Disclosure of Invention
In order to solve the problems, the invention provides a system and a method for supervising the right of goods, a server for supervising the right of goods and a method thereof.
According to some embodiments, the present invention employs the following technical solutions:
in a first aspect, the present invention provides a cargo entitlement management system.
A cargo entitlement management system comprising: a client, a mobile terminal and a server connected with each other,
The client is used for inputting warehouse information and information of goods to be stored and sending the information to the server;
the mobile terminal is used for collecting cargo information of cargoes in different application scenes and sending the cargo information to the server;
the server is used for respectively processing the input warehouse information and the information of the goods to be stored, establishing a warehouse file, generating a warehouse identifier and establishing inventory information in the warehouse file; identifying the bill in the goods information, and storing the identified bill and the inventory information according to a time sequence to obtain goods right information; wherein the identification process includes: identifying whether the type of the uploaded bill meets the bill type preset in the application scene; identifying the content of the bill, combining the inventory information, and judging the consistency.
Further, the document type preset in the application scene includes:
the document types preset in the warehouse-in scene comprise: warehouse entry bill, warehouse entry pound bill, transportation bill, laboratory sheet, business check report and support user-defined bill;
the document types preset in the ex-warehouse scene comprise: the method comprises the steps of carrying out a commodity application, carrying out a warehouse operation instruction, carrying out a warehouse pound bill, carrying out a warehouse detail and supporting user-defined documents;
The document type preset by the inventory scene comprises: inventory details and support user-defined documents.
Further, the identifying the content of the bill and combining the inventory information to judge the consistency includes: identifying whether a document name exists;
further, the identifying the content of the bill and combining the inventory information to judge the consistency includes:
and identifying whether the cargo data and the inventory information in the bill are consistent with the recorded data.
Further, the process of processing the entered warehouse information includes: receiving a warehouse satellite map, identifying the regional range of a designated warehouse in the warehouse satellite map, and calculating the area of the designated warehouse; and comparing the area of the appointed warehouse with the area of the warehouse in the warehouse information, and determining the position information of the appointed warehouse when the error is smaller than the set threshold range.
Further, the warehouse information includes: warehouse name, warehouse location information, longitude and latitude of the warehouse, type of the warehouse, warehouse capacity of the warehouse, area of the warehouse, plan view of the warehouse, warehouse ownership information and warehouse information table attachment of the warehouse management enterprise with official seal.
Further, the information of the goods to be stored includes: the goods name, the goods specification or grade, the total number of goods, the ownership and quality person information of the goods, the stock position information, the warehouse information, the custodian information, the panoramic photo and/or video of the goods, the detail photo and/or video of the goods, and the receipt photo and/or video of the goods.
Further, the goods information comprises panoramic photos and/or videos of goods, detail photos and/or videos of goods and bill photos and/or videos of goods.
Further, the server is also used for displaying inventory information and/or right of goods information.
Further, the server is connected with a goods right showing platform and/or a site goods right card for showing inventory information and/or goods right information, wherein the site goods right card is used for setting a warehouse or a warehouse location area where the inventory is placed; and the goods right display platform is synchronous with the display information of the on-site goods right cards in real time.
Further, the field right of way card includes:
and the automatic broadcasting module is used for broadcasting the goods right information on site when detecting someone in the detection range.
Further, the server is further configured to send early warning information to the mobile terminal when detecting that the right card is powered off, the right card is disconnected, or the right card is moved;
still further, the server is further configured to send early warning information to the mobile terminal when at least one of the following occurs:
the same warehouse or warehouse location discovers different cargo weight information;
the total number of goods disclosed by the goods right of the same warehouse exceeds the warehouse capacity;
The warehouse information changes conflict with the public right of goods information.
In a second aspect, the present invention provides a method of monitoring a right to goods.
