CN111882292A - Intelligent supply chain logistics information platform based on AIOT and block chain - Google Patents

Abstract

The invention discloses an intelligent supply chain logistics information platform based on AIOT and a block chain, which consists of AIOT, block chain link points and a business process; compared with the prior art, the invention provides a solution for the business of the logistics data, and has the following advantages: (1) the problem that multiple systems are fused into an intelligent supply chain logistics information platform is solved; (2) the system solves the problems of multi-cluster, multi-subsidiary, multi-organization, multi-user, multi-role, functional authority, data authority and multi-data flow management; (3) the system solves the problems of unified platform login and business operation, multi-system and platform data source access and integration, and can be used for connecting different company systems to an intelligent supply chain logistics platform; (4) an open sharing SDK and API interface is provided for the open establishment of industry specifications; (5) the problem that upstream, middle and downstream business flows, information flows, fund flows, business flows and data flows of supply chain logistics are integrated to an intelligent supply chain logistics information platform is solved.

Description

Intelligent supply chain logistics information platform based on AIOT and block chain

Technical Field

The invention relates to the technical field of supply chain logistics, in particular to an intelligent supply chain logistics information platform based on AIOT and a block chain.

Background

With the development of IOT technology (sensors, mobile networks, communication standards, technology platforms) and AI (chips, algorithms), smart devices are becoming more and more popular, and with the support of AIOT, smart devices also have increased more intelligent functions, so it is a necessary trend to build a supply chain logistics information platform by using AIOT.

For the logistics industry, the traditional technology cannot adapt to the development of the Internet of things, the Internet and artificial intelligence, and the construction of supply chain logistics industry digitalization is divided into two stages: the first stage is to realize the digitization of the logistics service, and the second stage is to realize the digitization of the logistics data; at present, the logistics industry generally realizes the first stage of datamation of logistics business; therefore, the business of the second stage logistics data becomes an urgent need to be solved.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide an intelligent supply chain logistics information platform based on AIOT and a blockchain, and aims to provide a solution for logistics data business.

The invention is realized in such a way that the technical scheme adopted by the intelligent supply chain logistics information platform based on AIOT and the block chain is as follows: the intelligent supply chain logistics information platform based on AIOT and a block chain is composed of AIOT, block chain link points and business processes; the AIOT is a hardware device with an artificial intelligence chip for realizing the business process; the block chain link points are used for defining the operation positions of the business process; the platform has an open shared SDK and API interface;

the business process comprises the following steps:

s1: ex-warehouse process;

s2: a loading process;

s3: signing in flow;

s4: a receipt management process;

s5: warehousing process;

the ex-warehouse process is used for ex-warehouse management of goods and comprises an order placing process, a goods picking process, a packaging process and a rechecking process; the block link points are used for defining the operation posts of the ex-warehouse process to comprise a single post and an operation group;

the stowage flow is used for the management of goods to be delivered; the block link points are used for defining the operation posts of the load allocation flow, wherein the operation posts comprise a load allocation post and an operation post;

the signing process is used for signing management of goods; the block link points are used for defining the operation posts of the sign-in process, and comprise dispatchers, drivers, consignees and customer service;

the receipt management process is used for receipt management of goods; the block chain link points are used for defining the operation posts of the return management flow and comprise an agent, a dispatching part, a business part and a client;

the warehousing process is used for warehousing management of goods; the block link points are used for defining the operation posts of the warehousing process, including an unloading post, an order post, a pre-collecting post, a warehousing post and an on-shelf post;

the business process further comprises the following steps:

s21: an abnormal flow;

the abnormal process is used for processing the condition that the cargo transportation link after the stowage process finds abnormality, and the block link points are used for defining the operation positions of the abnormal process and comprise a registered person, a processing person and a notifying person.

Further, the hardware device includes a computer medium, a mobile terminal, a computer terminal, a server, and a cloud server for implementing the business process.

Further, the ordering process is completed by the ordering post operation, and the ordering process includes the following steps:

s101: starting;

s102: judging whether the client independently places an order or not; if the order is independently issued by the client, S103 is executed; if the order is not automatically issued by the client, S104 is executed;

s103: ordering by a client; then, S105 is executed;

s104: entering an order; then, S105 is executed;

s105: checking the order;

s106: if the inventory is satisfied, the checking is passed, and the picking process is executed; if the inventory is not satisfied, the examination is not passed, and S107 is executed;

s107: selecting an order for auditing;

s108: if the inventory is satisfied, the checking is passed, and the picking process is executed; if the inventory is not satisfied, the audit is not passed, and S109 is executed;

s109: the client is notified.

