the expected delivery time of each student to be received arranged within each delivery time period in each student dormitory building

Expressed as the predicted express delivery time of the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building,

the express time is represented as the pick-up time of the s-th express delivery time period in the jth student dormitory building in the campus logistics center.

In a second aspect, the present invention also provides an apparatus comprising: the system comprises a processor, a memory and a network interface, wherein the memory and the network interface are connected with the processor; the network interface is connected with a nonvolatile memory in the server; when the processor runs, the computer program is called from the nonvolatile memory through the network interface, and the computer program runs through the memory, so that the intelligent logistics express delivery management method for intelligent campus construction is executed.

In a third aspect, the present invention further provides a computer storage medium, wherein a computer program is burned in the computer storage medium, and when the computer program runs in a memory of a server, the method for intelligent logistics express delivery management for smart campus construction is implemented.

Has the advantages that:

(1) the invention provides an intelligent logistics express delivery management method, equipment and a computer storage medium for intelligent campus construction, which are characterized in that corresponding student information in order information of pre-distributed express in a campus logistics center is extracted, students to be received in students 'dormitory buildings in the campus are counted, a foundation is laid for later analysis of the predicted express delivery time of the students to be received, and spare time periods of the students to be received in the students' dormitory buildings in the campus are acquired, so that the students can timely receive the express, the phenomenon that the time to be taken for the express is delayed due to course reasons is avoided, the delivery priority coefficient corresponding to the dormitory address of each student to be received in each express delivery time period in each student dormitory building is analyzed and arranged, and a reliable reference is provided for later analysis of the influence coefficient of the express delivery efficiency of each student to be received, meanwhile, the pre-distribution express quantity corresponding to each to-be-received student arranged in each express distribution time period in each student dormitory building is counted, and the express distribution efficiency influence coefficient corresponding to each to-be-received student arranged in each express distribution time period in each student dormitory building is calculated, so that the influence of each express distribution time in the campus on the express distribution efficiency is determined, the express distribution efficiency of the campus logistics center is increased, and the express distribution service quality of the campus logistics center is improved.

(2) According to the invention, the estimated express delivery time of each student to be received arranged in each express delivery time period in each student dormitory building is analyzed and sent to the corresponding student mobile terminal, so that the condition that a large amount of self-taking express delivery time cost is wasted by the students is avoided, the normal class plan and work and rest arrangement of the students are not influenced is ensured, the service level of a campus logistics center is further ensured, and the express delivery service experience of the students is increased.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a first aspect of the present invention provides a method for intelligent logistics, express delivery and management in smart campus construction, including the following steps:

s1, express order information acquisition: the order information of each pre-distributed express in the campus logistics center is acquired, corresponding student information in the order information of each pre-distributed express in the campus logistics center is extracted, the order information of each pre-distributed express of each student to be received in the campus is acquired, the order information of each pre-distributed express of each student to be received in the campus is counted, and a pre-distributed express order information set A of each pre-distributed express of each student to be received in the campus is formed_iB(a_ib₁,a_ib₂,...,a_ib_v,...,a_ib_f)，a_ib_vIs expressed as the ith student waiting for receiving in the campusThe nth pre-distribution express order information of (a), wherein i is 1, 2.

S2, extracting express order information of students: the collection W of students to be received in each student dormitory building in the campus is formed by extracting the corresponding dormitory building to be received in the pre-allocated express order information of each student to be received in the campus and counting each student to be received in each dormitory building in the campus_jA(w_ja₁,w_ja₂,...,w_ja_h,...,w_ja_l)，w_ja_rDenoted as the h-th student to be collected in the jth student dormitory building in the campus, where j is 1, 2.

Specifically, the method and the system provided by the invention have the advantages that the corresponding student information in the order information of each pre-distributed express in the campus logistics center is extracted, the students to be collected in each dormitory building in the campus are counted, and a foundation is laid for analyzing the predicted express distribution time of each student to be collected in the later period.