A method of monitoring a right to goods comprising:
the client inputs warehouse information and information of goods to be stored and sends the information to the server;
the mobile terminal collects cargo information of cargoes in different application scenes and sends the cargo information to the server;
the server processes the input warehouse information and the information of the goods to be stored respectively, establishes a warehouse file, generates a warehouse identifier, and establishes inventory information in the warehouse file; identifying the bill in the goods information, and storing the identified bill and the inventory information according to a time sequence to obtain goods right information; wherein the identification process includes: identifying whether the type of the uploaded bill meets the bill type preset in the application scene; identifying the content of the bill, combining the inventory information, and judging the consistency.
Further, the document type preset in the application scene includes:
the document types preset in the warehouse-in scene comprise: warehouse entry bill, warehouse entry pound bill, transportation bill, laboratory sheet, business check report and support user-defined bill;
The document types preset in the ex-warehouse scene comprise: the method comprises the steps of carrying out a commodity application, carrying out a warehouse operation instruction, carrying out a warehouse pound bill, carrying out a warehouse detail and supporting user-defined documents;
the document type preset by the inventory scene comprises: inventory details and support user-defined documents;
further, the identifying the content of the bill and combining the inventory information to judge the consistency includes:
identifying whether a document name exists;
further, identifying whether the cargo data in the bill is consistent with the recorded data;
further, identifying whether the goods data and the inventory information in the bill are consistent with the recorded data;
further, the process of processing the entered warehouse information includes: receiving a warehouse satellite map, identifying the regional range of a designated warehouse in the warehouse satellite map, and calculating the area of the designated warehouse; comparing the area of the appointed warehouse with the area of the warehouse in the warehouse information, and determining the position information of the appointed warehouse when the error is smaller than the set threshold range;
further, the warehouse information includes: warehouse name, warehouse location information, longitude and latitude of a warehouse, type of the warehouse, warehouse capacity of the warehouse, area of the warehouse, plan view of the warehouse, warehouse ownership information and warehouse information table attachment of the warehouse management enterprise with official seal;
Further, the information of the goods to be stored includes: the goods name, the goods specification or grade, the total number of goods, the ownership person information and the quality person information of the goods, the stock position information, the warehouse information, the custodian information, the panoramic photo and/or video of the goods, the detail photo and/or video of the goods and the bill photo and/or video of the goods;
further, the goods information comprises panoramic photos and/or videos of goods, detail photos and/or videos of goods and bill photos and/or videos of goods;
further, the server may communicate inventory information and/or right of stock information;
further, the server is connected with a goods right showing platform and/or a site goods right card for showing inventory information and/or goods right information, wherein the site goods right card is used for setting a warehouse or a warehouse location area where the inventory is placed;
further, the field right of way card includes:
and the automatic broadcasting module is used for broadcasting the goods right information on site when detecting someone in the detection range.
Further, when the server detects that the goods right card is powered off, the goods right card is disconnected or the goods right card is moved, early warning information is sent to the mobile terminal;
Further, the pre-warning is performed when at least one of the following occurs:
the same warehouse or warehouse location discovers different cargo weight information;
the total number of goods disclosed by the goods right of the same warehouse exceeds the warehouse capacity;
the warehouse information changes conflict with the public right of goods information.
In a third aspect, the present invention provides a right-of-way administration server.
A right-of-way administration server comprising:
the goods right supervision module is used for respectively processing the input warehouse information and the information of the goods to be stored, establishing a warehouse file, generating a warehouse identifier and establishing inventory information in the warehouse file;
a forensic processing module configured to: receiving cargo information uploaded by cargoes in different application scenes, identifying and processing bills in the cargo information, and storing the identified bills and inventory information according to a time sequence to obtain cargo right information; wherein the identification process includes: identifying whether the type of the uploaded bill meets the bill type preset in the application scene; identifying the content of the bill, combining the inventory information, and judging the consistency.
Further, the right of goods supervision module is further configured to: acquiring a warehouse satellite map, identifying the region range of a designated warehouse in the warehouse satellite map, and calculating the area of the designated warehouse; and comparing the area of the appointed warehouse with the area of the warehouse in the warehouse information, and determining the position information of the appointed warehouse when the error is smaller than the set threshold range.