Further, the picking process is completed by the operation group operation, and the picking process comprises the following steps:

s110: gathering the checked orders;

s111: judging whether the wave times need to be automatically optimized; if the wave times need to be automatically optimized, S112 is executed; if the automatic optimization of the wave times is not needed, S113 is executed;

s112: optimizing the wave times according to a wave time rule;

s113: generating a wave number and a picking order according to the picking rule;

s114: issuing a picking task;

s115: receiving and picking the goods;

s116: printing a pick-up order and an order list;

s117: picking up goods;

s118: finishing picking;

s119: judging whether zero removal exists; if yes, executing S120; if no zero is disassembled, executing the packaging process;

s120: when the zero removal is finished, automatically generating a transfer list;

s121: moving operation; then executing the packaging process;

wherein the steps S115, S117 and S118 are operated by an APP installed in the mobile terminal.

Further, the packaging process and the review process are completed by the operation group, and the packaging process comprises the following steps:

s122: issuing a packaging task;

s123: receiving a packaging task;

s124: packaging operation;

s125: finishing packaging;

wherein, the steps S123, S124 and S125 are operated by APP installed in the mobile terminal;

the rechecking process comprises the following steps:

s126: releasing a rechecking task;

s127: receiving a rechecking task;

s128: printing a pick-up order and an order list;

s129: rechecking operation;

s130: completing rechecking;

wherein, the steps S127, S129 and S130 are operated by an APP installed in the mobile terminal.

Further, the stowage flow includes the following steps:

s201: starting; if the loading data of the loading process comes from the freight bill to be loaded, executing S202; if the stowage data of the stowage flow comes from the resource, executing S203;

s202: the method comprises the following steps:

s2021: making a bill and receiving goods; after the waybill is submitted, executing S2023;

s2022: arriving at the unloading; after the unloading is completed, executing S2023;

s2023: generating a to-be-loaded freight bill; then, executing S204;

s203: the method comprises the following steps:

s2031: the purchase order is collected, and after the order is supplemented, S2033 is executed;

s2022: when the unloading is finished, executing S2023;

s2023: generating a resource; then, S205 is executed;

s204: selecting a to-be-loaded freight bill; then, S208 is executed;

s205: selecting a resource;

s206: judging whether the resources are enough; if yes, go to S208; if not, go to S207;

s207: newly adding resources; then, S2033 is executed;

s208: carrying;

s209: adding or adding the uncommitted purchase orders to the stowage result;

s210: judging whether the batch delivery is carried out; if the batch shipment is carried out, S212 is executed; if not, executing S211;

s211: purchasing;

s212: delivering goods;

wherein, the steps S201 to S211 are completed by the stowage shift operation, and the step S212 is completed by the operation shift operation.

Further, the signing process comprises the following steps:

s301: starting;

s302: arriving at the unloading;

s303: judging whether take-out is needed; if the takeout is needed, executing S304; if no take-out is required, go to S306;

s304: carrying out takeout; inputting a takeout waybill and tracking information;

s305: inputting sign-in information and confirming sign-in; then, S316 is executed;

s306: judging whether to dispatch the product; if the dispatch is received, executing S307; if not, executing S317;

s307: the dispatching network points send dispatching instructions;

s308: the dispatcher confirms that dispatching is started;

s309: if the sender is connected to the receiver, S311 is performed; if the sender does not contact the receiver, executing S310;

s310: sending for many times; the dispatch data is returned to the dispatch interface to wait for dispatch again, and then S307 is executed;

s311: if the receiver confirms the receipt, S312 is performed; if the receiver does not receive or rejects the receipt, S314 is performed;

s312: signing a receipt or a receipt with a signature;

s313: taking a receipt, taking a picture of the receipt, signing and uploading; then, S316 is executed;

s314: the telephone contacts the customer service, the customer service and the receiver for communication; to verify and confirm the recipient's rejection;

s315: confirming the rejection of the receiver;

s316: finishing;

s317: the receiver is informed to pick up the goods by telephone;

s318: if the receiver receives the goods, S319 is performed; if the receiver does not receive or rejects the reception, S321 is performed;

s319: the receiver picks up the goods and signs the receipt or the receipt signature;

s320: entering sign-in information and confirming sign-in;

s321: registering a consignee rejection event;

s322: reporting the dispatcher;

s323: finishing;

wherein the steps S301 to S308, S316 and S317 are performed by the dispatcher, the steps S309, S310, S313 and S315 are performed by the driver, the steps S311, S312, S318 and S319 are performed by the consignee, and the steps S314, S320 to S323 are performed by the customer service; the steps S308, S310, S313 and S315 operate through an APP installed in the mobile terminal.

