CN111489130A - Logistics platform-based collaborative configuration method and system for warehouse selection and distribution - Google Patents

Abstract

The invention provides a collaborative configuration method and a system for warehouse selection and distribution based on a logistics platform, wherein the method comprises the following steps: acquiring current ordering information based on the logistics platform; determining a delivery address according to the goods information and the receiving address in the ordering information; acquiring a delivery warehouse address according to the delivery address; acquiring a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address; transmitting the delivery warehouse address, the receiving address and the logistics route to a communication terminal of a worker and the logistics platform, and delivering the goods by the worker according to the delivery warehouse address, the receiving address and the logistics route; the time required for cargo distribution is shortened by the method, thereby further improving the logistics distribution efficiency.

Description

Logistics platform-based collaborative configuration method and system for warehouse selection and distribution

Technical Field

The invention relates to the technical field of logistics distribution, in particular to a collaborative configuration method and a collaborative configuration system for warehouse selection and distribution based on a logistics platform.

Background

With the development of economic society and the rise of electronic commerce, more and more people select and purchase commodities through the internet.

However, for the development of electronic commerce, the development of the logistics industry is slow, and at present, the distribution of goods still refers to that the staff distributes the goods according to the goods delivery address and the self goods transportation experience, so that the goods are transported slowly, and the logistics distribution efficiency is low.

Therefore, a collaborative configuration method and system for warehouse selection and distribution based on a logistics platform are urgently needed.

Disclosure of Invention

In order to solve the technical problems, the invention provides a collaborative allocation method and system for warehouse selection and distribution based on a logistics platform, which are used for improving the distribution efficiency of goods.

The embodiment of the invention provides a collaborative configuration method for warehouse selection and distribution based on a logistics platform, which comprises the following steps:

acquiring current ordering information based on the logistics platform;

determining a delivery address according to the goods information and the receiving address in the ordering information;

acquiring a delivery warehouse address according to the delivery address;

acquiring a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address;

and transmitting the delivery warehouse address, the receiving address and the logistics route to a communication terminal of a worker and the logistics platform, and delivering the goods and simultaneously carrying out cooperative recording by the worker according to the delivery warehouse address, the receiving address and the logistics route.

In one embodiment, a delivery address is determined according to the receiving address and the goods information in the ordering information; the method specifically comprises the following steps:

acquiring a plurality of delivery addresses of the goods corresponding to the goods information according to the goods information in the ordering information;

and acquiring a delivery address closest to the receiving address from a plurality of delivery addresses according to the receiving address in the ordering information.

In one embodiment, a shipping warehouse address is obtained according to the shipping address; the method specifically comprises the following steps:

acquiring a plurality of warehouse addresses containing the goods in the delivery addresses;

acquiring a warehouse address containing the largest quantity information of the goods in a plurality of warehouse addresses, and taking the warehouse address containing the largest quantity information of the goods as a first delivery warehouse address;

acquiring a warehouse address which contains the largest quantity information of the goods except the first delivery warehouse address from a plurality of warehouse addresses, and taking the warehouse address which contains the largest quantity information of the goods except the first delivery warehouse address as a second delivery warehouse address;

acquiring the current working state information of the first delivery warehouse address;

acquiring current working state information of the second delivery warehouse address;

and comparing the current working state information of the first delivery warehouse address with the current working state information of the second delivery warehouse address, and selecting the delivery warehouse address with lighter current working state information as the delivery warehouse address.

In one embodiment, the current working state information includes information on the number of workers currently at the shipping warehouse address, information on the number of goods to be delivered, and information on the shipping queue.

In one embodiment, a logistics route of the goods corresponding to the goods information is obtained according to the receiving address and the delivery warehouse address; the method specifically comprises the following steps:

acquiring a plurality of preselected logistics routes according to the receiving address and the delivery warehouse address;

acquiring a plurality of cost price information respectively corresponding to the distribution of the goods by adopting a plurality of preselected object flow lines;

acquiring payment information in the order placing information based on the logistics platform;

screening out a plurality of preselected logistics routes corresponding to the condition that the cost price information is higher than the payment information from the plurality of preselected logistics routes, and acquiring a plurality of preselected logistics routes corresponding to the condition that the cost price information is lower than the payment information;

acquiring a plurality of time information which is screened out according to the payment information and corresponds to the delivery of the goods by adopting a plurality of preselected logistics routes respectively;

and acquiring the preselected logistics route corresponding to the shortest time information in the plurality of time information respectively corresponding to the delivery of the goods by adopting the plurality of preselected logistics routes after the screening, and taking the preselected logistics route as the logistics route.

In one embodiment, a logistics route of the goods corresponding to the goods information is obtained according to the receiving address and the delivery warehouse address; then, the method further comprises the following steps:

acquiring traffic condition information corresponding to the logistics route according to the logistics route;

optimizing the logistics route according to the traffic condition information to obtain the optimized logistics route;

and acquiring the time required for distributing the goods by adopting the optimized logistics route according to the optimized logistics route and the traffic condition information corresponding to the optimized logistics route, and transmitting the time required for distributing the goods by adopting the optimized logistics route and the optimized logistics route to a communication terminal of a worker and the logistics platform.