S3, analyzing the spare time period of the student: the school timetable corresponding to each student to be received in each student dormitory building in the campus is obtained by accessing the campus student management server, each spare time period of each student to be received in each student dormitory building in the campus is analyzed, and sequencing is performed in sequence according to the time sequence.

In the present embodiment, the idle time period of the student to be received is represented as the remaining time period excluding the normal class time, the commute time and the estimated eating time of the student.

Specifically, the spare time periods of students to be received in each student dormitory building in the campus are obtained, so that the students can timely receive the express, and the phenomenon that the time to be taken for the express is delayed due to course reasons of the students is avoided.

S4, dividing express delivery and distribution time period: the method comprises the steps of dividing the express delivery time of a school garden logistics center into express delivery time periods according to set time periods, analyzing students to be received in each express delivery time period in each student dormitory building, counting the students to be received in each express delivery time period in each student dormitory building, and forming a student set to be received in each express delivery time period in each student dormitory building

The system is represented as the r-th student waiting for receiving in the s-th express delivery time period in the j-th student dormitory building, wherein s is 1, 2.

In this embodiment, the step S4 includes comparing the first idle time period of each student waiting to receive in each student dormitory building in the campus with each express delivery time period of the campus logistics center, if the first idle time period of each student waiting to receive in each student dormitory building in the campus is within a certain express delivery time period, it indicates that the express delivery time period of the student waiting to receive in the student dormitory building is within the express delivery time period, and if the first idle time period of each student waiting to receive in each student dormitory building in the campus is not within each express delivery time period, comparing the second idle time period of the student waiting to receive in the student dormitory building with each express delivery time period until the corresponding express delivery time period of the student waiting to receive in the student dormitory building is matched.

S5, extracting students' dormitory addresses: the dormitory addresses of students to be received in each express delivery time period in each student dormitory building are respectively extracted, the delivery priority weight coefficients corresponding to the dormitory addresses of the students to be received in each express delivery time period in each student dormitory building are analyzed, and the dormitory addresses are sequentially arranged according to the delivery priority weight coefficients from large to small.

In this embodiment, the step S5 includes the following steps:

s51, extracting dormitory addresses of students to be received in each express delivery time period in each student dormitory building, obtaining dormitory floors of the students to be received in each express delivery time period in each student dormitory building, and forming dormitory floor set of the students to be received in each express delivery time period in each student dormitory building

The dormitory floor is represented as the dormitory floor of the r-th student to be received in the s-th express delivery time period in the j-th student dormitory building;

s52, obtaining the dormitory house number of each student to be received in each express delivery time period in each student dormitory building simultaneously, and forming a dormitory house number set of each student to be received in each express delivery time period in each student dormitory building

The dormitory house number is expressed as the dormitory house number of the r-th student to be received in the s-th express delivery time period in the jth student dormitory building;

s53, analyzing distribution priority weight coefficients corresponding to dormitory addresses of students to be received in each express distribution time period in each student dormitory building

Expressed as a delivery priority weight coefficient corresponding to the dormitory address of the r-th student to be received in the s-th delivery time period in the jth student dormitory building,

expressed as the dormitory floor corresponding to the distribution priority proportion weight of the ith student to be received in the ith express delivery time period in the jth student dormitory building,

the dormitory house number of the ith student to be received in the ith express delivery time period in the jth student dormitory building corresponds to the delivery priority proportion weight;

and S54, sequentially detecting and arranging according to the distribution priority weight coefficients from large to small to obtain distribution priority weight coefficients corresponding to the to-be-received student dormitory addresses arranged in each express distribution time period in each student dormitory building.

Specifically, the distribution priority weight coefficients corresponding to the dormitory addresses of the students to be received in each express distribution time period in each student dormitory building are analyzed and arranged, so that a reliable reference basis is provided for analyzing the influence coefficients of the express distribution efficiency of the students to be received in the later period.