Further, the right supervision server also comprises a right-of-right disclosure module for disclosure of the inventory information and/or right-of-right information.
In a fourth aspect, the present invention provides a method of right of goods supervision.
A cargo right supervision method is applied to a server and comprises the following steps:
acquiring input warehouse information, information of goods to be stored and goods information uploaded by the goods in different application scenes;
processing the input warehouse information and the information of the goods to be stored respectively, establishing a warehouse file, generating a warehouse identifier, and establishing inventory information in the warehouse file;
according to the goods information uploaded by the goods in different application scenes, identifying and processing the bill in the goods information, and storing the bill and the inventory information after identifying and processing according to a time sequence to obtain the goods right information; wherein the identification process includes: identifying whether the type of the uploaded bill meets the bill type preset in the application scene; identifying the content of the bill, combining the inventory information, and judging the consistency.
Compared with the prior art, the invention has the beneficial effects that:
according to the invention, through operations such as specialization of goods, recording of facts of delivery and occupation of goods, goods right publicizing and the like, in disputes, effective evidence chains can be formed rapidly according to perfect goods right supervision records, so that rights can be helped to efficiently realize the proof of goods right, prevent risks from happening and solve risks happening.
According to the method, the file is built for the warehouse information, and the unique identification of the warehouse is given to the warehouse through the industrial Internet identification analysis system, so that the uniqueness of the warehouse is confirmed.
According to the invention, the cargo is digitally processed, so that risks caused by unclear weight of the cargo are avoided.
The invention supports the goods right showing proposal of on-line on-site showing linkage, tamper resistance and risk alarm, and can help the rights personnel to protect own goods right.
Detailed Description
The invention will be further described with reference to the drawings and examples.
It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present invention. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.
Term interpretation:
1. the industrial Internet identification analysis system is currently applied to the fields including supply chain management, product life cycle management, product tracing, digital asset sharing and delivery, one-object one-code identification settlement, identity authentication, equipment management, after-sale management, anti-counterfeiting and anti-counterfeit goods, government supervision, logistics monitoring, product account management and control, credit system and the like, and is mainly used for unique coding of identification industrial objects (such as products, equipment, parts and the like) and is similar to an identity card number.
2. OCR (Optical Character Recognition ) refers to the process of an electronic device (e.g., a scanner or digital camera) checking characters printed on paper, determining their shape by detecting dark and light patterns, and then translating the shape into computer text using a character recognition method.
Example 1
As shown in fig. 1, the present embodiment is a cargo entitlement management system.
A cargo entitlement management system comprising: a client, a mobile terminal and a server connected with each other,
the client is used for inputting warehouse information and information of goods to be stored and sending the information to the server;
the mobile terminal is used for collecting cargo information of cargoes in different application scenes and sending the cargo information to the server;
the server is used for respectively processing the input warehouse information and the information of the goods to be stored, establishing a warehouse file, generating a warehouse identifier and establishing inventory information in the warehouse file; identifying the bill in the goods information, and storing the identified bill and the inventory information according to a time sequence to obtain goods right information; wherein the identification process includes: identifying whether the type of the uploaded bill meets the bill type preset in the application scene; identifying the content of the bill, combining the inventory information, and judging the consistency.
The warehouse identification comprises two-dimensional codes, bar codes and the like, and the industrial Internet identification analysis system gives unique identification to the warehouse.
As one or more embodiments, the document type preset in the application scenario includes:
The document types preset in the warehouse-in scene comprise: warehouse entry bill, warehouse entry pound bill, transportation bill, laboratory sheet, business check report and support user-defined bill;
the document types preset in the ex-warehouse scene comprise: the method comprises the steps of carrying out a commodity application, carrying out a warehouse operation instruction, carrying out a warehouse pound bill, carrying out a warehouse detail and supporting user-defined documents;
the document type preset by the inventory scene comprises: inventory details and support user-defined documents.