In one embodiment, according to the traffic condition information, optimizing the logistics route to obtain an optimized logistics route; the method specifically comprises the following steps:

dividing the logistics route into a plurality of sub-logistics routes;

acquiring time information required for distributing the goods by adopting the sub-logistics route according to the traffic condition information;

acquiring a starting position and an end position of the sub-logistics route;

acquiring a plurality of standby sub-routes of the sub-logistics route according to the starting position and the ending position of the sub-logistics route;

acquiring a plurality of pieces of traffic condition information corresponding to a plurality of standby sub-routes;

acquiring a plurality of pieces of time information respectively required for distributing the goods by adopting a plurality of spare sub-routes according to the plurality of spare sub-routes and a plurality of pieces of traffic condition information corresponding to the plurality of spare sub-routes;

comparing the time information required for distributing the goods by adopting the sub-logistics route with a plurality of pieces of time information respectively required for distributing the goods by adopting a plurality of standby sub-routes, acquiring a route corresponding to the shortest time information, and taking the route as the optimized sub-logistics route;

obtaining a plurality of optimized sub-logistics routes corresponding to the plurality of sub-logistics routes;

and synthesizing the plurality of sub-logistics routes after optimization processing to obtain the logistics routes after optimization processing.

In one embodiment, the delivery warehouse address, the receiving address and the logistics route are transmitted to a communication terminal of a worker and the logistics platform, and the worker delivers the goods according to the delivery warehouse address, the receiving address and the logistics route; the method specifically comprises the following steps:

the staff goes to a delivery warehouse corresponding to the delivery warehouse address according to the delivery warehouse address displayed by the communication terminal to obtain the goods;

when the staff acquires the goods, the goods taking information is transmitted to the logistics platform through the communication terminal;

the logistics platform is used for transmitting a position acquisition instruction to the communication terminal after receiving the goods taking information transmitted by the staff through the communication terminal;

the communication terminal is used for transmitting the position information of the communication terminal to the logistics platform when receiving the position acquisition instruction transmitted by the logistics platform; the staff delivers the goods according to the logistics route;

the logistics platform is further used for comparing the position information transmitted by the communication terminal with the logistics route, judging whether a worker delivers the goods according to the logistics route, and transmitting information deviating from the logistics route to the communication terminal of the worker when the position information transmitted by the communication terminal deviates from the logistics route so as to remind the worker to deliver the goods according to the logistics route;

the logistics platform is used for transmitting a position acquisition instruction to the communication terminal after receiving the goods taking information transmitted by the staff through the communication terminal; the method specifically comprises the following steps:

the logistics platform is used for transmitting a cargo inspection instruction to the communication terminal after receiving the cargo taking information transmitted by the staff through the communication terminal;

the communication terminal is used for transmitting the image information of the goods and the order information on the goods to the logistics platform after receiving the goods detection instruction transmitted by the logistics platform;

the logistics platform is used for comparing the order placing information with the image information and the order information of the goods, and transmitting a position obtaining instruction to the communication terminal when the order placing information is consistent with the image information and the order information of the goods; and when the comparison is inconsistent, transmitting information of inconsistent cargo inspection to the communication terminal so as to remind a worker of cargo taking errors and timely process the cargo.

In one embodiment, after the delivering the goods and the cooperatively recording, the method further includes:

acquiring a target name of the goods, calling a target attribute related to the target name based on a goods database, and determining the goods type of the goods based on the target attribute;

when the cargo type is a first type, performing laser scanning on the cargo type to obtain point cloud data of the cargo, and establishing a cargo structure related to the point cloud data based on a three-dimensional coordinate system;

when the cargo type is a second type, the cargo is not monitored in real time;

after the cargo structure is established, the method further comprises the following steps:

the cargo structure is divided into regions,obtaining a set of sub-regions

Wherein

region information representing an ith sub-region, and the cargo structure includes n sub-regions;

wherein,

，

region information indicating an m-th dot region in the i-th sub-region; m represents the total number of point regions in the ith sub-region;

calculating a first correlation value of each point area in the sub-area according to the following formula;

wherein,

a first associated value representing an ith sub-region;

region information indicating a j-th point region in the i-th sub-region;

region information indicating a j +1 th dot region in the ith sub-region;

region information indicating a j +2 th dot region in the ith sub-region;

representation is based on the ith subAverage region information of m point regions in a region

And a function to be corrected of the corresponding average region damage information s;

calculating a second correlation value of each sub-region in the sub-region set based on the first correlation value and according to the following formula;

wherein,

a first associated value representing the i +1 th sub-region;

a first associated value representing the i +2 th sub-region;

judging whether the correlation factor corresponding to the second correlation value G is in a preset correlation range or not;

if so, monitoring the goods according to the interval time;

otherwise, presetting and marking the cargo structure based on the first correlation value and the second correlation value, transmitting and displaying a marking result, and pushing a corresponding warehouse based on the current position of the cargo to replace the new cargo.

A coordinated configuration system for warehouse selection and distribution based on a logistics platform comprises: the system comprises an acquisition module, a delivery address module, a warehouse address module, a logistics route module and a wireless communication module; wherein,

the acquisition module is used for acquiring current ordering information based on the logistics platform;

the delivery address module is used for determining a delivery address according to the goods information and the receiving address in the ordering information;

the warehouse address module is used for acquiring a delivery warehouse address according to the delivery address determined by the delivery address module;

the logistics route module is used for acquiring a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address;

the wireless communication module is used for transmitting the delivery warehouse address, the receiving address and the logistics route line acquired by the logistics route module, which are acquired by the warehouse address module, to a communication terminal of a worker and the logistics platform, and the worker delivers the goods according to the delivery warehouse address, the receiving address and the logistics route.