Further, the receipt management process includes the following steps:

s401: starting;

s402: signing;

s403: registering the receipt;

s404: confirming whether the receipt meets the requirements; if the receipt meets the requirement, executing S408; if the receipt is not qualified, executing S405;

s405: refuting;

s406: the receipt returning agent informs the agent of re-signing the receipt;

s407: re-signing the receipt and sending the receipt;

s408: confirming receipt of the receipt;

s409: judging whether the receipt is sent by a business department or not; if the business department is sending, executing S412; if not, executing S410;

s410: sending the receipt back to the client;

s411: the client receives the feedback of the receipt information; then executing S415;

s412: sending the receipt to a business department;

s413: the business department receives the receipt;

s414: the customer receives the receipt; (ii) a Then executing S415;

s415: confirming that the customer has received the receipt;

s416: finishing;

wherein, the steps S401 to S403 and S407 are completed by the agent operation, the steps S404 to S406, S408 to S410, S412 and S416 are completed by the dispatch unit operation, the steps S413 and S415 are completed by the business department operation, and the steps S411 and S414 are completed by the customer operation.

Further, the warehousing process comprises an unloading process, a pre-collecting process, a warehousing process and an racking process;

the unloading process comprises the following steps:

s501: starting;

s501: the vehicle arrives and the unloading is informed;

s503: judging whether to dispatch and pick up goods; if yes, executing S505; if not, executing S504;

s504: newly building a delivery note;

s505: confirming the number of unloaded documents, the number of straight documents and the number of documents;

s506: generating an unloading list;

s507: printing an unloading list;

s508: counting the number of unloading vehicles;

s509: confirming unloading; if so, go to S510; if not, executing S505;

s510: finishing the unloading list; then executing the pre-receiving process;

the pre-receiving process comprises the following steps:

s511: judging whether to dispatch and pick up goods; if not, executing S512; if so, go to S513;

s512: inputting a pre-receipt according to a paper delivery order of a customer; then, S514 is executed;

s513: judging whether a driver records a pre-receiving order or not; if so, go to S514; if not, executing S512;

s514: verifying the pre-receipt and submitting the pre-receipt;

s515: receiving a goods receiving task;

s516: printing a pre-receipt;

s517: confirming the number and weight of goods in storage;

s518: checking whether the goods are abnormal; if so, executing S521; if not, go to S519;

s519: judging whether the service is a direct-sending service; if yes, executing S520; if not, go to S522;

s520: finishing;

s521: registering an exception;

s522: checking and accepting the information of the goods put in storage in the pre-acceptance bill;

s523: automatically generating a warehousing entry; then executing the warehouse entry process;

the pre-receiving process further comprises the following steps:

s530: feeding back the revocation warehousing list to the client;

s531: the client replies the processing suggestion; if the customer processing opinion is other customer' S incoming goods, executing S532; if the customer processing opinion is that the return to the factory is required, executing S533; if the customer processing opinion is partial warehousing, executing S534;

s532: re-recording the pre-receipt; then, S535 is executed;

s533: all or part of the cancellation; then, S535 is executed;

s534: partially generating a warehousing list;

s535: finishing the pre-order collection; then executing the warehouse entry process;

the warehouse entry process comprises the following steps:

s524: receiving a warehousing task;

s525: printing a warehousing label;

s526: confirming the weight of the goods;

s527: judging whether the weight of the goods is abnormal or not; if so, go to S528; if not, go to S536;

s528: registering an exception;

s529: canceling the warehousing bill; then executing S530;

s536: warehousing is finished;

s537: finishing warehousing; then executing the racking process;

the racking process comprises the following steps:

s538: automatically detecting orders to be sorted but not generating orders, and automatically generating a goods sorting order;

s539: automatically generating a listing list;

s540: getting the task of putting on the shelf;

s541: printing a shelf list;

s542: judging whether time is available for shelving; if there is time to shelf, perform S545; if not, go to step S543;

s543: putting on the shelf to a goods receiving cache area and completing putting on the shelf;

s544: generating a secondary shelving list and finishing automatic picking;

s545: putting the shelves to a stock area, and completing the shelving;

s546: putting up a single bundle;

the step S508 is completed by the unloading post operation, the steps S501 to S507, S509 to S514, S530 to S535, and S529 are completed by the order post operation, the steps S515 to S523 are completed by the pre-post operation, the steps S524 to S528, and S536 to S539 are completed by the warehousing post operation, and the steps S540 to S546 are completed by the on-post operation; the steps S515, S517, S521, S522, S524, S528, S536, S540, S543, S544 and S545 operate through an APP installed in the mobile terminal.