As one or more embodiments, the identifying the content of the bill, and combining the inventory information, determining the consistency includes: identifying whether a document name exists; and identifying the bill content through an OCR (optical character recognition) technology, and reminding an uploaded bill if the corresponding bill name in the bill is not identified. The rights man can check the uploaded bill in the goods right supervision background to check whether the bill is actually wrong or not, and the data is calibrated.
As one or more embodiments, the identifying the content of the bill, and combining the inventory information, determining the consistency includes: identifying whether the type of the cargo data in the bill is consistent with the recorded data; specifically, the system identifies key data (such as cargo information, cargo weight, warehouse-in quantity, warehouse-out quantity and the like) in the uploaded bill, compares the key data with data recorded by a recorder, and reminds that the data is missing and wrong when the key data is deviated.
As one or more embodiments, the identifying the content of the bill, and combining the inventory information, determining the consistency includes: and identifying whether the cargo data and the inventory information in the bill are consistent with the recorded data. Specifically, the bill content is identified, relevant cargo information and quantity information are identified, the relevant cargo information and quantity information are compared with cargoes in the current cargo right archive and data recorded by a recorder, and if relevant data are not identified or the identified relevant data are not consistent with actual data, the uploaded bill is reminded.
As one or more embodiments, the process of processing the entered warehouse information includes: receiving a warehouse satellite map, identifying the regional range of a designated warehouse in the warehouse satellite map, and calculating the area of the designated warehouse; and comparing the area of the appointed warehouse with the area of the warehouse in the warehouse information, and determining the position information of the appointed warehouse when the error is smaller than the set threshold range.
Specifically, identifying a warehouse area range and marking; measuring and calculating the edge length and the area of the marked area; comparing the calculated area with the area in the warehouse information, and outputting a comparison result; the result is considered as confirming warehouse position information within the error range; if the warehouse area is not identified or the result exceeds the error, the warehouse position is considered to be unable to be confirmed, and the position of the warehouse information needs to be submitted again for identification again.
As one or more embodiments, the warehouse information includes: warehouse name, warehouse location information, longitude and latitude of the warehouse, type of the warehouse, warehouse capacity of the warehouse, area of the warehouse, plan view of the warehouse, warehouse ownership information and warehouse information table attachment of the warehouse management enterprise with official seal.
As one or more embodiments, the information of the goods to be stored includes: the name of the goods, the specification or grade of the goods (including the production area of the goods, the manufacturing enterprise, the registered trademark of the industrial goods, the specific variety of agricultural products, the number of goods, the quality of raw materials or auxiliary materials, the model number of goods, the style of goods, the color of goods, the freshness, the size of dimensions, the number of weights, the manufacturing process, the processing degree, the packaging form and the quality grade, etc.), the total number of the goods, the ownership information and the quality authority information of the goods, the stock position information, the warehouse information, the custodian information, the panoramic photo and/or video of the goods, the detail photo and/or video of the goods, and the bill photo and/or video of the goods.
As one or more embodiments, the cargo information includes panoramic photos and/or videos of the cargo, detailed photos and/or videos of the cargo, and document photos and/or videos of the cargo.
The server, as one or more embodiments, is also configured to communicate inventory information and/or right of way information.
As one or more embodiments, the server is connected with a right-of-way showing platform and/or a site right-of-way card for setting up a warehouse or a warehouse location area where inventory is placed, and the right-of-way showing platform and/or site right-of-way card is used for showing inventory information and/or right-of-way information; and the goods right display platform is synchronous with the display information of the on-site goods right cards in real time.
Specifically, the on-site cargo right cards are customized, and the cargo right cards are set up at the obvious positions on a warehouse or a specific warehouse position where cargoes are stored, and the on-site cargo right cards have the following functions:
clearly showing the information of the rights and the properties of the goods: 1. processed warehouse information, 2, entitlement information, 3, processed inventory information.
The goods right information is synchronized in real time through a network, and the contents which are disclosed on line are synchronized on the goods right cards in real time through networking.