In one embodiment, the wireless communication module comprises an alternating current power supply AC, a control chip U1, a communication chip U2, a resistor R1, a resistor R2, a resistor R3, a resistor R4, a thermistor R5, a thermistor R6, a capacitor C1, a capacitor C2, a capacitor C3, a capacitor C4, a diode D1, a diode D2, a diode D3, an inductor L1, an inductor L2, a triode VT, a voltage suppression diode VD1 and a voltage suppression diode VD 2;

the alternating current power supply AC is connected with the SW end of the control chip U1 through the diode D2 and the inductor L2, the capacitor C3 is connected with the capacitor C4 in parallel, the diode D1 and the capacitor C2 are connected with the VDD end of the control chip U1 in parallel, the GND end of the control chip U1 is connected with the inductor L1, and the capacitor C1 and the diode D3 are connected with the ground in parallel;

the logistics route module and the warehouse address module are connected with the base electrode of the triode VT through the resistor R1, the resistor R1 and the resistor R3 are connected in series with the emitting electrode of the triode VT, one end of the emitting electrode of the triode VT is connected with the inductor L1 through the resistor R2, the other end of the emitting electrode of the triode VT is connected with the RE end and the DE end of the communication chip U2, the logistics route module and the warehouse address module are connected with the D1 end of the communication chip U2, the GND end of the communication chip U2 is grounded, the VCC end of the communication chip U2 is connected in parallel with the two ends of the capacitor C1, the voltage suppression diode VD1 is connected in series with the voltage suppression diode VD2, and the thermistor R5 and the thermistor R6 are connected in parallel with the two ends of the A, B of the communication chip U2.

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 hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

Fig. 1 is a schematic structural diagram of a collaborative allocation method for warehouse selection and distribution based on a logistics platform according to the present invention;

fig. 2 is a schematic structural diagram of a collaborative configuration system for warehouse selection and distribution based on a logistics platform according to the present invention;

fig. 3 is a circuit diagram of a wireless communication module of a cooperative configuration system for warehouse selection and distribution based on a logistics platform.

Detailed Description

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

The embodiment of the invention provides a collaborative configuration method for warehouse selection and distribution based on a logistics platform, as shown in figure 1, the method comprises the following steps:

acquiring current ordering information based on a logistics platform;

determining a delivery address according to the goods information and the receiving address in the ordering information;

acquiring a delivery warehouse address according to the delivery address;

acquiring a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address;

and transmitting the delivery warehouse address, the receiving address and the logistics route to a communication terminal and a logistics platform of a worker, and delivering the goods by the worker according to the delivery warehouse address, the receiving address and the logistics route and simultaneously carrying out cooperative recording.

The working principle of the method is as follows: acquiring current ordering information based on a logistics platform; determining a delivery address according to the goods information and the receiving address in the ordering information; acquiring a delivery warehouse address according to the delivery address; acquiring a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address; and transmitting the delivery warehouse address, the receiving address and the logistics route to a communication terminal and a logistics platform of a worker, and delivering the goods by the worker according to the delivery warehouse address, the receiving address and the logistics route.

The method has the beneficial effects that: the delivery address is acquired through the goods information and the receiving address in the ordering information acquired by the logistics platform; according to the delivery address, the delivery warehouse address is acquired; further, according to the receiving address and the delivery warehouse address, the logistics route of the goods corresponding to the goods information is obtained; the delivery warehouse address, the receiving address and the logistics route are transmitted to a communication terminal and a logistics platform of a worker, and the worker can deliver the goods according to the delivery warehouse address, the receiving address and the logistics route; compared with the prior art, the method realizes the acquisition of the address of the delivery warehouse according to the goods information and the receiving address in the ordering information, thereby realizing the function of intelligently selecting the warehouse; according to the receiving address and the delivery warehouse address, the logistics route of the goods is acquired, and the acquired logistics route is transmitted to the staff; the staff according to the logistics route, alright realized the delivery to the goods, solved the delivery to the goods among the conventional art and relied on the freight transport experience of staff completely to carry out the defect of delivering to the goods, also shortened the required time to the goods delivery simultaneously to logistics distribution efficiency has further been improved.

In one embodiment, the steps of: determining a delivery address according to the receiving address and the goods information in the ordering information; the method specifically comprises the following steps:

acquiring a plurality of delivery addresses of the goods corresponding to the goods information according to the goods information in the ordering information;

and acquiring a delivery address closest to the receiving address from the plurality of delivery addresses according to the receiving address in the ordering information. According to the technical scheme, the multiple delivery addresses of the goods corresponding to the goods information are acquired according to the goods information; and according to the receiving address in the ordering information, the delivery address closest to the receiving address is selected from the delivery addresses, so that the delivery address is selected.

In one embodiment, the steps of: acquiring a delivery warehouse address according to the delivery address; the method specifically comprises the following steps:

acquiring a plurality of warehouse addresses containing goods in delivery addresses;

acquiring a warehouse address containing the largest quantity information of goods in the plurality of warehouse addresses, and taking the warehouse address containing the largest quantity information of goods as a first delivery warehouse address;

acquiring a warehouse address which contains the largest quantity information of the goods except the first delivery warehouse address from the plurality of warehouse addresses, and taking the warehouse address which contains the largest quantity information of the goods except the first delivery warehouse address as a second delivery warehouse address;

acquiring current working state information of a first delivery warehouse address;

acquiring current working state information of a second delivery warehouse address;

and comparing the current working state information of the first delivery warehouse address with the current working state information of the second delivery warehouse address, and selecting the delivery warehouse address with lighter current working state information as the delivery warehouse address. In the technical scheme, the warehouse addresses with the largest quantity information and the next warehouse addresses of the cargos are acquired from the shipping addresses and are respectively used as a first shipping warehouse address and a second shipping warehouse address; and respectively acquiring the current working state information of the first delivery warehouse address and the second delivery warehouse address, and selecting the delivery warehouse address with the current working state information being relatively light as the delivery warehouse address, thereby realizing the selection of the delivery warehouse according to the quantity of goods and the working state of the warehouse.