Further, the exception flow includes the steps of:

s2111: starting;

s2112: the goods transportation link is abnormal;

s2113: registering an exception;

s2114: judging whether to inform relevant departments; if so, executing S2115; if not, go to S2116;

s2115: receiving the exception and following the exception; then, S2123 is executed;

s2116: carrying out anomaly analysis;

s2117: judging whether feedback to the client is needed or not; if so, go to S2118; if not, go to S2119;

s2118: the client is notified offline and gives a processing suggestion;

s2119: inputting a treatment suggestion, and selecting a treatment mode;

s2120: judging whether a processing document is generated or not; if so, execute S2121; if not; executing S2122;

s2121: processing documents resulting from the exception;

s2122: a shutdown exception;

s2123: finishing;

wherein the steps S2111 to S2114 are performed by the registered person, the steps S2116 to S2122 are performed by the processing person, and the steps S2115 and S2123 are performed by the notifying person.

Compared with the prior art, the invention provides a solution for the business of the logistics data, and has the following advantages:

(1) the problem that multiple systems are fused into an intelligent supply chain logistics information platform is solved;

(2) the system solves the problems of multi-cluster, multi-subsidiary, multi-organization, multi-user, multi-role, functional authority, data authority and multi-data flow management;

(3) the system solves the problems of unified platform login and business operation, multi-system and platform data source access and integration, and can be used for connecting different company systems to an intelligent supply chain logistics platform;

(4) an open sharing SDK and API interface is provided for the open establishment of industry specifications;

(5) the problem that upstream, middle and downstream business flows, information flows, fund flows, business flows and data flows of supply chain logistics are integrated to an intelligent supply chain logistics information platform is solved.

Drawings

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

Fig. 1 is a schematic business process diagram of an intelligent supply chain logistics information platform based on the AIOT and the blockchain according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of an ex-warehouse process of the intelligent supply chain logistics information platform based on the AIOT and the block chain according to the embodiment of the invention.

Fig. 3 is a schematic view of a loading process of an intelligent supply chain logistics information platform based on the AIOT and the block chain according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a sign-off process of the intelligent supply chain logistics information platform based on the AIOT and the block chain according to the embodiment of the invention.

Fig. 5 is a schematic diagram of a receipt management process of the intelligent supply chain logistics information platform based on the AIOT and the blockchain according to an embodiment of the invention.

Fig. 6 is a schematic diagram of the warehousing management process of the intelligent supply chain logistics information platform based on the AIOT and the block chain according to the embodiment of the present invention.

Fig. 7 is a schematic diagram of an abnormal process of the intelligent supply chain logistics information platform based on the AIOT and the block chain according to the embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be noted that when an element is referred to as being "fixed" to another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present, it is to be understood that the terms "upper", "lower", "left", "right", and the like, if any, refer to an orientation or positional relationship based on that shown in the drawings, that is for convenience in describing and simplifying the description, and that no indication or suggestion that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, is therefore depicted in the drawings by the use of positional relationship descriptive terms only for purposes of illustration and not for purposes of limitation, the particular meaning of such terms being interpreted as broadly as will be understood by those skilled in the art based on the particular circumstances.

The technical solution of the present invention is described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 6, a preferred embodiment of the present invention is shown.

The intelligent supply chain logistics information platform based on the AIOT and the block chain is characterized by comprising the AIOT, the block chain link points and business processes; AIOT is hardware equipment with an artificial intelligence chip for realizing a business process; the block chain link points are used for defining the operation posts of the business process; the platform has an open shared SDK and API interface;

referring to fig. 1, the business process includes the following steps:

s1: ex-warehouse process;

s2: a loading process;

s3: signing in flow;

s4: a receipt management process;

s5: warehousing process;

the ex-warehouse process is used for ex-warehouse management of goods and comprises an order placing process, a goods picking process, a packaging process and a rechecking process; the block link points are used for defining the operation posts of the ex-warehouse process to comprise a single post and an operation group;

the stowage flow is used for the management of goods to be delivered; the block link points are used for defining operation posts of the allocation flow, and the operation posts comprise allocation posts and operation posts;