S6, counting the pre-distribution express quantity: through extracting the information of each pre-distributed express order corresponding to each student to be received arranged in each express distribution time period in each student dormitory building, counting the number of pre-distributed express quantities corresponding to each student to be received arranged in each express distribution time period in each student dormitory building, and forming a pre-distributed express quantity set corresponding to each student to be received arranged in each express distribution time period in each student dormitory building

Expressed as the pre-delivery express quantity corresponding to the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building.

S7, analyzing influence of express delivery efficiency: the method comprises the steps of calculating the express delivery efficiency influence coefficients corresponding to the students to be received after being arranged in the express delivery time periods in each student dormitory building comprehensively, and calculating the express delivery efficiency influence coefficients corresponding to the students to be received after being arranged in the express delivery time periods in each student dormitory building.

In this embodiment, the formula for calculating the influence coefficient of the delivery efficiency corresponding to each student to be received after being arranged in each delivery time period in each dormitory building is

Expressed as the express delivery efficiency influence coefficient corresponding to the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building,

the distribution priority weight coefficient corresponding to the dormitory address of the r-th students to be collected after being arranged in the s-th express distribution time period in the j-th student dormitory building is represented, alpha is the influence coefficient of distribution quantity on express distribution efficiency, beta is the influence proportion coefficient of express distribution time length, u is the number of students to be collected in the s-th express distribution time period in the j-th student dormitory building, and t'_{Sign board}s is expressed as a standard time length of the s-th express delivery time period of the campus logistics center,

the average distribution time length of express delivery of single students in the dormitory buildings of the campus is represented.

Specifically, the method and the system have the advantages that the number of pre-distributed express items corresponding to the students to be received after arrangement in each express distribution time period in each student dormitory building is counted, reliable reference data are provided for analyzing the influence coefficient of the express distribution efficiency of the students to be received in the later period, and the influence coefficient of the express distribution efficiency corresponding to the students to be received after arrangement in each express distribution time period in each student dormitory building is calculated, so that the influence of each express distribution time in the campus on the express distribution efficiency is determined, the express distribution efficiency of the campus logistics center is increased, and the express distribution service quality of the campus logistics center is improved.

S8, analyzing express delivery distribution predicted time: by acquiring the starting and sending time of each express delivery time period in each student dormitory building in the campus logistics center, the estimated express delivery time of each to-be-received student arranged in each express delivery time period in each student dormitory building is analyzed and sent to the corresponding student mobile terminal.

In this embodiment, the step S8 includes analyzing the predicted delivery time of each to-be-received student arranged in each delivery time period in each student dormitory building

Expressed as the predicted express delivery time of the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building,

the express time is represented as the pick-up time of the s-th express delivery time period in the jth student dormitory building in the campus logistics center.

Specifically, the expected express delivery time of each student to be received after arrangement in each express delivery time period in each student dormitory building is analyzed and sent to the corresponding student mobile terminal, so that the students are prevented from wasting a large amount of self-taking express delivery time cost, normal class plan and work and rest arrangement of the students are not affected, the service level of a campus logistics center is guaranteed, and the express delivery service experience of the students is improved.

In a second aspect, the present invention also provides an apparatus comprising: the system comprises a processor, a memory and a network interface, wherein the memory and the network interface are connected with the processor; the network interface is connected with a nonvolatile memory in the server; when the processor runs, the computer program is called from the nonvolatile memory through the network interface, and the computer program runs through the memory, so that the intelligent logistics express delivery management method for intelligent campus construction is executed.

In a third aspect, the present invention further provides a computer storage medium, wherein a computer program is burned in the computer storage medium, and when the computer program runs in a memory of a server, the method for intelligent logistics express delivery management for smart campus construction is implemented.

The foregoing is merely exemplary and illustrative of the principles of the present invention and various modifications, additions and substitutions of the specific embodiments described herein may be made by those skilled in the art without departing from the principles of the present invention or exceeding the scope of the claims set forth herein.