In one embodiment, the current job status information includes information on the number of workers currently at the shipping warehouse location, information on the number of shipments to be delivered, and shipping queue information. According to the technical scheme, the acquisition of the working state information is realized according to the quantity information of the current staff of the delivery warehouse address, the quantity information of the goods to be delivered and the delivery queuing information.

In one embodiment, the steps of: acquiring a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address; the method specifically comprises the following steps:

acquiring a plurality of preselected logistics routes according to the receiving address and the delivery warehouse address;

acquiring a plurality of cost price information respectively corresponding to the distribution of goods by adopting a plurality of pre-selected logistics routes;

acquiring payment information in order placing information based on a logistics platform;

screening out a plurality of pre-selected logistics routes with cost price information higher than payment information in the plurality of pre-selected logistics routes, and acquiring a plurality of pre-selected logistics routes with cost price information lower than the payment information;

acquiring a plurality of time information which is screened out according to the payment information and corresponds to the distribution of the goods by adopting a plurality of pre-selected logistics routes;

and obtaining a preselected logistics route corresponding to the shortest time information in a plurality of time information respectively corresponding to the delivery of the goods by adopting a plurality of preselected logistics routes after the screening, and taking the preselected logistics route as a logistics route. According to the technical scheme, a plurality of preselected logistics routes are obtained according to the receiving address and the delivery warehouse address; comparing a plurality of pieces of cost price information corresponding to the plurality of preselected logistics routes with payment information in order placing information, screening out the preselected logistics routes of which the corresponding cost price information is higher than the payment information, acquiring a plurality of pieces of time information corresponding to the delivery of the goods by adopting the plurality of preselected logistics routes after screening out, acquiring the preselected logistics route corresponding to the shortest time information in the plurality of pieces of time information, and taking the preselected logistics route as the logistics route, thereby realizing the acquisition of the logistics route; according to the technical scheme, the shortest route is selected as the logistics route while the logistics cost is guaranteed, and therefore the delivery efficiency of goods is effectively improved.

In one embodiment, the steps of: according to the receiving address and the delivery warehouse address, after the logistics route of the goods corresponding to the goods information is obtained, the method further comprises the following steps:

acquiring traffic condition information corresponding to the logistics route according to the logistics route;

optimizing the logistics route according to the traffic condition information to obtain the optimized logistics route;

and acquiring the time required for distributing the goods by adopting the optimized logistics route according to the optimized logistics route and the traffic condition information corresponding to the optimized logistics route, and transmitting the time required for distributing the goods by adopting the optimized logistics route and the optimized logistics route to the communication terminal and the logistics platform of the worker. According to the technical scheme, the logistics route is optimized according to the traffic condition information, the time required for distributing the goods by the optimized logistics route and the optimized logistics route is transmitted to the communication terminal and the logistics platform of the worker, so that the logistics route is optimized, the optimized logistics route and the corresponding time are transmitted to the communication terminal and the logistics platform of the worker, and the worker can distribute the goods according to the optimized logistics route.

In one embodiment, the steps of: optimizing the logistics route according to the traffic condition information to obtain the optimized logistics route; the method specifically comprises the following steps:

dividing the logistics route into a plurality of sub-logistics routes;

acquiring time information required for distributing goods by adopting a sub-logistics route according to the traffic condition information;

acquiring a starting position and an end position of the sub-logistics route;

acquiring a plurality of standby sub-routes of the sub-logistics route according to the starting position and the ending position of the sub-logistics route;

acquiring a plurality of pieces of traffic condition information corresponding to a plurality of standby sub-routes;

acquiring a plurality of pieces of time information respectively required for goods distribution by adopting a plurality of standby sub-routes according to a plurality of standby sub-routes and a plurality of pieces of traffic condition information corresponding to the plurality of standby sub-routes;

comparing the time information required by the cargo delivery by adopting the sub-logistics route with a plurality of time information respectively required by the cargo delivery by adopting a plurality of standby sub-routes to obtain a route corresponding to the shortest time information, and taking the route as the optimized sub-logistics route;

obtaining a plurality of optimized sub-logistics routes corresponding to the plurality of sub-logistics routes;

and synthesizing the plurality of optimized sub-logistics routes to obtain the optimized logistics route. According to the technical scheme, the logistics route is divided into a plurality of sub-logistics routes, and time information required for distributing goods by adopting the sub-logistics routes is obtained according to the traffic condition information; acquiring a plurality of standby sub-routes of the sub-logistics route and a plurality of pieces of traffic condition information corresponding to the standby sub-routes according to the starting position and the ending position of the sub-logistics route; according to the plurality of standby sub-routes and the plurality of traffic condition information corresponding to the plurality of standby sub-routes, a plurality of time information respectively needed for goods distribution by adopting the plurality of standby sub-routes is obtained; comparing the time information required by the cargo delivery by adopting the sub-logistics route with a plurality of time information respectively required by the cargo delivery by adopting a plurality of standby sub-routes, acquiring a route corresponding to the shortest time information, and taking the route as the optimized sub-logistics route; repeating the steps on the plurality of divided sub-logistics routes to obtain a plurality of corresponding optimized sub-logistics routes, and combining the plurality of optimized sub-logistics routes to realize the optimization of the logistics routes; the sub-logistics routes after optimization processing are combined, so that the optimization processing of the logistics routes is realized; according to the technical scheme, the logistics route is divided into the plurality of sub-logistics routes, the plurality of routes are obtained according to the starting points and the end points of the sub-logistics routes, the route with the shortest time is selected as the sub-logistics route after optimization processing according to the traffic conditions, optimization processing of the sub-logistics routes is achieved, the sub-logistics routes after optimization processing are combined, and therefore optimization processing of the logistics routes is achieved.

