CN114548879A - Logistics data conversion system and method based on cloud resources - Google Patents

Abstract

The invention discloses a logistics data conversion system and method based on cloud resources, belongs to the technical field of data conversion systems, and solves the problem of low consistency of online and offline logistics data. The logistics data in the logistics data conversion process is transmitted through the data interaction system, the online and offline logistics information is highly consistent, and logistics information is provided for goods distribution, goods loss and goods rejection return, so that goods can be found and tracked.

Description

Logistics data conversion system and method based on cloud resources

Technical Field

The invention relates to the technical field of data conversion systems, in particular to a logistics data conversion system and method based on cloud resources.

Background

The logistics system is an organic aggregate comprising two or more logistics functional units for the purpose of completing logistics services. The "input" of the logistics system refers to the process of providing the elements such as labor, equipment, materials, resources and the like required by the logistics links such as purchasing, transportation, storage, circulation processing, loading, unloading, carrying, packaging, selling, logistics information processing and the like to the system from the external environment. The logistics system is an organic whole with specific functions, which is formed by materials to be conveyed and a plurality of dynamic elements which are mutually restricted and comprise related equipment, conveying tools, storage equipment, personnel, communication connection and the like in a certain time and space. The successful elements of the logistics system are to optimize and rationalize the whole logistics system, comply with or improve the environment of a large social system, and simultaneously need online logistics data highly consistent with actual logistics information.

The logistics data refers to various logistics activity contents uploaded to a logistics system, and comprises general names of logistics knowledge, data, images, data and files, the logistics data is a premise of logistics planning and logistics scheme design and implementation, and logistics participants can make correct decisions only by means of accurate first-hand logistics data. However, the conventional system has low acquisition frequency of off-line logistics information, generally, goods are transported to a transfer station and then uploaded, and logistics data of the system is updated according to the uploaded logistics information after the logistics information is uploaded, so that the consistency of the on-line off-line logistics data is low, the difficulty of searching the goods after being lost is large, the logistics information is disordered, and the degree of mastering of logistics participants on actual logistics is low.

Disclosure of Invention

The invention aims to provide a logistics data conversion system and method based on cloud resources, wherein a data interaction system is arranged to transmit logistics data in a logistics data conversion process, so that the online and offline logistics information is highly consistent, and the problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a logistics data conversion system based on cloud resources comprises an ex-warehouse system, a delivery system and an in-warehouse system which are sequentially connected, wherein the ex-warehouse system and the delivery system, the adjacent delivery systems and the delivery system and the in-warehouse system are connected through data interaction systems, the adjacent data interaction systems are connected with each other, and each data interaction system, the ex-warehouse system and the in-warehouse system are connected with a cloud database.

Further, the ex-warehouse system comprises an article data unit and an ex-warehouse information data unit, wherein the article data unit is used for inputting, recording and outputting article data, and the ex-warehouse information data unit is used for collecting, verifying and transferring ex-warehouse and in-warehouse information.

Further, the ex-warehouse information data unit comprises a shipper information input unit, a face image acquisition unit, a face information recognition unit and a private information data packet generation unit, wherein the face image acquisition unit is connected with the face information recognition unit and used for acquiring face image information of a shipper and sending the face image information of the shipper to the face information recognition unit, the face information recognition unit recognizes the face characteristics of the shipper and sends the face characteristic information of the shipper to the private information data packet generation unit, the shipper information input unit is used for recording identity information input by the shipper and sending the identity information input by the shipper to the private information data packet generation unit, and the private information data packet generation unit verifies the identity of the shipper according to the identity information input by the shipper and the face image information of the shipper, and generating a privacy information data packet with a secret key, wherein the privacy information data packet stores the identity information of the shipper.

Further, the article data unit comprises an article scanning unit, an ex-warehouse information input unit, an ex-warehouse information data packet generation unit and an ex-warehouse receipt generation unit, the article scanning unit is used for scanning and detecting whether the ex-warehouse articles belong to articles regulated by illegal logistics transportation, the ex-warehouse information input unit is used for a shipper to fill in the address of the warehouse, the relevant information of the consignee and the contact way of the consignee and sending the relevant information to the ex-warehouse information data packet generation unit, the ex-warehouse information data packet generation unit generates an ex-warehouse information data packet, the address of the warehouse, the contact way of the consignee and the consignee are stored in the ex-warehouse information data packet, logistics information generated along with the flow of ex-warehouse logistics is recorded in the ex-warehouse information data packet, the ex-warehouse information data packet generation unit is connected with the ex-warehouse receipt generation unit, and the ex-warehouse receipt generation unit generates the ex-warehouse receipt according to the address of the warehouse, and generating a delivery address, a virtual number and a manifest number by the consignee and the related information of the consignee contact way, and sending the manifest number to the mobile phone of the consignee.