As one or more embodiments, the field weight plate includes:
and the automatic broadcasting module is used for broadcasting the goods right information on site when detecting someone in the detection range.
As one or more embodiments, the server is further configured to send early warning information to the mobile terminal when detecting that the right card is powered off, the right card is disconnected, or the right card is moved;
As one or more embodiments, the server is further configured to send the early warning information to the mobile terminal when at least one of the following occurs:
the same warehouse or warehouse location discovers different cargo weight information;
the total number of goods disclosed by the goods right of the same warehouse exceeds the warehouse capacity;
the warehouse information changes conflict with the public right of goods information.
Example two
The embodiment relates to a cargo right supervision method.
A method of monitoring a right to goods comprising:
the client inputs warehouse information and information of goods to be stored and sends the information to the server;
the mobile terminal collects cargo information of cargoes in different application scenes and sends the cargo information to the server;
the server processes the input warehouse information and the information of the goods to be stored respectively, establishes a warehouse file, generates a warehouse identifier, and establishes inventory information in the warehouse file; identifying the bill in the goods information, and storing the identified bill and the inventory information according to a time sequence to obtain goods right information; wherein the identification process includes: identifying whether the type of the uploaded bill meets the bill type preset in the application scene; identifying the content of the bill, combining the inventory information, and judging the consistency.
The embodiment designs a method for supervising the right of goods, which comprises the steps of carrying out operations such as specialization, record of delivery and continuous occupation processes of the goods, and goods right information disclosure according to the actual condition of the goods to which a right person belongs, and a server sends a rights report related to the goods according to the record content.
The specific implementation steps are as follows:
first step, establishing a right-of-goods file
Generating a right file according to rights information filled by a user, warehouse information, inventory information and service enterprise information, and specializing the warehouse information provided by the user when generating the right file, wherein the specific scheme is as follows:
the technical scheme for realizing warehouse information specialization is as follows:
the user submits warehouse information, which includes the following contents: a warehouse name; warehouse location information, to be precise, street information; the longitude and latitude of the warehouse are obtained by adopting equipment with GPS positioning or Beidou positioning functions; the type of warehouse; the storage capacity and the area of the warehouse; the rights of the warehouse are owned by the warehouse management enterprise or rented by the warehouse management enterprise, such as own, and the rights are required to be proved; if the lessees are leased, the lessee contract term needs to be written; a plan view of the warehouse;
Specifically, equipment with GPS positioning or Beidou positioning function is adopted to shoot a real image of the warehouse in the field, the real image needs to be provided with geographic position information, the real image comprises a warehouse door head, a warehouse periphery and a warehouse internal image, and VR equipment can also be adopted to shoot 360 the real image.
Warehouse information table accessories with official seal are added by warehouse management enterprises.
According to warehouse coordinate information in information submitted by a user, an image is identified through a satellite image at a remote sensing satellite shooting coordinate, and the processing scheme is as follows: identifying the range of the warehouse area and marking; measuring and calculating the edge length and the area of the marked area; comparing the calculated area with the area in the warehouse information, and outputting a comparison result; the result is considered as confirming warehouse position information within the error range; if the warehouse area is not identified or the result exceeds the error, the warehouse position is considered to be unable to be confirmed, and the position of the warehouse information needs to be submitted again for identification again.
The warehouse information confirmed by the position is written into a server, can be accessed through a domain name, and is shown in a specific website;
further, the server writes the warehouse information into the top node through an industrial Internet identification analysis system, and endows the warehouse with a unique identification code, wherein the identification code comprises a bar code, a two-dimensional code and the like.
Through the steps, the specialization of warehouse information is completed.
The embodiment takes the industrial internet identification as the confirmation of warehouse uniqueness.
Secondly, carrying out inventory information specialization, wherein the technical scheme for realizing cargo specialization is as follows:
the method comprises the steps of establishing right-of-goods information in a right-of-goods supervision module of a server, selecting a warehouse which is specified in the first step, and establishing inventory information.