In one embodiment, the steps of: the delivery warehouse address, the receiving address and the logistics route are transmitted to a communication terminal and a logistics platform of a worker, and the worker delivers goods according to the delivery warehouse address, the receiving address and the logistics route, and the method specifically comprises the following steps:

the staff goes to a delivery warehouse corresponding to the delivery warehouse address according to the delivery warehouse address displayed by the communication terminal to obtain the goods;

when the staff acquires the goods, the goods taking information is transmitted to the logistics platform through the communication terminal;

the logistics platform is used for transmitting a position acquisition instruction to the communication terminal after receiving the goods taking information transmitted by the staff through the communication terminal;

the communication terminal is used for transmitting the position information of the communication terminal to the logistics platform when receiving the position acquisition instruction transmitted by the logistics platform; the staff delivers the goods according to the logistics route;

the logistics platform is also used for comparing the position information transmitted by the communication terminal with a logistics route, judging whether a worker delivers the goods according to the logistics route or not, and transmitting information deviating from the logistics route to the communication terminal of the worker when the position information transmitted by the communication terminal deviates from the logistics route so as to remind the worker to deliver the goods according to the logistics route; in the technical scheme, after receiving the delivery warehouse address, the receiving address and the logistics route through the communication terminal, a worker goes to the delivery warehouse corresponding to the delivery warehouse address to obtain goods, and transmits goods taking information to the logistics platform through the communication terminal; after receiving goods taking information transmitted by a worker through a communication terminal, the logistics platform transmits a position acquisition instruction to the communication terminal; the communication terminal transmits the current position information of the communication terminal to the logistics platform; the logistics platform compares the position information transmitted by the communication terminal with the logistics route, judges that the worker deviates from the logistics route when delivering the goods when the comparison is inconsistent, and transmits information of the deviation of the logistics route to the communication terminal of the worker so as to remind the worker to deliver the goods according to the logistics route; according to the technical scheme, the current position of the goods is acquired in real time by acquiring the position information of the communication terminal, the position information is compared with the logistics route, the judgment of whether the worker deviates from the logistics route during goods delivery is realized, the real-time monitoring of the worker during goods delivery is further realized, and the worker is reminded when the worker delivers the goods deviating from the logistics route.

The method comprises the following steps: the logistics platform is used for transmitting a position acquisition instruction to the communication terminal after receiving the goods taking information transmitted by the staff through the communication terminal; the method specifically comprises the following steps:

the logistics platform is used for transmitting a cargo inspection instruction to the communication terminal after receiving the cargo taking information transmitted by the staff through the communication terminal;

the communication terminal is used for transmitting the image information of the goods and the order information on the goods to the logistics platform after receiving the goods detection instruction transmitted by the logistics platform;

the logistics platform is used for comparing the order placing information with the image information and the order information of the goods, and transmitting a position acquisition instruction to the communication terminal when the order placing information is consistent with the image information and the order information of the goods; and when the comparison is inconsistent, transmitting information of inconsistent goods inspection to the communication terminal so as to remind a worker of goods taking errors and timely process the goods. According to the technical scheme, after the logistics platform receives goods taking information transmitted by a worker through the communication terminal, a goods inspection instruction is transmitted to the communication terminal; after receiving a cargo detection instruction transmitted by the logistics platform, the communication terminal transmits image information of the cargo and order information on the cargo to the logistics platform; the logistics platform compares the order information with the image information and the order information of the goods, judges whether the goods acquired by the staff correspond to the order information or not, further realizes the inspection of the goods taken out by the staff, and reminds the staff of a goods taking error when judging that the goods acquired by the staff are inconsistent with the order information, and processes the goods in time.

In one embodiment, after the delivering the goods and the cooperatively recording, the method further includes:

acquiring a target name of the goods, calling a target attribute related to the target name based on a goods database, and determining the goods type of the goods based on the target attribute;

when the cargo type is a first type, performing laser scanning on the cargo type to obtain point cloud data of the cargo, and establishing a cargo structure related to the point cloud data based on a three-dimensional coordinate system;

when the cargo type is a second type, the cargo is not monitored in real time;

after the cargo structure is established, the method further comprises the following steps:

performing region division on the cargo structure to obtain a sub-region set

Wherein

region information representing an ith sub-region, and the cargo structure includes n sub-regions;

wherein,

，

region information indicating an m-th dot region in the i-th sub-region; m represents the total number of point regions in the ith sub-region;

calculating a first correlation value of each point area in the sub-area according to the following formula;

wherein,

a first associated value representing an ith sub-region;

region information indicating a j-th point region in the i-th sub-region;

region information indicating a j +1 th dot region in the ith sub-region;

region information indicating a j +2 th dot region in the ith sub-region;

representing average region information based on m point regions in the ith sub-region

And a function to be corrected of the corresponding average region damage information s;

calculating a second correlation value of each sub-region in the sub-region set based on the first correlation value and according to the following formula;

；

wherein,

a first associated value representing the i +1 th sub-region;

a first associated value representing the i +2 th sub-region;

judging whether the correlation factor corresponding to the second correlation value G is in a preset correlation range or not;

if so, monitoring the goods according to the interval time;

otherwise, presetting and marking the cargo structure based on the first correlation value and the second correlation value, transmitting and displaying a marking result, and pushing a corresponding warehouse based on the current position of the cargo to replace the new cargo.