Furthermore, the delivery system comprises code scanning equipment and a positioner, the delivery system receives the ex-warehouse address information produced by the ex-warehouse system through the code scanning equipment, plans an ex-warehouse route according to the ex-warehouse address information, and the positioner records the ex-warehouse route and positions the position where logistics flow in real time.

Further, the warehousing system is used for receiving the warehousing signing information and sending the ex-warehouse information data packet and the privacy information data packet which are transmitted to the warehousing system to the cloud database according to the signing information.

Furthermore, the data interaction system comprises a data packet shifting-in unit, a data packet shifting-out unit, a logistics information loading unit, a logistics information reading unit and a logistics information output unit, wherein the logistics information reading unit reads the logistics information of the next system, and sends the logistics information to a logistics information loading unit and a logistics information output unit, wherein the logistics information loading unit records the logistics information into an outbound information data packet, the logistics information output unit sends the logistics information to the internet, the shipper or the consignee inquires the logistics information through the internet, the data packet moving-in unit moves the privacy information data packet and the ex-warehouse information data packet from the last system to the data interaction system, and the data packet shifting-out unit is used for transferring the privacy information data packet and the ex-warehouse information data packet in the data interaction system to the next system.

Furthermore, the data interaction system reads the logistics position information positioned by the positioner, and triggers the data interaction system to transfer the privacy information data packet and the ex-warehouse information data packet according to the logistics position information.

Further, the cloud database comprises a storage unit, a deletion unit and a classification unit, the ex-warehouse system, the data interaction system and the in-warehouse system sequentially send logistics information to the storage unit of the cloud database, the storage unit is connected with the deletion unit, the deletion unit is used for deleting logistics information stored last time after next logistics information of the same cargo is sent, the in-warehouse system sends logistics information to the storage unit and simultaneously sends a privacy information data packet and an ex-warehouse information data packet to the storage unit, the storage unit is connected with the classification unit, and the classification unit is used for classifying the logistics information, the privacy information data packet and the ex-warehouse information data packet.

According to another aspect of the present invention, there is provided a method for cloud resource-based logistics data conversion, including the following steps:

s101: the ex-warehouse system generates logistics data, transfers the logistics data to the data interaction system, and backs up logistics information to the cloud database;

s102: the data interaction system reads real-time logistics information provided by the transmission system, changes and updates logistics data, transfers the logistics data according to the real-time logistics information, backs up the updated logistics information to the cloud database, and deletes the logistics information stored before;

s103: and after the warehousing system reads the goods and signs, the logistics information and the logistics data are sent to the cloud database, and the cloud database deletes the logistics data stored before.

Preferably, the warehouse-out system further comprises:

the logistics data acquisition unit: the system is used for acquiring logistics information and monitoring the real-time state of a logistics vehicle; wherein the content of the first and second substances,

the logistics information comprises: logistics mileage, logistics vehicle type, logistics vehicle consumption, logistics vehicle state, logistics transfer data, logistics transfer point state, logistics personnel consumption, logistics time consumption and logistics line state;

the real-time status includes: abnormal logistics state and normal logistics state;

abnormal monitoring unit of commodity circulation: the system is used for judging whether to carry out logistics transportation according to the logistics information when the logistics is in an abnormal state;

logistics cost accounting unit: when the logistics transportation is needed, the logistics cost accounting is carried out according to the logistics information; wherein the content of the first and second substances,

the logistics cost accounting comprises: planning logistics cost accounting, performing logistics cost accounting and residual logistics cost accounting;

cost line union unit: the system is used for determining a warehouse logistics line according to the logistics information and logistics cost accounting, and establishing a combined verification mechanism based on cost consumption reduction and logistics progress; wherein the content of the first and second substances,

the cost consumption reduction and logistics progress combined evidence verification mechanism is used for determining logistics cost, reducing the logistics cost according to the logistics progress and determining real-time consumption cost and real-time remaining cost;

a logistics route re-planning unit: according to the real-time residual cost, carrying out logistics line re-planning and judging whether a first target line exists or not; wherein the content of the first and second substances,

the cost of the first target line does not exceed the real-time remaining cost;

a line screening unit: the route priority calculation module is used for calculating the priority of the route when the first target route exists, determining the priority value and screening the target route with the highest priority value as a replanned route; wherein the content of the first and second substances,

the highest priority value is that in the calculation of the line priority, a product sum is determined through the product of line time and time weight and the product of line cost and cost weight, and the maximum value of the product sum is the highest priority value;

a line reselection unit: and when the first target line does not exist, acquiring all lines which can be replanned, selecting the line with the lowest cost from all the lines as a replanned line, performing cost overflow calculation based on a cost consumption reduction and logistics progress combined evidence printing mechanism, and performing logistics personnel and logistics vehicle planning compression according to the cost overflow calculation.