the signing process is used for signing management of goods; the block link points are used for defining the operation posts of the sign-off process, including dispatchers, drivers, consignees and customer service;

the receipt management process is used for receipt management of goods; the operation post of the block link points for defining the receipt management process comprises an agent, a dispatching part, a business part and a client;

the warehousing process is used for warehousing management of goods; the block link points are used for defining the operation posts of the warehousing process, including an unloading post, an order post, a pre-collecting post, a warehousing post and a post-setting up;

the business process further comprises the following steps:

s21: an abnormal flow;

the abnormal process is used for processing the condition that the cargo transportation link after the stowage process finds the abnormality, and the block chain node is used for defining the operation posts of the abnormal process, including the registered personnel, the processing personnel and the notifying personnel.

The provided intelligent supply chain logistics information platform based on the AIOT and the block chain is composed of the AIOT, the block chain link points and the business process; compared with the prior art, the invention provides a solution for the business of the logistics data, and has the following advantages: (1) the problem that multiple systems are fused into an intelligent supply chain logistics information platform is solved; (2) the system solves the problems of multi-cluster, multi-subsidiary, multi-organization, multi-user, multi-role, functional authority, data authority and multi-data flow management; (3) the system solves the problems of unified platform login and business operation, multi-system and platform data source access and integration, and can be connected to different company systems to be accessed to an intelligent supply chain logistics platform; (4) an open sharing SDK and API interface is provided for the open establishment of industry specifications; (5) the problem that upstream, middle and downstream business flows, information flows, fund flows, business flows and data flows of supply chain logistics are integrated to an intelligent supply chain logistics information platform is solved.

As an embodiment of the present invention, a hardware device includes a computer medium, a mobile terminal, a computer terminal, a server, and a cloud server for implementing a business process.

Preferably, the hardware device is a computer, a server, a notebook computer, a mobile phone, a tablet computer, etc. with an artificial intelligence chip and an intelligent operation function, which are publicly sold in the market.

Referring to fig. 2, as an embodiment of the present invention, the order placing process is completed by an order placing post operation, and the order placing process includes the following steps:

s101: starting;

s102: judging whether the client independently places an order or not; if the order is independently issued by the client, S103 is executed; if the order is not automatically issued by the client, S104 is executed;

s103: ordering by a client; then, S105 is executed;

s104: entering an order; then, S105 is executed;

s105: checking the order;

s106: if the inventory meets the requirement, the examination is passed, and the goods picking process is executed; if the inventory is not satisfied, the examination and the verification are not passed, and S107 is executed;

s107: selecting an order for auditing;

s108: if the inventory meets the requirement, the examination is passed, and the goods picking process is executed; if the inventory is not satisfied, the examination and the verification are not passed, and S109 is executed;

s109: the client is notified.

Referring to fig. 2, a picking process is performed by an operation group, and the picking process comprises the following steps:

s110: gathering the checked orders;

s111: judging whether the wave times need to be automatically optimized; if the wave times need to be automatically optimized, S112 is executed; if the automatic optimization of the wave times is not needed, S113 is executed;

s112: optimizing the wave times according to a wave time rule;

s113: generating a wave number and a picking order according to the picking rule;

s114: issuing a picking task;

s115: receiving and picking the goods;

s116: printing a pick-up order and an order list;

s117: picking up goods;

s118: finishing picking;

s119: judging whether zero removal exists; if yes, executing S120; if the zero is not disassembled, executing a packaging process;

s120: when the zero removal is finished, automatically generating a transfer list;

s121: moving operation; then, executing a packaging process;

wherein, steps S115, S117 and S118 operate through the APP installed in the mobile terminal.

Referring to fig. 2, a packing process and a rechecking process are performed by an operation group, and the packing process includes the following steps:

s122: issuing a packaging task;

s123: receiving a packaging task;

s124: packaging operation;

s125: finishing packaging;

wherein, steps S123, S124 and S125 operate through the APP installed in the mobile terminal;

the rechecking process comprises the following steps:

s126: releasing a rechecking task;

s127: receiving a rechecking task;

s128: printing a pick-up order and an order list;

s129: rechecking operation;

s130: completing rechecking;

wherein, steps S127, S129 and S130 operate through the APP installed in the mobile terminal.