In this embodiment, the first type and the second type are, for example, easily damaged and not easily damaged types.

The beneficial effects of the above technical scheme are: because the goods is at the in-process of delivery, the condition that the goods broke down probably exists, like the condition such as goods breakage, deformation, consequently, through judging the type of goods, be convenient for effectively monitor the goods, improve monitoring efficiency, through the point cloud data that acquires the goods, establish the goods structure, and then through carrying out the calculation of associated value to sub-region and point region, can effectual improvement to its judged result, be convenient for improve the goods change efficiency.

A cooperative configuration system for warehouse selection and distribution based on a logistics platform, as shown in fig. 2, the system includes: the system comprises an acquisition module 11, a delivery address module 12, a warehouse address module 13, a logistics route module 14 and a wireless communication module 15; wherein,

the acquisition module 11 is configured to acquire current ordering information based on a logistics platform;

the delivery address module 12 is configured to determine a delivery address according to the goods information and the receiving address in the ordering information;

the warehouse address module 13 is used for acquiring a delivery warehouse address according to the delivery address determined by the delivery address module 12;

the logistics route module 14 is configured to obtain a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address;

and the wireless communication module 15 is configured to transmit the delivery warehouse address and the receiving address acquired by the warehouse address module 13 and the logistics route acquired by the logistics route module 14 to a communication terminal and a logistics platform of a worker, and the worker delivers the goods according to the delivery warehouse address, the receiving address and the logistics route.

The working principle of the system is as follows: the obtaining module 11 obtains current ordering information based on the logistics platform; the delivery address module 12 determines a delivery address according to the delivery information and the receiving address in the ordering information acquired by the acquisition module; the warehouse address module 13 acquires a delivery warehouse address according to the delivery address determined by the delivery address module 12; the logistics route module 14 acquires a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address; the wireless communication module 15 transmits the delivery warehouse address and the receiving address in the ordering information acquired by the warehouse address module 13 and the logistics route acquired by the logistics route module 14 to the communication terminal and the logistics platform of the worker, and the worker delivers the goods according to the delivery warehouse address, the receiving address and the logistics route.

The beneficial effect of above-mentioned system lies in: the delivery address module acquires the delivery address through the goods information and the receiving address in the ordering information acquired by the logistics platform; the warehouse address module is used for acquiring the shipping warehouse address according to the shipping address; the logistics route of the goods corresponding to the goods information is acquired through the logistics route module according to the receiving address and the delivery warehouse address; the delivery warehouse address, the receiving address and the logistics route are transmitted to the communication terminal and the logistics platform of the worker through the wireless communication module, and the worker can deliver the goods according to the delivery warehouse address, the receiving address and the logistics route; compared with the prior art, the system realizes the acquisition of the delivery warehouse address according to the goods information and the receiving address in the ordering information, thereby realizing the function of intelligently selecting the warehouse; according to the receiving address and the delivery warehouse address, the logistics route of the goods is acquired, and the acquired logistics route is transmitted to the staff; the staff according to the logistics route, alright realized the delivery to the goods, solved the delivery to the goods among the conventional art and relied on the freight experience of staff completely to carry out the defect of delivering to the goods, also shortened the required time to the goods delivery simultaneously to logistics distribution efficiency has further been improved.

In one embodiment, the wireless communication module, as shown in fig. 3, includes an AC power source AC, a control chip U1, a communication chip U2, a resistor R1, a resistor R2, a resistor R3, a resistor R4, a thermistor R5, a thermistor R6, a capacitor C1, a capacitor C2, a capacitor C3, a capacitor C4, a diode D1, a diode D2, a diode D3, an inductor L1, an inductor L2, a triode VT, a voltage suppression diode VD1, and a voltage suppression diode VD 2;

an alternating current power supply AC is connected with the SW end of the control chip U1 through a diode D2 and an inductor L2, a capacitor C3 is connected with a capacitor C4 in parallel, a diode D1 and a capacitor C2 are connected with the VDD end of the control chip U1 in parallel, the GND end of the control chip U1 is connected with an inductor L1, and the capacitor C1 and a diode D3 are connected with the ground in parallel;

the logistics route module and the warehouse address module are connected with the base electrode of the triode VT through a resistor R1, a resistor R1 and a resistor R3 are connected in series with the emitting electrode of the triode VT, one end of the emitting electrode of the triode VT is connected with the inductor L through a resistor R2, the other end of the emitting electrode of the triode VT is connected with the RE end and the DE end of the communication chip U2, the logistics route module and the warehouse address module are connected with the D1 end of the communication chip U2, the GND end of the communication chip U2 is grounded, the GND end of the communication chip U2 is connected in parallel with the two ends of a capacitor C1, the voltage suppression diode 85VD 25 is connected in series with the voltage suppression diode VD2, and the thermistor R5 and the thermistor R6 are connected in parallel with the two ends of A, B of the communication chip U2.