Preferably, the warehousing system is further configured to perform information comparison on the ex-warehouse information data packet and the privacy information data packet, and perform warehousing verification;

which comprises the following steps:

step 1: classifying and analyzing the ex-warehouse information data packets and the privacy information data packets, determining different types of ex-warehouse information, and generating an ex-warehouse information data set A and a privacy information data set B;

A＝{a₁，a₂，a₃……a_i}

B＝{b₁，b₂，b₃……b_j}

wherein, a_iType characteristics representing the ith type of ex-warehouse information; b_jType features representing a jth type of private information; 1, 2, 3 … … n; n represents the total number of categories of the ex-warehouse information; j is 1, 2, 3 … … m; m represents the total number of categories of the private information;

step 2: according to the ex-warehouse information data set A and the privacy information data set B, a data correlation judgment model is constructed, and whether the data are the same or not is judged:

wherein q is_iThe content characteristics represent the ith type of ex-warehouse information; w is a_jContent characteristics representing the jth class of privacy information; when X is 1, the warehouse-out information data packet and the privacy information data packet are the same, and the warehouse-in is correct; and when X is not equal to 1, the warehouse-out information data packet is different from the privacy information data packet, and the warehouse entry is wrong.

Compared with the prior art, the invention has the beneficial effects that:

1. the logistics data conversion system and method based on cloud resources provided by the invention are provided with the data interaction system for transmitting logistics data in the logistics data conversion process, the logistics data are prevented from being lost, the logistics data can be ensured to be transferred along with implemented goods movement, the height of online and offline logistics information is consistent, and logistics information is provided for goods distribution, goods loss and goods rejection return so as to search and track the goods;

2. according to the logistics data conversion system and method based on the cloud resources, the private information data packet with the secret key is set to store the personal information of the shipper, the delivery address, the virtual number and the manifest number are generated according to the address of the warehouse entry, the relevant information of the consignee and the consignee contact way, the personal privacy can be guaranteed in the logistics information transmission process, and therefore the information safety of the shipper and the consignee is guaranteed in two ways;

3. according to the logistics data conversion system and method based on the cloud resources, the deletion unit is used for deleting the logistics information stored last time after receiving the next logistics information of the same cargo, and the problems of confusion and reduction of storage space caused by repeated recording of the logistics information are solved.

Drawings

Fig. 1 is an overall structural view of a cloud resource-based logistics data conversion system of the present invention;

fig. 2 is a structure diagram of an ex-warehouse system of the cloud resource-based logistics data conversion system of the invention;

fig. 3 is a drawing illustrating a configuration of an ex-warehouse information data unit of the cloud resource-based logistics data conversion system according to the present invention;

fig. 4 is a diagram of an item data unit structure of the cloud resource-based logistics data conversion system of the invention;

fig. 5 is a structure diagram of a delivery system of the cloud resource-based logistics data conversion system of the invention;

fig. 6 is a data interaction system structure diagram of the cloud resource-based logistics data conversion system of the invention;

fig. 7 is a diagram illustrating a cloud database structure of the cloud resource-based logistics data conversion system according to the present invention;

fig. 8 is a flowchart of a method for cloud resource-based logistics data conversion according to the present invention.

In the figure: 1. a warehouse-out system; 11. an item data unit; 111. an article scanning unit; 112. an ex-warehouse information input unit; 113. an ex-warehouse information data packet generating unit; 114. a delivery list generating unit; 12. an ex-warehouse information data unit; 121. a sender information input unit; 122. a face image acquisition unit; 123. a face information recognition unit; 124. a privacy information packet generation unit; 2. a delivery system; 21. code scanning equipment; 22. a positioner; 3. a warehousing system; 4. a data interaction system; 41. a packet move-in unit; 42. a packet removal unit; 43. a logistics information loading unit; 44. a logistics information reading unit; 45. a logistics information output unit; 5. a cloud database; 51. a storage unit; 52. a deletion unit; 53. and (5) a classification unit.

Detailed Description

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

Referring to fig. 1, a logistics data conversion system based on cloud resources comprises an ex-warehouse system 1, a delivery system 2 and an in-warehouse system 3 which are connected in sequence, wherein the ex-warehouse system 1 and the delivery system 2, the adjacent delivery systems 2 and the delivery system 2 and the in-warehouse system 3 are connected through data interaction systems 4, the adjacent data interaction systems 4 are connected with each other, each data interaction system 4, the ex-warehouse system 1 and the in-warehouse system 3 are connected with a cloud database 5, the in-warehouse system 3 is used for receiving sign-off information of warehousing, and sending ex-warehouse information data packets and privacy information data packets which are transmitted to the in-warehouse system 3 to the cloud database 5 according to the sign-off information.

Referring to fig. 2, the delivery system 1 includes an article data unit 11 and a delivery information data unit 12, the article data unit 11 is used to input, record and output article data, and the delivery information data unit 12 is used to collect, verify and transfer delivery and storage information.