The inventory information includes: a cargo name; the specification or grade of the goods, the production area containing the goods, the production enterprise, the registered trademark of the industrial product, the specific variety of the agricultural product, the commodity number, the quality of the raw material or the auxiliary material, the commodity model, the commodity style, the commodity color, the freshness, the size, the number of single weight, the production process, the processing degree, the packaging form, the quality grade and the like; the total number of goods; the ownership of the goods, namely ownership information and quality information of the goods (enterprise + unified social credit code or person + identification card number); library bit information, including a library bit description and a library bitmap; the bill information comprises bill numbers, bill issuing enterprises, bill operation platforms, inventory persons and the like; and keeping the information of the person.
After the stock information is established by filling the content, the mobile terminal is used for photographing goods in a warehouse and recording videos, and the photographing content comprises the following information: panoramic photographs or videos of goods; goods detail photos or videos; and taking a picture or video of the bill of the goods.
The mobile terminal invokes the mobile phone positioning system to compare the geographic position information with the position information of the warehouse, and if the geographic position information is the same, the mobile terminal allows shooting of goods panorama, goods details, photos or videos of goods documents and the like.
The mobile terminal obtains local standard time through NTP, satellite and the like, calculates a unique irreversible hash value of the certificate file through an international algorithm (for example, SHA-2) or a national encryption algorithm (SM 2 and SM 3), and generates a time stamp through a time stamp service.
The mobile terminal generates a hash value by an international algorithm (for example, SHA-2) or a national encryption algorithm (SM 2 and SM 3) and stores the hash value in a judicial authentication center.
The content shot by the mobile terminal is presented in the server, and the user confirms through the goods right information to bind the goods right information with the photo or video shot on site, so that the goods specialization is realized; if the shot content is inconsistent with the inventory information filled in the system, the user can reject the shot, and the shot needs to be performed again.
Third step, record the continuous occupancy of inventory in warehouse and each delivery
The steps are mainly completed at the mobile terminal end of the goods right stock certificate, and the mobile terminal is mainly divided into the following three modules, as shown in fig. 2:
The work table module is used for displaying the items distributed to the recorder by all servers on the work table, the recorder selects to enter the items to be recorded from the work table, and after entering the items, the work table module supports the recording functions of warehousing, ex-warehouse, checking, in-warehouse shifting, other recording functions, and the recording modes comprise photographing, video shooting and audio recording;
the on-site recording module is used for managing all on-site recordings (photos, videos and recordings) shot by on-site recording personnel by using the mobile terminal and supporting automatic uploading and recording to the goods right supervision platform; the on-site records comprise records of on-site receipts and behavior records of on-site cargo management processes, wherein the records of the on-site receipts can adopt a photo and video mode, and the behavior records of the on-site cargo management processes can adopt photos, videos and recordings and are used as evidence of an evidence chain.
And the personal center module is used for managing personal information.
When goods management is carried out, a mobile terminal is used for selecting an item needing to be recorded on site, and the method records the warehousing, the ex-warehouse, the checking, the shifting in the warehouse, the recording of a goods right card and other businesses on the project site, so that the mobile terminal can objectively record and reflect the real scenes, and only supports the recording mode of shooting pictures, videos or recording in real time;
Selecting the type (warehouse in, warehouse out, inventory, etc.) to be managed at the mobile terminal;
filling in cargo information according to the actual condition of the site, wherein the cargo information content comprises the specified content in the second step, and the corresponding warehouse-in quantity, warehouse-out quantity, inventory quantity and the like;
and shooting the field conditions of goods warehousing, ex-warehouse or inventory, and related bill information, including warehousing sheets, ex-warehouse sheets, inventory bills, pound sheets, freight notes and the like.