Claims (10)

1. An intelligent logistics express delivery distribution management method for smart campus construction is characterized by comprising the following steps: the method comprises the following steps:

s1, express order information acquisition: acquiring order information of each pre-distributed express in a campus logistics center, and extracting corresponding student information in the order information of each pre-distributed express in the campus logistics center to obtain order information of each pre-distributed express of each student to be received in the campus;

s2, extracting express order information of students: counting students to be received in each student dormitory building in the campus by extracting corresponding information of each pre-distributed express order of each student to be received in the campus;

s3, analyzing the spare time period of the student: the method comprises the steps that a campus student management server is accessed to obtain a class attendance list corresponding to students to be received in each student dormitory building in a campus, spare time periods of the students to be received in each student dormitory building in the campus are analyzed, and sequencing is carried out in sequence according to the time sequence;

s4, dividing express delivery and distribution time period: dividing the express delivery time of the school garden logistics center into express delivery time periods according to a set time period, and analyzing students to be received in each express delivery time period in each student dormitory building;

s5, extracting students' dormitory addresses: the dormitory addresses of students to be received in each express delivery time period in each student dormitory building are respectively extracted, the delivery priority weight coefficients corresponding to the dormitory addresses of the students to be received in each express delivery time period in each student dormitory building are analyzed, and the dormitory addresses are sequentially arranged according to the delivery priority weight coefficients from large to small;

s6, counting the pre-distribution express quantity: counting the pre-distribution express quantity corresponding to each student to be received arranged in each express distribution time period in each student dormitory building by extracting the pre-distribution express order information corresponding to each student to be received arranged in each express distribution time period in each student dormitory building;

s7, analyzing influence of express delivery efficiency: the method comprises the steps of calculating the express delivery efficiency influence coefficients corresponding to students to be received after being arranged in each express delivery time period in each student dormitory building comprehensively, and counting the express delivery efficiency influence coefficients corresponding to the students to be received after being arranged in each express delivery time period in each student dormitory building;

s8, analyzing express delivery distribution predicted time: by acquiring the starting and sending time of each express delivery time period in each student dormitory building in the campus logistics center, the estimated express delivery time of each to-be-received student arranged in each express delivery time period in each student dormitory building is analyzed and sent to the corresponding student mobile terminal.

2. The intelligent logistics express delivery management method for smart campus construction according to claim 1, wherein: step S1 includes counting pre-distribution express order information of each student to be received in the campus, and forming a pre-distribution express order information set a of each student to be received in the campus_iB(a_ib₁,a_ib₂,...,a_ib_v,...,a_ib_f)，a_ib_vExpress as the nth pre-prepared express order information of the ith student to be received in the campus, wherein i is 1, 2.

3. The intelligent logistics express delivery management method for smart campus construction according to claim 1, wherein: step S4 includes comparing the first idle time period of each student waiting to receive in each student dormitory building in the campus with each express delivery time period of the campus logistics center, if the first idle time period of each student waiting to receive in each student dormitory building in the campus is within a certain express delivery time period, it indicates that the express delivery time period of the student waiting to receive in the student dormitory building is within the express delivery time period, and if the first idle time period of each student waiting to receive in each student dormitory building in the campus is not within each express delivery time period, comparing the second idle time period of the student waiting to receive in the student dormitory building with each express delivery time period until the corresponding express delivery time period of the student waiting to receive in the student dormitory building is matched.

4. The intelligent logistics express delivery management method for smart campus construction according to claim 1, wherein: the step S4 further includes the steps of counting students waiting to be received in each express delivery time period in each student dormitory building, and forming a set of students waiting to be received in each express delivery time period in each student dormitory building

The system is represented as the r-th student waiting for receiving in the s-th express delivery time period in the j-th student dormitory building, wherein j is 1, 2.