Referring to fig. 3, the shipment information data unit 12 includes a shipper information input unit 121, a facial image collecting unit 122, a facial information recognition unit 123, and a private information packet generation unit 124, the facial image collecting unit 122 and the facial information recognition unit 123 are connected to each other for collecting facial image information of a shipper and transmitting the facial image information of the shipper to the facial information recognition unit 123, the facial information recognition unit 123 recognizes a facial feature of the shipper and transmits shipper facial feature information to the private information packet generation unit 124, the shipper information input unit 121 is configured to record identity information that the shipper has autonomously input and transmit the identity information to the private information packet generation unit 124, the private information packet generation unit 124 verifies the identity of the shipper based on recording the identity information that the shipper has autonomously input and facial image information of the shipper, in the verification process, the privacy information data packet generation unit 124 is connected with an identity card system, verifies the authenticity of identity information through the face characteristics and the identity information, and keeps the privacy of personal information after verification, specifically, a data packet with a key is generated in a secret mode, the data packet stores information, the key is automatically generated, the personal privacy can be guaranteed in the logistics information transmission process, a privacy information data packet with the key is generated, and the identity information of a shipper is stored in the privacy information data packet.

Referring to fig. 4, the item data unit 11 includes an item scanning unit 111, an outbound information input unit 112, an outbound information data packet generating unit 113, and an outbound document generating unit 114, where the item scanning unit 111 is configured to scan and detect whether an outbound item belongs to an item specified by illegal logistics transportation, if the item is specified by illegal logistics transportation, the item is not transported, and if the item is not specified by illegal logistics transportation, the outbound item is normally transported, the outbound information input unit 112 is configured to allow a shipper to fill in an address of a warehouse, and related information of a contact manner between the shipper and send the related information to the outbound information data packet generating unit 113, the outbound information data packet generating unit 113 generates an outbound information data packet, the outbound information data packet stores the address of the warehouse, the contact manner between the shipper and the shipper, and logistics information generated along with the flow of the outbound logistics is recorded in the outbound information data packet, the delivery information data packet generating unit 113 is connected with a delivery order generating unit 114, the delivery order generating unit 114 generates a delivery address, a virtual number and a manifest number according to the address of the delivery, the information related to the contact information of the receiver and the receiver, the manifest number in the embodiment is used in cooperation with the manifest two-dimensional code or the manifest bar code, the manifest number can be replaced by the manifest two-dimensional code or the manifest bar code, and the manifest number is sent to the receiver's mobile phone, when the deliverer delivers the goods, the deliverer can directly send the goods to the delivery address, can contact the consignee to pick up the goods by dialing the telephone, and can also send the consignee to pick up the goods according to the order number, in the actual operation process, the deliverer sends the goods to the automatic goods taking cabinet at the community gate, and the receiver goes to the automatic goods taking cabinet according to the bill number to take the goods, so that the privacy safety of the deliverer and the receiver is guaranteed in two ways.

Referring to fig. 5, the delivery system 2 includes a code scanning device 21 and a locator 22, the delivery system 2 receives the outbound address information produced by the outbound system 1 through the code scanning device 21, and plans an outbound route according to the outbound address information, and the locator 22 records the outbound route and locates the position where the logistics flow in real time.

Referring to fig. 6, the data interactive system 4 includes a data packet transfer-in unit 41, a data packet transfer-out unit 42, a logistics information loading unit 43, a logistics information reading unit 44, and a logistics information output unit 45, the logistics information reading unit 44 reads logistics information of a next system and transmits the logistics information to the logistics information loading unit 43 and the logistics information output unit 45, the logistics information loading unit 43 records the logistics information into a warehouse-out information data packet, the logistics information output unit 45 transmits the logistics information to the internet, a shipper or a consignee inquires the logistics information through the internet, the data packet transfer-in unit 41 transfers a privacy information data packet and a warehouse-out information data packet from the previous system to the data interactive system 4, the data packet transfer-out unit 42 transfers the privacy information data packet and the warehouse-out information data packet in the data interactive system 4 to the next system, the data interaction system 4 reads the logistics position information located by the locator 22, and triggers the data interaction system 4 to transfer the privacy information data packet and the ex-warehouse information data packet according to the logistics position information.

Referring to fig. 7, the cloud database 5 includes a storage unit 51, a deletion unit 52 and a classification unit 53, the ex-warehouse system 1, the data interaction system 4 and the in-warehouse system 3 sequentially send logistics information to the storage unit 51 of the cloud database 5, the storage unit 51 is connected with the deletion unit 52, the deletion unit 52 is used for deleting logistics information stored last time after next logistics information of the same cargo is deleted, the in-warehouse system 3 sends the logistics information to the storage unit 51 and sends a privacy information data packet and an ex-warehouse information data packet to the storage unit 51 at the same time, the storage unit 51 is connected with the classification unit 53, the classification unit 53 is used for classifying the logistics information, the privacy information data packet and the ex-warehouse information data packet, and after the cloud database 5 receives the logistics information sent by the data interaction system 4, the deletion unit 52 is triggered to delete the ex-warehouse system 1.

