CN108764798B - Logistics management system based on mobile internet data analysis - Google Patents

Abstract

The invention discloses a logistics management system based on mobile internet data analysis, which comprises an ordering module, a scanning module, a logistics distribution network module, a management server and a client terminal, wherein the client terminal is respectively connected with the ordering module and the management server, and the management server is respectively connected with the scanning module and the logistics distribution network module. The invention effectively screens different delivery paths according to the delivery place and the delivery destination of a product purchased by a customer by the scanning module and the logistics distribution network module in combination with the management server, and screens the optimal delivery path information from the current logistics network to the destination to ensure that the time required for the logistics to reach the next network from one network is shortest, thereby improving the efficiency of logistics distribution management, and counting the scanning time point and the predicted arrival time of the logistics at each network by the scanning module, so that the customer can clearly know the time required for the logistics to reach and the satisfaction degree of the customer is improved.

Description

Logistics management system based on mobile internet data analysis

Technical Field

The invention belongs to the technical field of logistics management, and relates to a logistics management system based on mobile internet data analysis.

Background

With the rapid increase of the current express logistics transaction volume in China, the service capability and level of the express industry become a social focus of increasing attention of people, the service range is widened, the service depth is prolonged, the service varieties are increased, scientific and technological means are applied, the processing efficiency is improved, and the error rate is reduced, so that the main direction of the current development of the express industry in China is formed.

At present, in the market, the logistics types are various, the routes of logistics from a delivery place to a destination are different, and in order to transport with logistics in other routes, part of logistics companies cause that the time of purchased products from the delivery place to the destination is too long, and the express transportation efficiency is seriously affected.

Disclosure of Invention

The invention aims to provide a logistics management system based on mobile internet data analysis, which solves the problems of low transportation efficiency and long transportation time in the existing logistics management process, and further leads to low satisfaction of customers.

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

a logistics management system based on mobile internet data analysis comprises an ordering module, a scanning module, a logistics distribution network module, a management server and a client terminal;

the client terminal is used for sending logistics distribution data information to the ordering module and receiving basic logistics information sent by the management server through the mobile internet;

the ordering module is used for receiving the logistics distribution data information sent by the client terminal, and the shipper carries out shipment on the product purchased by the client according to the logistics distribution data information received by the ordering module and a delivery destination;

the scanning module is respectively positioned at each delivery place and each logistics network point and is used for scanning and counting the number of logistics items of each delivery place, each scanning time point and each logistics network point, extracting the delivery destination of each logistics, and sending the scanned number of logistics items, the scanning time point and the delivery destination corresponding to each logistics to the management server;

the logistics distribution network module is used for storing logistics line information corresponding to different delivery places and reaching various destinations, wherein the logistics line information comprises a logistics sending place, a logistics destination and all path information of the logistics sending place and the logistics destination, and sending the logistics sending place, the logistics destination and all path information of the logistics destination to the management server;

the management server receives the sending place, the destination and all path information from the sending place to the destination of the logistics sent by the logistics distribution network module, screens out the optimal logistics distribution path information for the received logistics sending place, destination and all path information, and establishes a path distribution set according to the logistics sending place, destination and path informationAnd a is_i(a_i1,a_i2,...,a_ij,...,a_im)，a_i1 denotes a place from which the material flow corresponding to the ith route information originates, a_ij represents the j-1 mesh point position corresponding to the ith path information, a_im represents the destination of the logistics corresponding to the ith path information; different routes deliver set A_iCorresponding to different distribution distance sets B_i(b_i1,b_i2,...,b_ik,...,b_in)，b_i1 is expressed as the distance between the 2 nd site position and the place where the material flow is emitted, b_ik is the distance between the j-1 st and the j-2 nd screen positions, and k +1 ═ j, b_in is the distance from the destination of the logistics to the position of the last network point, n +1 is m, and the total distance of each distribution route is counted