The shooting process is processed as follows: to ensure accuracy of the recorded time, all times are taken from the local standard time and written into the recorded file by a time stamp; in order to ensure the accuracy of the recorded places, a mobile phone positioning system is required to be opened during recording, the current actual position is compared with the warehouse position, early warning is carried out when the position is deviated, and the fact that the recorded position is deviated in photos, videos and recordings shot by a mobile terminal is adopted; to ensure that recorded photos, videos and recorded files cannot be tampered with, the files are encrypted by using a time stamp and a hash algorithm; the hash value of the recorded file is stored in a judicial authentication center.
The mobile terminal uploads the recorded content to a server, and the server performs the following processing: identifying whether a bill missing condition exists, and if the bill missing condition exists, carrying out a missing item reminding; the system requires complete documents for each scene:
And (3) warehousing: warehouse entry bill, warehouse entry pound bill, transportation bill, laboratory sheet, business check report, and support user-defined document;
the ex-warehouse scene: the method comprises the steps of carrying out a commodity application, carrying out a warehouse operation instruction, carrying out a warehouse pound bill, carrying out a warehouse detail and supporting user-defined documents;
counting a scene: inventory details, and support for user-defined documents.
When a recorder selects a corresponding scene for recording, the recorder is reminded to shoot a corresponding bill for uploading;
if the recorder does not upload the corresponding bill when finishing recording, the recorder can touch the reminding function of the delivery right management platform, and reminds the rights man in the form of an in-station message or a short message.
The server identifies the content of the uploaded bill, and if the content is not consistent with the type of the bill (if the type of the bill is a warehouse entry bill, but the uploaded bill is identified as not being a warehouse entry bill), the server reminds the error of the bill;
based on the uploaded related bill, the bill content is identified by an OCR (optical character recognition) technology, and if the corresponding bill name in the bill is not identified, the uploaded bill is reminded.
The rights man can check the uploaded bill in the goods right supervision background to check whether the bill is actually wrong or not, and the data is calibrated.
The server identifies key data (such as cargo information, cargo weight, warehouse-in quantity, warehouse-out quantity and the like) in the uploaded bill, compares the key data with data input by a recorder, and reminds that the data is missing and wrong when the key data has deviation;
based on the uploaded related bill, the bill content is identified through an OCR (optical character recognition) technology, related cargo information and quantity information are identified and compared with the cargoes in the current right-of-goods file and the data recorded by a recorder, and if the related data are not identified or the identified related data are not consistent with the actual data, the uploaded bill is reminded.
The rights man can check the uploaded bill in the goods right supervision background to check whether the bill is actually wrong or not, and the data is calibrated.
And the user establishes a binding relationship between the right information and the records of the actual site through the right information confirmation function on the right supervision platform.
And the system sorts all recorded data according to the recording time to form the goods right information with time sequence relation.
Fourth, the right information is shown, the step can also be carried out after the second step is finished, and the showing scheme is as follows:
the user uses the function of the server goods right showing module to show the goods right information by one key, and after the goods right information is shown by one key, the goods right information is displayed on the goods right showing platform.
Customizing an on-site cargo right card, setting the cargo right card at a conspicuous position on a warehouse or a specific warehouse position for storing cargoes, wherein the on-site cargo right card has the following functions:
clearly showing the information of the rights and the properties of the goods: 1. warehouse information specified in the first step, right person information, inventory information specified in the second step;
the goods right information is synchronized in real time through a network, and the contents which are disclosed on line are synchronized on the goods right cards in real time through networking.
The goods right plate has an automatic broadcasting function, and when the goods right plate senses that a person enters a warehouse or a warehouse location area where inventory is placed through the infrared human body induction sensor, the goods right plate broadcasts goods right information on site in a broadcasting mode.
When the following conditions occur in the goods right card, the server sends early warning information to the mobile terminal of the user: when the goods right card is powered off; 2. when the goods right card is off line; 3. when the goods right card moves.
Specifically, the gps system is arranged in the weight plate for positioning, and when the weight plate deviates from the specified position range, an alarm is given.
The server processes the goods right information by adopting a big data-based algorithm and sends risk early warning to the user, including but not limited to the following cases:
The same warehouse or warehouse location discovers different cargo weight information;
the total number of goods disclosed by the goods right of the same warehouse exceeds the warehouse capacity;
the change of warehouse information collides with the public contents of the goods right.