Referring to fig. 8, in order to better show the process of converting logistics data based on cloud resources, the embodiment now provides a method for converting logistics data based on cloud resources, which includes the following steps:

s101: the ex-warehouse system 1 generates logistics data, transfers the logistics data to the data interaction system 4, and backups logistics information to the cloud database 5;

s102: the data interaction system 4 reads the real-time logistics information provided by the transmission system 2, changes and updates logistics data, transfers the logistics data according to the real-time logistics information, backs up the updated logistics information to the cloud database 5, and the cloud database 5 deletes the logistics information stored before;

s103: after reading the sign-in of the goods, the warehousing system 3 sends the logistics information and the logistics data to the cloud database 5, and the cloud database 5 deletes the logistics data stored before.

To sum up: the logistics data conversion system and method based on cloud resources provided by the invention are provided with the data interaction system 4 for transmitting logistics data in the logistics data conversion process, so that the logistics data are prevented from being lost, the logistics data can be ensured to be transferred along with the implemented goods movement, the height consistency of online and offline logistics information is achieved, and logistics information is provided for goods distribution, goods loss and goods rejection return so as to search and track the goods; setting a privacy information data packet with a secret key to store personal information of a shipper, generating a distribution address, a virtual number and a manifest number according to the address of a warehouse, the relevant information of a consignee and a consignee contact way, and ensuring that the personal privacy can be guaranteed in the logistics information transmission process, so that the information safety of the shipper and the consignee is guaranteed in two ways; the deleting unit 52 is utilized to delete the logistics information stored last time after receiving the next logistics information of the same cargo, so that the problems of disorder and reduction of storage space caused by repeated recording of the logistics information are avoided.

Preferably, the warehouse-out system 1 further includes:

the logistics data acquisition unit: the system is used for acquiring logistics information and monitoring the real-time state of a logistics vehicle; wherein the content of the first and second substances,

the logistics information comprises: logistics mileage, logistics vehicle type, logistics vehicle consumption, logistics vehicle state, logistics transfer data, logistics transfer point state, logistics personnel consumption, logistics time consumption and logistics line state;

the real-time status includes: abnormal logistics state and normal logistics state;

abnormal monitoring unit of commodity circulation: the system is used for judging whether to carry out logistics transportation according to the logistics information when the logistics is in an abnormal state;

logistics cost accounting unit: when the logistics transportation is needed, the logistics cost accounting is carried out according to the logistics information; wherein the content of the first and second substances,

the logistics cost accounting comprises: planning logistics cost accounting, performing logistics cost accounting and residual logistics cost accounting;

cost line association unit: the system is used for determining a warehouse logistics line according to the logistics information and logistics cost accounting, and establishing a combined verification mechanism based on cost consumption reduction and logistics progress; wherein the content of the first and second substances,

the cost consumption reduction and logistics progress combined evidence verification mechanism is used for determining logistics cost, reducing the logistics cost according to the logistics progress and determining real-time consumption cost and real-time remaining cost;

a logistics route re-planning unit: according to the real-time residual cost, carrying out logistics line re-planning and judging whether a first target line exists or not; wherein, the first and the second end of the pipe are connected with each other,

the cost of the first target line does not exceed the real-time remaining cost;

a line screening unit: the route priority calculation module is used for calculating the priority of the route when the first target route exists, determining the priority value and screening the target route with the highest priority value as a replanned route; wherein the content of the first and second substances,

the highest priority value is that in the calculation of the line priority, a product sum is determined through the product of line time and time weight and the product of line cost and cost weight, and the maximum value of the product sum is the highest priority value;

a line reselection unit: and when the first target line does not exist, acquiring all lines which can be replanned, selecting the line with the lowest cost from all the lines as a replanned line, performing cost overflow calculation based on a cost consumption reduction and logistics progress combined evidence printing mechanism, and performing logistics personnel and logistics vehicle planning compression according to the cost overflow calculation.

The principle of the technical scheme is as follows:

in the prior art, when a user goes out of a warehouse, although the process is perfect, the user can see where the sent goods arrive, in that logistics, and when the goods are not transferred, the user can also see through software that the specific goods are not transferred, and why the goods are not transferred, but in the process of logistics system goods transfer, there are problems that the products are already delivered, and then the user finds that some abnormalities exist in the logistics line of the user, for example: logistics outage caused by epidemic, fire or flood; at this time, the product is generally directly returned to the shipper again, and the shipper carries out the shipment again; but it is possible to actually plan the route again and directly transfer the goods at the transfer point, but often in this case the logistics may be more costly, which is also why most logistics options are not distributed directly back.