The management server receives the number of scanned logistics items sent by each website scanning module, scanning time points and distribution destinations corresponding to the logistics, and constructs a website logistics item number set C for the number of scanned logistics items of each website_i(c_i1,c_i2,...,c_ij,...,c_iv)，C_iIs expressed as the number of physical distribution pieces to be scanned by each network under the ith path information, c_i1 is the number of physical distribution items to be scanned by the 1 st network under the ith path information, c_ij is the number of physical distribution items to be scanned by the jth network point under the ith path information, c_im represents the number of logistics required to be scanned by the v-th node under the ith path information, the 1 st node is a node where logistics start from a place where the logistics are sent out and arrive for the first time, the v-th node is the last node before the logistics arrive at a destination, and v +2 is m, and v +1 is n; according to the number of logistics items in a network_iScreening the number of the network points where the logistics currently located reach the logistics destination under different paths and the number of the logistics to be scanned of each network point, and counting the number of the network points where the logistics pass through the destination under different paths and the number of the logistics scanned by each network point according to the number of the network points where the logistics pass through the logistics destination and the number of the logistics scanned by each network pointTotal time T expected to be consumed by each mesh point_gi；

The management server predicts the total time T required for the logistics to reach the destination from different paths according to statistics_giScreening out the total time T expected to be consumed_giThe management server sends the time point corresponding to the logistics scanning and the total time of the logistics from the network point to the destination to the client terminal through the mobile internet;

and when the logistics arrives at the next network point according to the path with shortest screened time consumption, the management server screens the predicted time from the g +1 network point to the destination again, screens the path information with shortest predicted time consumption, and sends the logistics from the g +1 network point to the g +2 network point according to the screened shortest path information until g +1 is equal to v.

Further, the logistics distribution data information comprises the type of a product purchased by a customer, the weight, the volume, the distribution destination, the name of an addressee and the contact information, and the basic logistics information comprises the time point of the current logistics website scanning and the expected time of arriving at the distribution destination, wherein the distribution destination is the place of the addressee when the addressee is filled by the customer.

Furthermore, the path information comprises the number of the nodes passed by the logistics issuing place to the destination and the distance between adjacent nodes, and the nodes passed by the logistics issuing place to the destination are numbered according to the sequence of the nodes from the near to the far from the logistics issuing place, wherein the number is 1,2 and 3.

Further, the total time expected to be consumed by each network point through which the material flow passes to reach the destination under different paths

Wherein, T_giExpressed as the expected time for the ith path downstream flow to reach the destination from the g-th site, c_ij is denoted as the ith pathNumber of logistics pieces to be scanned at jth website under information, t_{Sign board}Expressed as the time consumed for an average scan of a piece of material flow, b_ik is represented as the distance, V, of the j-1 st dot position from the j-2 nd dot position_{Vehicle with wheels}Expressed as the average transport speed of the logistic vehicle from one point to the next.

The invention has the beneficial effects that:

the logistics management system based on mobile internet data analysis effectively screens different delivery paths according to the delivery places and delivery destinations of products purchased by customers through the scanning module, the logistics distribution network point module and the management server, screens the best delivery path information from the current logistics network point to the destination to ensure that the time required by the logistics to reach the next network point is the shortest, improves the efficiency of logistics distribution management, and counts the scanning time point and the predicted arrival time of the logistics at each network point through the scanning module, so that the customers can know the time required by the logistics to reach clearly, and the satisfaction degree of the customers is improved.

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 a logistics management system based on mobile internet data analysis according to the 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, the present invention is a logistics management system based on mobile internet data analysis, including an ordering module, a scanning module, a logistics distribution network module, a management server and a client terminal;

the system comprises a client terminal, a management server, a distribution module, a distribution network and a distribution network, wherein the client terminal is used for sending logistics distribution data information to the ordering module and receiving basic logistics information sent by the management server through a mobile internet, the logistics distribution data information comprises the type, weight, volume, distribution destination, addressee name, contact information and the like of a product purchased by a client, the basic logistics information comprises the scanning time point of a current logistics network point and the expected arrival time of the current logistics network point at the distribution destination, and the distribution destination is the place of the addressee when the client fills in the addressee;

the ordering module is used for receiving the logistics distribution data information sent by the client terminal, and the background delivery personnel delivers the products purchased by the client according to the delivery destination according to the logistics distribution data information received by the ordering module;

the scanning module is respectively positioned at each delivery place and each logistics network point and is used for scanning and counting the number of logistics items of each delivery place, each scanning time point and each logistics network point, extracting the delivery destination of each logistics, and sending the scanned number of logistics items, the scanning time point and the delivery destination corresponding to each logistics to the management server;

the logistics distribution network node module is used for storing logistics line information corresponding to different delivery places to reach various destinations, wherein the logistics line information comprises a logistics sending place, a logistics destination and all path information of the logistics sending place to the logistics destination, and the logistics sending place, the logistics destination and all path information of the logistics destination are sent to the management server, the path information comprises the number of network nodes which the logistics sending place passes through to the destination and the distance between adjacent network nodes, and the network nodes which pass through from the logistics sending place to the destination are numbered according to the sequence of the network nodes from near to far from the logistics sending place, wherein the sequence is 1,2, 3;