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

Claims (10)

1. A collaborative configuration method for warehouse selection and distribution based on a logistics platform is characterized by comprising the following steps:

acquiring current ordering information based on the logistics platform;

determining a delivery address according to the goods information and the receiving address in the ordering information;

acquiring a delivery warehouse address according to the delivery address;

acquiring a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address;

and transmitting the delivery warehouse address, the receiving address and the logistics route to a communication terminal of a worker and the logistics platform, and delivering the goods and simultaneously carrying out cooperative recording by the worker according to the delivery warehouse address, the receiving address and the logistics route.

2. The method of claim 1, wherein determining a shipping address based on the shipping address and the goods information in the ordering information; the method specifically comprises the following steps:

acquiring a plurality of delivery addresses of the goods corresponding to the goods information according to the goods information in the ordering information;

and acquiring a delivery address closest to the receiving address from a plurality of delivery addresses according to the receiving address in the ordering information.

3. The method of claim 1, wherein a shipping warehouse address is obtained based on the shipping address; the method specifically comprises the following steps:

acquiring a plurality of warehouse addresses containing the goods in the delivery addresses;

acquiring a warehouse address containing the largest quantity information of the goods in a plurality of warehouse addresses, and taking the warehouse address containing the largest quantity information of the goods as a first delivery warehouse address;

acquiring a warehouse address which contains the largest quantity information of the goods except the first delivery warehouse address from a plurality of warehouse addresses, and taking the warehouse address which contains the largest quantity information of the goods except the first delivery warehouse address as a second delivery warehouse address;

acquiring the current working state information of the first delivery warehouse address;

acquiring current working state information of the second delivery warehouse address;

and comparing the current working state information of the first delivery warehouse address with the current working state information of the second delivery warehouse address, and selecting the delivery warehouse address with lighter current working state information as the delivery warehouse address.

4. The method of claim 3,

the current working state information comprises the quantity information of the current staff of the delivery warehouse address, the quantity information of the goods to be delivered and delivery queuing information.

5. The method according to claim 1, wherein a logistics route of the goods corresponding to the goods information is obtained according to the receiving address and the delivery warehouse address; the method specifically comprises the following steps:

acquiring a plurality of preselected logistics routes according to the receiving address and the delivery warehouse address;

acquiring a plurality of cost price information respectively corresponding to the distribution of the goods by adopting a plurality of preselected object flow lines;

acquiring payment information in the order placing information based on the logistics platform;

screening out a plurality of preselected logistics routes corresponding to the condition that the cost price information is higher than the payment information from the plurality of preselected logistics routes, and acquiring a plurality of preselected logistics routes corresponding to the condition that the cost price information is lower than the payment information;

acquiring a plurality of time information which is screened out according to the payment information and corresponds to the delivery of the goods by adopting a plurality of preselected logistics routes respectively;

and acquiring the preselected logistics route corresponding to the shortest time information in the plurality of time information respectively corresponding to the delivery of the goods by adopting the plurality of preselected logistics routes after the screening, and taking the preselected logistics route as the logistics route.

6. The method according to claim 1, wherein a logistics route of the goods corresponding to the goods information is obtained according to the receiving address and the delivery warehouse address; then, the method further comprises the following steps:

acquiring traffic condition information corresponding to the logistics route according to the logistics route;

optimizing the logistics route according to the traffic condition information to obtain the optimized logistics route;

according to the logistics route after optimization and the traffic condition information corresponding to the logistics route after optimization, acquiring the time required for distributing the goods by adopting the logistics route after optimization, and transmitting the time required for distributing the goods by adopting the logistics route after optimization and the time required for distributing the goods by adopting the logistics route after optimization to a communication terminal of a worker and the logistics platform;

optimizing the logistics route according to the traffic condition information to obtain the optimized logistics route; the method specifically comprises the following steps:

dividing the logistics route into a plurality of sub-logistics routes;

acquiring time information required for distributing the goods by adopting the sub-logistics route according to the traffic condition information;

acquiring a starting position and an end position of the sub-logistics route;

acquiring a plurality of standby sub-routes of the sub-logistics route according to the starting position and the ending position of the sub-logistics route;

acquiring a plurality of pieces of traffic condition information corresponding to a plurality of standby sub-routes;

acquiring a plurality of pieces of time information respectively required for distributing the goods by adopting a plurality of spare sub-routes according to the plurality of spare sub-routes and a plurality of pieces of traffic condition information corresponding to the plurality of spare sub-routes;

comparing the time information required for distributing the goods by adopting the sub-logistics route with a plurality of pieces of time information respectively required for distributing the goods by adopting a plurality of standby sub-routes, acquiring a route corresponding to the shortest time information, and taking the route as the optimized sub-logistics route;

obtaining a plurality of optimized sub-logistics routes corresponding to the plurality of sub-logistics routes;

and synthesizing the plurality of sub-logistics routes after optimization processing to obtain the logistics routes after optimization processing.