Based on the above factors, the present invention needs to be improved, because it is mainly a cost issue, so the present invention can be optimized only from the cost, so that in this case, it is possible to allow the user to receive the product and also to prevent the high overflow of the cost. In the method, whether the vehicle encounters abnormal factors such as fire, heavy water and epidemic conditions or not is judged through monitoring the sulfur information, so that the goods need to be stopped and cannot be transported, in practice, a driver can select one route from planned routes and a logistics party selects one road, but alternative routes are certainly available, and whether the alternative routes or the selected routes are within the logistics cost, the invention mainly judges the logistics abnormal state through the time consumption of the logistics routes and the states of the logistics routes, the states of logistics personnel, as the logistics personnel can perform logistics feedback, in the process of cost accounting, the invention plans the logistics cost accounting, the logistics cost accounting which is already carried out and the residual logistics cost accounting, namely the total cost accounting, reduces the cost accounting in the logistics process and leaves much cost in the total cost accounting. After cost accounting, we can correspond to the logistics progress according to the cost already consumed in the logistics process, for example: reaching the third transit point, in the planning of the cost schedule, should be thirty percent cost spent, the logistics schedule is also thirty percent. In this way, cost consumption can be prevented from being too fast, and the logistics vehicle can be judged where the logistics vehicle runs at all based on the cost, and if the logistics vehicle is disconnected, the general place where the logistics vehicle is located can be judged through cost accounting. The first target line is a line within the residual cost budget, and when an abnormal event is met, a proper planning line can be selected through the line with the residual cost budget, and invalid and reactive logistics can not be generated for merchants and logistics companies due to the fact that direct return voyage is caused by the problem of abnormal lines. And when the cost is not lower than the residual cost, the overflow logistics cost is calculated, and then logistics personnel and logistics vehicles are compressed. The cost of the overflowed material flow can be kept as much as possible by compressing the material flow personnel and the material flow vehicles to prevent the cost from overflowing or ensure that the cost is within the preset cost exceeding the threshold value.

The invention has the beneficial effects that: the invention can plan a new route within the residual cost by recalculating the residual cost when the logistics vehicle cannot run through the preset planning route in the case of an abnormal condition, thereby preventing logistics loss and merchant loss caused by the return journey of the logistics vehicle. However, when the remaining cost is not enough to plan a new route, the invention reduces the cost by selecting a route with the least cost of overflow and then compressing logistics personnel and logistics vehicles in the logistics, and the cost is overflow.

Preferably, the warehousing system 3 is further configured to perform information comparison on the ex-warehouse information data packet and the privacy information data packet, and perform warehousing verification;

which comprises the following steps:

step 1: classifying and analyzing the ex-warehouse information data packets and the privacy information data packets, determining different types of ex-warehouse information, and generating an ex-warehouse information data set A and a privacy information data set B;

A＝{a₁，a₂，a₃……a_i}

B＝{b₁，b₂，b₃……b_j}

wherein, a_iThe type characteristic represents the ith type of ex-warehouse information; b_jType features representing a jth type of private information; 1, 2, 3 … … n; n represents the total number of categories of the ex-warehouse information; j is 1, 2, 3 … … m; m represents the total number of categories of the private information;

in step 1, the method mainly performs statistics on the ex-warehouse information data and the privacy information data to judge which types of data exist, for example: the data processing method comprises the steps that a sender data, a sender face data, a vehicle data, a logistics worker data and the like are analyzed, and then a set of different types of data is generated after a warehouse information data packet and a privacy information data packet are analyzed, so that whether the data packets are the same or not is judged through comparison of the different types of data sets. The mode of the invention does not have the problem of packet loss rate through the comparison of the content under the type.

Step 2: according to the ex-warehouse information data set A and the privacy information data set B, a data correlation judgment model is constructed, and whether the data are the same or not is judged:

wherein q is_iThe content characteristics represent the ith type of ex-warehouse information; w is a_jContent characteristics representing the jth class of privacy information; when X is 1, the warehouse-out information data packet and the privacy information data packet are the same, and the warehouse-in is correct; and when X is not equal to 1, the warehouse-out information data packet is different from the privacy information data packet, and the warehouse entry is wrong.

In step 2, the mode of the invention is a Tanimoto correlation algorithm adopted for comparison, and the correlation algorithm is an algorithm for calculating intersection and union, and the invention judges that the ex-warehouse information data packet and the privacy information data packet areAny packet containing all the contents of the other packet means that they are the same. a is_i*q_iAnd b_j*w_jThe method is a calculation mode of multiplying the type by the content, and only under the condition that the type and the content are the same, the treasure can ensure that the data of the two are the same and the warehousing information has no error.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The logistics data conversion system based on the cloud resources is characterized by comprising an ex-warehouse system (1), transmission systems (2) and a warehouse-in system (3) which are sequentially connected, wherein the ex-warehouse system (1) is connected with the transmission systems (2), the adjacent transmission systems (2) are connected with each other, the transmission systems (2) are connected with the warehouse-in system (3) through data interaction systems (4), the adjacent data interaction systems (4) are connected with each other, and each data interaction system (4), the ex-warehouse system (1) and the warehouse-in system (3) are connected with a cloud database (5).