the management server receives the sending place, the destination and the sending-out place of the logistics sent by the logistics distribution network moduleAll path information of ground to destination, screening out the optimal logistics distribution path information for the received logistics distribution place, destination and all path information, and establishing a routing distribution set A according to the logistics distribution place, destination and path information_i(a_i1,a_i2,...,a_ij,...,a_im)，a_i1 denotes a place from which the material flow corresponding to the ith route information originates, a_ij represents the j-1 mesh point position corresponding to the ith path information, a_im represents the destination of the logistics corresponding to the ith path information; different routes deliver set A_iCorresponding to different distribution distance sets B_i(b_i1,b_i2,...,b_ik,...,b_in)，b_i1 is expressed as the distance between the 2 nd site position and the place where the material flow is emitted, b_ik is the distance between the j-1 st and the j-2 nd screen positions, and k +1 ═ j, b_in is the distance from the destination of the logistics to the position of the last network point, n +1 is m, and the total distance of each distribution route is counted

The management server receives the number of scanned logistics items sent by each website scanning module, scanning time points and distribution destinations corresponding to the logistics, and constructs a website logistics item number set C for the number of scanned logistics items of each website_i(c_i1,c_i2,...,c_ij,...,c_iv)，C_iIs expressed as the number of physical distribution pieces to be scanned by each network under the ith path information, c_i1 is the number of physical distribution items to be scanned by the 1 st network under the ith path information, c_ij is the number of physical distribution items to be scanned by the jth network point under the ith path information, c_im represents the number of logistics required to be scanned by the v-th node under the ith path information, the 1 st node is a node where logistics start from a place where the logistics are sent out and arrive for the first time, the v-th node is the last node before the logistics arrive at a destination, and v +2 is m, and v +1 is n; according to the number of logistics items in a network_iScreening the positions of the current logistics positions under different paths to reach the logistics destinationThe number of passing network points and the number of the logistics to be scanned of each network point to be passed through are counted, and the total time expected to be consumed by each network point through which the logistics reaches the destination under different paths is counted according to the number of the network points through which the logistics reaches the logistics destination and the number of the logistics scanned by each network point

Wherein, T_giExpressed as the time, t, expected to be required for the material flow under the ith path to reach the destination from the g-th site_{Sign board}Expressed as the time consumed by an average scan of a piece of material flow, V_{Vehicle with wheels}Expressed as the average transport speed of the logistic vehicle from one point to the next;

the management server predicts the total time T required for the logistics to reach the destination from different paths according to statistics_giScreening out the total time T expected to be consumed_giThe management server sends the time point corresponding to the logistics scanning and the total time of the logistics from the network to the destination to the client terminal through the mobile internet, and the client terminal can master the basic logistics information of the purchased product in real time.

And when the logistics arrives at the next network point according to the path with shortest screened time consumption, the management server screens the predicted time from the g +1 network point to the destination again, screens the path information with shortest predicted time consumption, and sends the logistics from the g +1 network point to the g +2 network point according to the screened shortest path information until g +1 is equal to v.

The logistics management system based on mobile internet data analysis effectively screens different delivery paths according to the delivery places and delivery destinations of products purchased by customers through the scanning module, the logistics distribution network point module and the management server, screens the best delivery path information from the current logistics network point to the destination to ensure that the time required by the logistics to reach the next network point is the shortest, improves the efficiency of logistics distribution management, and counts the scanning time point and the predicted arrival time of the logistics at each network point through the scanning module, so that the customers can know the time required by the logistics to reach clearly, and the satisfaction degree of the customers is improved.