5. The intelligent logistics express delivery management method for smart campus construction according to claim 1, wherein: the step S5 includes the following steps:

s51, extracting dormitory addresses of students to be received in each express delivery time period in each student dormitory building, obtaining dormitory floors of the students to be received in each express delivery time period in each student dormitory building, and forming dormitory floor set of the students to be received in each express delivery time period in each student dormitory building

The dormitory floor is represented as the dormitory floor of the r-th student to be received in the s-th express delivery time period in the j-th student dormitory building;

s52, obtaining the dormitory house number of each student waiting to be received in each express delivery time period in each dormitory building simultaneously to form each dormitory buildingDormitory house number set of students to be received in each express delivery and delivery time period in a building

The dormitory house number is expressed as the dormitory house number of the r-th student to be received in the s-th express delivery time period in the jth student dormitory building;

s53, analyzing distribution priority weight coefficients corresponding to dormitory addresses of students to be received in each express distribution time period in each student dormitory building

Expressed as a delivery priority weight coefficient corresponding to the dormitory address of the r-th student to be received in the s-th delivery time period in the jth student dormitory building,

expressed as the dormitory floor corresponding to the distribution priority proportion weight of the ith student to be received in the ith express delivery time period in the jth student dormitory building,

the dormitory house number of the ith student to be received in the ith express delivery time period in the jth student dormitory building corresponds to the delivery priority proportion weight;

and S54, sequentially detecting and arranging according to the distribution priority weight coefficients from large to small to obtain distribution priority weight coefficients corresponding to the to-be-received student dormitory addresses arranged in each express distribution time period in each student dormitory building.

6. The intelligent logistics distribution management method of intelligent campus construction as claimed in claim 1, wherein the management method comprisesIs characterized in that: the step S6 includes that a pre-delivery express quantity set corresponding to each to-be-received student arranged in each express delivery time period in each student dormitory building is formed

Expressed as the pre-delivery express quantity corresponding to the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building.

7. The intelligent logistics express delivery management method for smart campus construction according to claim 1, wherein: the calculation formula of the express delivery efficiency influence coefficient corresponding to each to-be-received student arranged in each express delivery time period in each student dormitory building is

Expressed as the express delivery efficiency influence coefficient corresponding to the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building,

the distribution priority weight coefficient corresponding to the dormitory address of the r-th students to be collected after being arranged in the s-th express distribution time period in the j-th student dormitory building is represented, alpha is the influence coefficient of distribution quantity on express distribution efficiency, beta is the influence proportion coefficient of express distribution time length, u is the number of students to be collected in the s-th express distribution time period in the j-th student dormitory building, and t'_{Sign board}s is expressed as a standard time length of the s-th express delivery time period of the campus logistics center,

the average distribution time length of express delivery of single students in the dormitory buildings of the campus is represented.

8. The intelligent logistics express delivery management method for smart campus construction according to claim 1, wherein: the step S8 includes analyzing the predicted express delivery time of each to-be-received student arranged in each express delivery time period in each student dormitory building

Expressed as the predicted express delivery time of the r-th to-be-received student arranged in the s-th express delivery time period in the jth student dormitory building,

the express time is represented as the pick-up time of the s-th express delivery time period in the jth student dormitory building in the campus logistics center.

9. An apparatus, characterized by: the method comprises the following steps: the system comprises a processor, a memory and a network interface, wherein the memory and the network interface are connected with the processor; the network interface is connected with a nonvolatile memory in the server; the processor retrieves a computer program from the non-volatile memory through the network interface and runs the computer program through the memory to execute the intelligent campus construction intelligent logistics express delivery management method of any one of claims 1-8.

10. A computer storage medium, characterized in that: the computer storage medium is burned with a computer program, and when the computer program runs in a memory of a server, the intelligent logistics express delivery management method for intelligent campus construction according to any one of claims 1 to 8 is implemented.

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