2. The cloud resource-based logistics data conversion system according to claim 1, wherein the ex-warehouse system (1) comprises an article data unit (11) and an ex-warehouse information data unit (12), the article data unit (11) is used for inputting, recording and outputting article data, the ex-warehouse information data unit (12) is used for collecting, verifying and transferring ex-warehouse and warehousing information, and the warehousing system (3) is used for receiving warehousing signing information and sending ex-warehouse information data packets and privacy information data packets which are transmitted to the warehousing system (3) to the cloud database (5) according to the signing information.

3. The cloud-resource-based logistics data conversion system of claim 2, wherein the ex-warehouse information data unit (12) comprises a shipper information input unit (121), a facial image collection unit (122), a facial information recognition unit (123), and a privacy information data packet generation unit (124), wherein the facial image collection unit (122) and the facial information recognition unit (123) are connected to each other for collecting facial image information of the shipper and sending the facial image information of the shipper to the facial information recognition unit (123), the facial information recognition unit (123) recognizes a facial feature of the shipper and sends the facial feature information of the shipper to the privacy information data packet generation unit (124), the shipper information input unit (121) is configured to record identity information which is input by the shipper and send the identity information which is input by the shipper to the privacy information data packet generation unit (124), the private information data packet generation unit (124) verifies the identity of the shipper according to identity information which is recorded and input by the shipper autonomously and facial image information of the shipper, and generates a private information data packet with a key, wherein the private information data packet stores identity information of the shipper.

4. The cloud-resource-based logistics data conversion system according to claim 2, wherein the item data unit (11) comprises an item scanning unit (111), an ex-warehouse information input unit (112), an ex-warehouse information data packet generation unit (113) and an ex-warehouse receipt generation unit (114), the item scanning unit (111) is configured to scan and detect whether the ex-warehouse items belong to the items regulated by illegal logistics transportation, the ex-warehouse information input unit (112) is configured to allow the shipper to fill in the warehousing address, the relevant information of the consignee and the consignee contact way, and send the relevant information to the ex-warehouse information data packet generation unit (113), the ex-warehouse information data packet generation unit (113) generates an ex-warehouse information data packet, and the ex-warehouse information data packet stores the warehousing address, the consignee and the consignee contact way, and logistics information generated along with the flow of ex-warehouse logistics is recorded in the ex-warehouse information data packet, the ex-warehouse information data packet generating unit (113) is connected with an ex-warehouse bill generating unit (114), and the ex-warehouse bill generating unit (114) generates a distribution address, a virtual number and a manifest number according to the address of warehousing, the consignee and the related information of the contact way of the consignee, and sends the manifest number to the mobile phone of the consignee.

5. The logistics data conversion system based on cloud resources of claim 1, wherein the delivery system (2) comprises a code scanning device (21) and a locator (22), the delivery system (2) receives the outbound address information produced by the outbound system (1) through the code scanning device (21) and plans the outbound route according to the outbound address information, and the locator (22) records the outbound route and locates the position of logistics flow in real time.

6. The cloud resource-based logistics data conversion system of claim 5, wherein the data exchange system (4) comprises a data packet moving-in unit (41), a data packet moving-out unit (42), a logistics information loading unit (43), a logistics information reading unit (44) and a logistics information output unit (45), the logistics information reading unit (44) reads logistics information of a next system and sends the logistics information to the logistics information loading unit (43) and the logistics information output unit (45), the logistics information loading unit (43) records the logistics information into a warehouse-out information data packet, the logistics information output unit (45) sends the logistics information to the Internet, a shipper or a consignee inquires the logistics information through the Internet, the data packet moving-in unit (41) moves a privacy information data packet and a warehouse-out information data packet from a previous system into the data exchange system (4), the data packet shifting-out unit (42) is used for transferring the privacy information data packet and the ex-warehouse information data packet in the data interaction system (4) to the next system, the data interaction system (4) reads logistics position information positioned by the positioner (22), and the data interaction system (4) is triggered to transfer the privacy information data packet and the ex-warehouse information data packet according to the logistics position information.