Referring to fig. 3, as an embodiment of the present invention, a stowage flow includes the following steps:

s201: starting; if the loading data of the loading process comes from the freight bill to be loaded, executing S202; if the stowage data of the stowage flow comes from the resource, executing S203;

s202: the method comprises the following steps:

s2021: making a bill and receiving goods; after the waybill is submitted, executing S2023;

s2022: arriving at the unloading; after the unloading is completed, executing S2023;

s2023: generating a to-be-loaded freight bill; then, executing S204;

s203: the method comprises the following steps:

s2031: the purchase order is collected, and after the order is supplemented, S2033 is executed;

s2022: when the unloading is finished, executing S2023;

s2023: generating a resource; then, S205 is executed;

s204: selecting a to-be-loaded freight bill; then, S208 is executed;

s205: selecting a resource;

s206: judging whether the resources are enough; if yes, go to S208; if not, go to S207;

s207: newly adding resources; then, S2033 is executed;

s208: carrying;

s209: adding or adding the uncommitted purchase orders to the stowage result;

s210: judging whether the batch delivery is carried out; if the batch shipment is carried out, S212 is executed; if not, executing S211;

s211: purchasing;

s212: delivering goods;

wherein, the steps S201 to S211 are completed by the stowage shift operation, and the step S212 is completed by the operation shift operation.

Referring to fig. 4, as an embodiment of the present invention, the signing process includes the following steps:

s301: starting;

s302: arriving at the unloading;

s303: judging whether take-out is needed; if the takeout is needed, executing S304; if no take-out is required, go to S306;

s304: carrying out takeout; inputting a takeout waybill and tracking information;

s305: inputting sign-in information and confirming sign-in; then, S316 is executed;

s306: judging whether to dispatch the product; if the dispatch is received, executing S307; if not, executing S317;

s307: the dispatching network points send dispatching instructions;

s308: the dispatcher confirms that dispatching is started;

s309: if the sender is connected to the receiver, S311 is performed; if the sender does not contact the receiver, executing S310;

s310: sending for many times; the dispatch data is returned to the dispatch interface to wait for dispatch again, and then S307 is executed;

s311: if the receiver confirms the receipt, S312 is performed; if the receiver does not receive or rejects the receipt, S314 is performed;

s312: signing a receipt or a receipt with a signature;

s313: taking a receipt, taking a picture of the receipt, signing and uploading; then, S316 is executed;

s314: the telephone contacts the customer service, the customer service and the receiver for communication; to verify and confirm the recipient's rejection;

s315: confirming the rejection of the receiver;

s316: finishing;

s317: the receiver is informed to pick up the goods by telephone;

s318: if the receiver receives the goods, S319 is performed; if the receiver does not receive or rejects the reception, S321 is performed;

s319: the receiver picks up the goods and signs the receipt or the receipt signature;

s320: entering sign-in information and confirming sign-in;

s321: registering a consignee rejection event;

s322: reporting the dispatcher;

s323: finishing;

wherein, the steps S301 to S308, S316 and S317 are completed by the operation of the dispatcher, the steps S309, S310, S313 and S315 are completed by the operation of the driver, the steps S311, S312, S318 and S319 are completed by the operation of the receiver, and the steps S314, S320 to S323 are completed by the operation of the customer service; steps S308, S310, S313 and S315 operate through the APP installed in the mobile terminal.

Referring to fig. 5, as an embodiment of the present invention, a receipt management process includes the following steps:

s401: starting;

s402: signing;

s403: registering the receipt;

s404: confirming whether the receipt meets the requirements; if the receipt meets the requirement, executing S408; if the receipt is not qualified, executing S405;

s405: refuting;

s406: the receipt returning agent informs the agent of re-signing the receipt;

s407: re-signing the receipt and sending the receipt;

s408: confirming receipt of the receipt;

s409: judging whether the receipt is sent by a business department or not; if the business department is sending, executing S412; if not, executing S410;

s410: sending the receipt back to the client;

s411: the client receives the feedback of the receipt information; then executing S415;

s412: sending the receipt to a business department;

s413: the business department receives the receipt;

s414: the customer receives the receipt; (ii) a Then executing S415;

s415: confirming that the customer has received the receipt;

s416: finishing;

wherein, steps S401 to S403 and S407 are completed by proxy operation, steps S404 to S406, S408 to S410, S412 and S416 are completed by dispatch department operation, steps S413 and S415 are completed by business department operation, and steps S411 and S414 are completed by customer operation.