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 (4)

1. A logistics management system based on mobile internet data analysis is characterized in that: the system comprises a ordering module, a scanning module, a logistics distribution network module, a management server and a client terminal;

the client terminal is used for sending logistics distribution data information to the ordering module and receiving basic logistics information sent by the management server through the mobile internet;

the ordering module is used for receiving the logistics distribution data information sent by the client terminal, and the shipper carries out shipment on the product purchased by the client according to the logistics distribution data information received by the ordering module and a delivery destination;

the scanning module is respectively positioned at each delivery place and each logistics network point and is used for scanning and counting the number of logistics items of each delivery place, each scanning time point and each logistics network point, extracting the delivery destination of each logistics, and sending the scanned number of logistics items, scanning time points and the delivery destination corresponding to each logistics to the management server;

the logistics distribution network module is used for storing logistics line information corresponding to different delivery places and reaching various destinations, wherein the logistics line information comprises a logistics sending place, a logistics destination and all path information of the logistics sending place and the logistics destination, and sending the logistics sending place, the logistics destination and all path information of the logistics destination to the management server;

the management server receives the logistics distribution network moduleThe method comprises the steps of sending the logistics to a destination, and all path information from the sending place to the destination, screening the best logistics distribution path information from the received logistics sending place, destination and all path information, and establishing a path distribution set A according to the logistics sending place, destination and path information_i(a_i1,a_i2,...,a_ij,...,a_im)，a_i1 denotes a place from which the material flow corresponding to the ith route information originates, a_ij represents the j-1 mesh point position corresponding to the ith path information, a_im represents the destination of the logistics corresponding to the ith path information; different routes deliver set A_iCorresponding to different distribution distance sets B_i(b_i1,b_i2,...,b_ik,...,b_in)，b_i1 is expressed as the distance between the 2 nd site position and the place where the material flow is emitted, b_ik is the distance between the j-1 st and the j-2 nd screen positions, and k +1 ═ j, b_in is the distance from the destination of the logistics to the position of the last network point, n +1 is m, and the total distance of each distribution route is counted

The management server receives the number of scanned logistics items sent by each website scanning module, scanning time points and distribution destinations corresponding to the logistics, and constructs a website logistics item number set C for the number of scanned logistics items of each website_i(c_i1,c_i2,...,c_ij,...,c_iv)，C_iIs expressed as the number of physical distribution pieces to be scanned by each network under the ith path information, c_i1 is the number of physical distribution items to be scanned by the 1 st network under the ith path information, c_ij is the number of physical distribution items to be scanned by the jth network point under the ith path information, c_im represents the number of logistics required to be scanned by the v-th node under the ith path information, the 1 st node is a node where logistics start from a place where the logistics are sent out and arrive for the first time, the v-th node is the last node before the logistics arrive at a destination, and v +2 is m, and v +1 is n; according to the number of logistics items in a network_iSifting outThe number of the network points where the current position of the logistics reaches the logistics destination under the same path and the number of the logistics to be scanned of each network point which need to pass through are counted, and the total time T expected to be consumed by each network point when the logistics reaches the destination under different paths is counted according to the number of the network points where the logistics reaches the logistics destination and the number of the logistics scanned by each network point_gi；

The management server predicts the total time T required for the logistics to reach the destination from different paths according to statistics_giScreening out the total time T expected to be consumed_giThe management server sends the time point corresponding to the logistics scanning and the total time of the logistics from the network point to the destination to the client terminal through the mobile internet;

and when the logistics arrives at the next network point according to the path with shortest screened time consumption, the management server screens the predicted time from the g +1 network point to the destination again, screens the path information with shortest predicted time consumption, and sends the logistics from the g +1 network point to the g +2 network point according to the screened shortest path information until g +1 is equal to v.

2. The logistics management system based on mobile internet data analysis as claimed in claim 1, wherein: the logistics distribution data information comprises the product type, product weight, product volume, distribution destination, addressee name and contact information purchased by a customer, and the basic logistics information comprises the time point of the current logistics website scanning and the expected time of arriving at the distribution destination, wherein the distribution destination is the place where the customer fills in the addressee.

3. The logistics management system based on mobile internet data analysis as claimed in claim 1, wherein: the path information comprises the number of the nodes which are passed by the logistics issuing place to the destination and the distance between the adjacent nodes, and the nodes which are passed by the logistics issuing place to the destination are numbered according to the sequence of the nodes from the near to the far from the logistics issuing place, wherein the number is 1,2 and 3.

4. The logistics management system based on mobile internet data analysis as claimed in claim 1, wherein: total time expected to be consumed by each network point where the material flow passes through to reach the destination under different paths

Wherein, T_giExpressed as the expected time for the ith path downstream flow to reach the destination from the g-th site, c_ij is the number of the logistics items to be scanned by the jth network point under the ith path information, t_{Sign board}Expressed as the time consumed for an average scan of a piece of material flow, b_ik is represented as the distance, V, of the j-1 st dot position from the j-2 nd dot position_{Vehicle with wheels}Expressed as the average transport speed of the logistic vehicle from one point to the next.

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