7. The cloud resource-based logistics data conversion system according to claim 1, wherein the cloud database (5) comprises a storage unit (51), a deletion unit (52) and a classification unit (53), the ex-warehouse system (1), the data interaction system (4) and the in-warehouse system (3) sequentially send logistics information to the storage unit (51) of the cloud database (5), the storage unit (51) is connected with the deletion unit (52), the deletion unit (52) is used for deleting logistics information stored in the same cargo at the next time after the next logistics information is sent to the same cargo, the in-warehouse system (3) sends logistics information to the storage unit (51) and sends a privacy information data packet and an ex-warehouse information data packet to the storage unit (51), the storage unit (51) is connected with the classification unit (53), and the classification unit (53) is used for classifying logistics information, And classifying the privacy information data packet and the ex-warehouse information data packet.

8. The method for logistics data conversion based on cloud resources according to any one of claims 1 to 7, characterized by comprising the following steps:

s101: the ex-warehouse system (1) generates logistics data, the logistics data are transferred to the data interaction system (4), and meanwhile logistics information is backed up to the cloud database (5);

s102: the data interaction system (4) reads the real-time logistics information provided by the transmission system (2), changes and updates the logistics data, transfers the logistics data according to the real-time logistics information, backs up the updated logistics information to the cloud database (5), and the cloud database (5) deletes the logistics information stored before;

s103: after the warehousing system (3) reads the goods and signs the goods, the logistics information and the logistics data are sent to the cloud database (5), and the cloud database (5) deletes the logistics data stored before.

9. The cloud resource-based logistics data conversion system of claim 1, wherein the ex-warehouse system (1) further comprises:

the logistics data acquisition unit: the system is used for acquiring logistics information and monitoring the real-time state of a logistics vehicle; wherein, the first and the second end of the pipe are connected with each other,

the logistics information comprises: logistics mileage, logistics vehicle type, logistics vehicle consumption, logistics vehicle state, logistics transfer data, logistics transfer point state, logistics personnel consumption, logistics time consumption and logistics line state;

the real-time status includes: abnormal logistics state and normal logistics state;

abnormal monitoring unit of commodity circulation: the system is used for judging whether to carry out logistics transportation or not according to the logistics information when the logistics is in an abnormal state;

logistics cost accounting unit: when the logistics transportation is needed, the logistics cost accounting is carried out according to the logistics information; wherein the content of the first and second substances,

the logistics cost accounting comprises: planning logistics cost accounting, performing logistics cost accounting and residual logistics cost accounting;

cost line union unit: the system is used for determining a warehouse logistics line according to the logistics information and logistics cost accounting, and establishing a combined verification mechanism based on cost consumption reduction and logistics progress; wherein the content of the first and second substances,

the cost consumption reduction and logistics progress combined evidence verification mechanism is used for determining logistics cost, reducing the logistics cost according to the logistics progress and determining real-time consumption cost and real-time remaining cost;

a logistics route re-planning unit: according to the real-time residual cost, carrying out logistics line re-planning and judging whether a first target line exists or not; wherein the content of the first and second substances,

the cost of the first target line does not exceed the real-time remaining cost;

a line screening unit: the route priority calculation module is used for calculating the priority of the route when the first target route exists, determining the priority value and screening the target route with the highest priority value as a replanned route; wherein the content of the first and second substances,

the highest priority value is that in the calculation of the line priority, a product sum is determined through the product of line time and time weight and the product of line cost and cost weight, and the maximum value of the product sum is the highest priority value;

a line reselection unit: and when the first target line does not exist, acquiring all lines which can be replanned, selecting the line with the lowest cost from all the lines as a replanned line, performing cost overflow calculation based on a cost consumption reduction and logistics progress combined evidence printing mechanism, and performing logistics personnel and logistics vehicle planning compression according to the cost overflow calculation.

10. The cloud resource-based logistics data conversion system according to claim 1, wherein the warehousing system (3) is further configured to perform information comparison between the ex-warehouse information data packet and the privacy information data packet, and perform warehousing verification;

which comprises the following steps:

step 1: classifying and analyzing the ex-warehouse information data packets and the privacy information data packets, determining different types of ex-warehouse information, and generating an ex-warehouse information data set A and a privacy information data set B;

A＝{a₁，a₂，a₃……a_i}

B＝{b₁，b₂，b₃……b_j}

wherein, a_iType characteristics representing the ith type of ex-warehouse information; b_jType features representing a jth type of private information; 1, 2, 3 … … n; n represents the total variety number of the ex-warehouse information; j ═ 1, 2, 3 … …; m represents the total number of categories of the private information;

step 2: according to the ex-warehouse information data set A and the privacy information data set B, a data correlation judgment model is constructed, and whether the data are the same or not is judged:

wherein q is_iThe content characteristics represent the ith type of ex-warehouse information; w is a_jContent characteristics representing the jth class of privacy information; when X is 1, the warehouse-out information data packet and the privacy information data packet are the same, and the warehouse-in is correct; and when X is not equal to 1, the warehouse-out information data packet is different from the privacy information data packet, and the warehouse entry is wrong.

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