As an embodiment of the present invention, referring to fig. 6, the warehousing process includes an unloading process, a pre-collecting process, a warehousing process, and a loading process;

the unloading process comprises the following steps:

s501: starting;

s501: the vehicle arrives and the unloading is informed;

s503: judging whether to dispatch and pick up goods; if yes, executing S505; if not, executing S504;

s504: newly building a delivery note;

s505: confirming the number of unloaded documents, the number of straight documents and the number of documents;

s506: generating an unloading list;

s507: printing an unloading list;

s508: counting the number of unloading vehicles;

s509: confirming unloading; if so, go to S510; if not, executing S505;

s510: finishing the unloading list; then executing a pre-receiving process;

the pre-receiving process comprises the following steps:

s511: judging whether to dispatch and pick up goods; if not, executing S512; if so, go to S513;

s512: inputting a pre-receipt according to a paper delivery order of a customer; then, S514 is executed;

s513: judging whether a driver records a pre-receiving order or not; if so, go to S514; if not, executing S512; s514: verifying the pre-receipt and submitting the pre-receipt;

s515: receiving a goods receiving task;

s516: printing a pre-receipt;

s517: confirming the number and weight of goods in storage;

s518: checking whether the goods are abnormal; if so, executing S521; if not, go to S519;

s519: judging whether the service is a direct-sending service; if yes, executing S520; if not, go to S522;

s520: finishing;

s521: registering an exception;

s522: checking and accepting the information of the goods put in storage in the pre-acceptance bill;

s523: automatically generating a warehousing entry; then executing a warehouse entry process;

the pre-receiving process also comprises the following steps:

s530: feeding back the revocation warehousing list to the client;

s531: the client replies the processing suggestion; if the customer processing opinion is other customer' S incoming goods, executing S532; if the customer processing opinion is that the return to the factory is required, executing S533; if the customer processing opinion is partial warehousing, executing S534;

s532: re-recording the pre-receipt; then, S535 is executed;

s533: all or part of the cancellation; then, S535 is executed;

s534: partially generating a warehousing list;

s535: finishing the pre-order collection; then executing a warehouse entry process;

the warehouse entry process comprises the following steps:

s524: receiving a warehousing task;

s525: printing a warehousing label;

s526: confirming the weight of the goods;

s527: judging whether the weight of the goods is abnormal or not; if so, go to S528; if not, go to S536;

s528: registering an exception;

s529: canceling the warehousing bill; then executing S530;

s536: warehousing is finished;

s537: finishing warehousing; then executing the racking process;

the racking process comprises the following steps:

s538: automatically detecting orders to be sorted but not generating orders, and automatically generating a goods sorting order;

s539: automatically generating a listing list;

s540: getting the task of putting on the shelf;

s541: printing a shelf list;

s542: judging whether time is available for shelving; if there is time to shelf, perform S545; if not, go to step S543;

s543: putting on the shelf to a goods receiving cache area and completing putting on the shelf;

s544: generating a secondary shelving list and finishing automatic picking;

s545: putting the shelves to a stock area, and completing the shelving;

s546: putting up a single bundle;

wherein, the step S508 is completed by the operation of unloading post, the steps S501 to S507, S509 to S514, S530 to S535 and S529 are completed by the operation of order post, the steps S515 to S523 are completed by the operation of pre-gathering post, the steps S524 to S528 and S536 to S539 are completed by the operation of warehousing post, and the steps S540 to S546 are completed by the operation of putting on the shelf post; steps S515, S517, S521, S522, S524, S528, S536, S540, S543, S544 and S545 operate through the APP installed in the mobile terminal.

Referring to fig. 7, an exception flow according to an embodiment of the present invention includes the following steps:

s2111: starting;

s2112: the goods transportation link is abnormal;

s2113: registering an exception;

s2114: judging whether to inform relevant departments; if so, executing S2115; if not, go to S2116;

s2115: receiving the exception and following the exception; then, S2123 is executed;

s2116: carrying out anomaly analysis;

s2117: judging whether feedback to the client is needed or not; if so, go to S2118; if not, go to S2119;

s2118: the client is notified offline and gives a processing suggestion;

s2119: inputting a treatment suggestion, and selecting a treatment mode;

s2120: judging whether a processing document is generated or not; if so, execute S2121; if not; executing S2122;

s2121: processing documents resulting from the exception;

s2122: a shutdown exception;

s2123: finishing;

wherein, the steps S2111 to S2114 are performed by the registered person, the steps S2116 to S2122 are performed by the processing person, and the steps S2115 and S2123 are performed by the notifying person.