7. The method of claim 1, wherein the delivery warehouse address, the receiving address, and the logistics route are transmitted to a communication terminal of a worker and the logistics platform, the worker delivering the goods according to the delivery warehouse address, the receiving address, and the logistics route; the method specifically comprises the following steps:

the staff goes to a delivery warehouse corresponding to the delivery warehouse address according to the delivery warehouse address displayed by the communication terminal to obtain the goods;

when the staff acquires the goods, the goods taking information is transmitted to the logistics platform through the communication terminal;

the logistics platform is used for transmitting a position acquisition instruction to the communication terminal after receiving the goods taking information transmitted by the staff through the communication terminal;

the communication terminal is used for transmitting the position information of the communication terminal to the logistics platform when receiving the position acquisition instruction transmitted by the logistics platform; the staff delivers the goods according to the logistics route;

the logistics platform is further used for comparing the position information transmitted by the communication terminal with the logistics route, judging whether a worker delivers the goods according to the logistics route, and transmitting information deviating from the logistics route to the communication terminal of the worker when the position information transmitted by the communication terminal deviates from the logistics route so as to remind the worker to deliver the goods according to the logistics route;

the logistics platform is used for transmitting a position acquisition instruction to the communication terminal after receiving the goods taking information transmitted by the staff through the communication terminal; the method specifically comprises the following steps:

the logistics platform is used for transmitting a cargo inspection instruction to the communication terminal after receiving the cargo taking information transmitted by the staff through the communication terminal;

the communication terminal is used for transmitting the image information of the goods and the order information on the goods to the logistics platform after receiving the goods detection instruction transmitted by the logistics platform;

the logistics platform is used for comparing the order placing information with the image information and the order information of the goods, and transmitting a position obtaining instruction to the communication terminal when the order placing information is consistent with the image information and the order information of the goods; and when the comparison is inconsistent, transmitting information of inconsistent cargo inspection to the communication terminal so as to remind a worker of cargo taking errors and timely process the cargo.

8. The method of claim 1, wherein delivering the goods while the collaborative record is being performed further comprises:

acquiring a target name of the goods, calling a target attribute related to the target name based on a goods database, and determining the goods type of the goods based on the target attribute;

when the cargo type is a first type, performing laser scanning on the cargo type to obtain point cloud data of the cargo, and establishing a cargo structure related to the point cloud data based on a three-dimensional coordinate system;

when the cargo type is a second type, the cargo is not monitored in real time;

after the cargo structure is established, the method further comprises the following steps:

performing region division on the cargo structure to obtain a sub-region set

Wherein

region information representing an ith sub-region, and the cargo structure includes n sub-regions;

wherein,

，

region information indicating an m-th dot region in the i-th sub-region; m represents the total number of point regions in the ith sub-region;

calculating a first correlation value of each point area in the sub-area according to the following formula;

wherein,

a first associated value representing an ith sub-region;

region information indicating a j-th point region in the i-th sub-region;

region information indicating a j +1 th dot region in the ith sub-region;

region information indicating a j +2 th dot region in the ith sub-region;

representing average region information based on m point regions in the ith sub-region

And a function to be corrected of the corresponding average region damage information s;

calculating a second correlation value of each sub-region in the sub-region set based on the first correlation value and according to the following formula;

wherein,

a first associated value representing the i +1 th sub-region;

a first associated value representing the i +2 th sub-region;

judging whether the correlation factor corresponding to the second correlation value G is in a preset correlation range or not;

if so, monitoring the goods according to the interval time;

otherwise, presetting and marking the cargo structure based on the first correlation value and the second correlation value, transmitting and displaying a marking result, and pushing a corresponding warehouse based on the current position of the cargo to replace the new cargo.

9. A coordinated configuration system for warehouse selection and distribution based on a logistics platform is characterized by comprising: the system comprises an acquisition module, a delivery address module, a warehouse address module, a logistics route module and a wireless communication module; wherein,

the acquisition module is used for acquiring current ordering information based on the logistics platform;

the delivery address module is used for determining a delivery address according to the goods information and the receiving address in the ordering information;

the warehouse address module is used for acquiring a delivery warehouse address according to the delivery address determined by the delivery address module;

the logistics route module is used for acquiring a logistics route of the goods corresponding to the goods information according to the receiving address and the delivery warehouse address;

the wireless communication module is used for transmitting the delivery warehouse address, the receiving address and the logistics route line acquired by the logistics route module, which are acquired by the warehouse address module, to a communication terminal of a worker and the logistics platform, and the worker delivers the goods according to the delivery warehouse address, the receiving address and the logistics route line and carries out collaborative recording.

10. The system of claim 9,

the wireless communication module comprises an alternating current power supply AC, a control chip U1, a communication chip U2, a resistor R1, a resistor R2, a resistor R3, a resistor R4, a thermistor R5, a thermistor R6, a capacitor C1, a capacitor C2, a capacitor C3, a capacitor C4, a diode D1, a diode D2, a diode D3, an inductor L1, an inductor L2, a triode VT, a voltage suppression diode VD1 and a voltage suppression diode VD 2;

the alternating current power supply AC is connected with the SW end of the control chip U1 through the diode D2 and the inductor L2, the capacitor C3 is connected with the capacitor C4 in parallel, the diode D1 and the capacitor C2 are connected with the VDD end of the control chip U1 in parallel, the GND end of the control chip U1 is connected with the inductor L1, and the capacitor C1 and the diode D3 are connected with the ground in parallel;

the logistics route module and the warehouse address module are connected with the base electrode of the triode VT through the resistor R1, the resistor R1 and the resistor R3 are connected in series with the emitting electrode of the triode VT, one end of the emitting electrode of the triode VT is connected with the inductor L1 through the resistor R2, the other end of the emitting electrode of the triode VT is connected with the RE end and the DE end of the communication chip U2, the logistics route module and the warehouse address module are connected with the D1 end of the communication chip U2, the GND end of the communication chip U2 is grounded, the VCC end of the communication chip U2 is connected in parallel with the two ends of the capacitor C1, the voltage suppression diode VD1 is connected in series with the voltage suppression diode VD2, and the thermistor R5 and the thermistor R6 are connected in parallel with the two ends of the A, B of the communication chip U2.

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