Example III
The embodiment provides a right of goods supervision server.
A right-of-way administration server comprising:
the goods right supervision module is used for respectively processing the input warehouse information and the information of the goods to be stored, establishing a warehouse file, generating a warehouse identifier and establishing inventory information in the warehouse file;
a forensic processing module configured to: receiving cargo information uploaded by cargoes in different application scenes, identifying and processing bills in the cargo information, and storing the identified bills and inventory information according to a time sequence to obtain cargo right information; wherein the identification process includes: identifying whether the type of the uploaded bill meets the bill type preset in the application scene; identifying the content of the bill, combining the inventory information, and judging the consistency.
The right supervision module comprises functions of establishing right information, changing right information, confirming right information and managing on-site records.
As one or more embodiments, the right-of-goods administration server further comprises a right-of-goods presentation module for presenting inventory information and/or right-of-goods information.
Example IV
The embodiment provides a cargo right supervision method.
A cargo right supervision method is applied to a server and comprises the following steps:
acquiring input warehouse information, information of goods to be stored and goods information uploaded by the goods in different application scenes;
processing the input warehouse information and the information of the goods to be stored respectively, establishing a warehouse file, generating a warehouse identifier, and establishing inventory information in the warehouse file;
according to the goods information uploaded by the goods in different application scenes, identifying and processing the bill in the goods information, and storing the bill and the inventory information after identifying and processing according to a time sequence to obtain the goods right information; wherein the identification process includes: identifying whether the type of the uploaded bill meets the bill type preset in the application scene; identifying the content of the bill, combining the inventory information, and judging the consistency.
As shown in fig. 3, the present implementation may be implemented in the following manner:
firstly, selecting a field project;
and selecting goods management types such as ex-warehouse/warehouse-in/inventory/warehouse-in shift/goods right card record/other and the like according to the selected field items.
A warehouse, a cargo name, a cargo specification/grade, etc. are selected according to the selected cargo management type.
Selecting a record type, including a process/document and the like;
and open the mobile terminal (mobile phone, intelligent watch, etc.) to position, if unauthorized positioning, prompt "detect you do not open the geographic positioning authorization, in order to guarantee the integrality and evidence effectiveness of the on-the-spot recorded data, suggest you to open and then collect evidence"; if the system positioning is started, prompting that positioning service is started in system setting in order to ensure the integrity and evidence effectiveness of the on-site recorded data; if the positioning is started, the existing photos, videos or recordings and the like (excluding recordings of documents) are acquired.
Judging whether the current geographic position of the mobile terminal is consistent with the warehouse address, if so, taking a picture, recording video or recording sound by adopting the mobile terminal; otherwise, prompting that' detecting that you do not operate at the selected warehouse position, please operate and store the certificate at the required position, if yes, stopping operation, if no, continuing operation, and adopting the mobile terminal to take a picture, record video or record, etc. And when uploading, uploading the geographic position of the mobile terminal together with the time of the photo, video or recording inconsistent with the warehouse address.
When uploading a photo, video or recording, hash coding is carried out, and a timestamp is added to store in a judicial authentication center.
Hash coding is carried out on the time stamp file and the photo, video or recording file, the coded data is stored in a management system of a judicial institution, evidence is generated, and complete goods right information is obtained.
After uploading the record, the method also adopts OCR technology to identify error data (including defect evidence record, error evidence record and the like), reminds the error to the mobile terminal of the right person, and confirms the binding problem of the right person on the goods right.
The invention makes the identification of the uniqueness of the warehouse by the user simple and efficient, and the identification is the basis of clear information of the goods rights.
The user is helped to quickly issue a report of the right information of the goods with time sequence and on-site records, and all records are already verified in the judicial authentication center.
The method helps the user to prevent malicious third people and discourage the third people, prevents the right cards from being damaged or hidden maliciously, and protects own rights.
The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.