Preferably, the business process is realized by adopting the existing, public and open-source software architecture and software code compiling; the APP for realizing the business process is realized by adopting the existing, public and open-source program code programming; a software programmer in the art can easily implement the schematic diagram according to the present embodiment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The intelligent supply chain logistics information platform based on AIOT and a block chain is characterized in that the platform consists of AIOT, block chain link points and business processes; the AIOT is a hardware device with an artificial intelligence chip for realizing the business process; the block chain link points are used for defining the operation positions of the business process; the platform has an open shared SDK and API interface;

the business process comprises the following steps:

s1: ex-warehouse process;

s2: a loading process;

s3: signing in flow;

s4: a receipt management process;

s5: warehousing process;

the ex-warehouse process is used for ex-warehouse management of goods and comprises an order placing process, a goods picking process, a packaging process and a rechecking process; the block link points are used for defining the operation posts of the ex-warehouse process to comprise a single post and an operation group;

the stowage flow is used for the management of goods to be delivered; the block link points are used for defining the operation posts of the load allocation flow, wherein the operation posts comprise a load allocation post and an operation post;

the signing process is used for signing management of goods; the block link points are used for defining the operation posts of the sign-off process, including dispatchers, drivers, consignees and customer service;

the receipt management process is used for receipt management of goods; the block chain link points are used for defining the operation posts of the receipt management process and comprise agents, a dispatching part, a business part and clients;

the warehousing process is used for warehousing management of goods; the block link points are used for defining the operation posts of the warehousing process, including an unloading post, an order post, a pre-gathering post, a warehousing post and a post-setting up;

the business process further comprises the following steps:

s21: an abnormal flow;

the abnormal process is used for processing the condition that the goods transportation link after the stowage process finds abnormality, and the block link points are used for defining the operation posts of the abnormal process and comprise registered personnel, processing personnel and informing personnel.

2. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 1 wherein the hardware devices comprise computer media, mobile terminals, computer terminals, servers, and cloud servers for implementing the business processes.

3. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 1 wherein said ordering process is performed by said ordering post operation, said ordering process comprising the steps of:

s101: starting;

s102: judging whether the client independently places an order or not; if the order is independently issued by the client, S103 is executed; if the order is not automatically issued by the client, S104 is executed;

s103: ordering by a client; then, S105 is executed;

s104: entering an order; then, S105 is executed;

s105: checking the order;

s106: if the inventory is satisfied, the checking is passed, and the picking process is executed; if the inventory is not satisfied, the examination is not passed, and S107 is executed;

s107: selecting an order for auditing;

s108: if the inventory is satisfied, the checking is passed, and the picking process is executed; if the inventory is not satisfied, the audit is not passed, and S109 is executed;

s109: the client is notified.

4. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 2 wherein said pick up process is performed by said operations group, said pick up process comprising the steps of:

s110: gathering the checked orders;

s111: judging whether the wave times need to be automatically optimized; if the wave times need to be automatically optimized, S112 is executed; if the automatic optimization of the wave times is not needed, S113 is executed;

s112: optimizing the wave times according to a wave time rule;

s113: generating a wave number and a picking order according to the picking rule;

s114: issuing a picking task;

s115: receiving and picking the goods;

s116: printing a pick-up order and an order list;

s117: picking up goods;

s118: finishing picking;

s119: judging whether zero removal exists; if yes, executing S120; if no zero is torn off, the packaging process is executed;

s120: when the zero removal is finished, automatically generating a transfer list;

s121: moving operation; then executing the packaging process;

wherein the steps S115, S117 and S118 are operated by an APP installed in the mobile terminal.

5. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 2 wherein said wrapping process and said review process are performed by said set of operations, said wrapping process comprising the steps of:

s122: issuing a packaging task;

s123: receiving a packaging task;

s124: packaging operation;

s125: finishing packaging;

wherein, the steps S123, S124 and S125 are operated by an APP installed in the mobile terminal;

the rechecking process comprises the following steps:

s126: releasing a rechecking task;

s127: receiving a rechecking task;

s128: printing a pick-up order and an order list;

s129: rechecking operation;

s130: completing rechecking;

wherein the steps S127, S129 and S130 are operated by an APP installed in the mobile terminal.

6. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 1 wherein the stowage process comprises the steps of:

s201: starting; if the loading data of the loading process comes from the freight bill to be loaded, executing S202; if the stowage data of the stowage flow comes from the resource, executing S203;

s202: the method comprises the following steps:

s2021: making a bill and receiving goods; after the waybill is submitted, executing S2023;

s2022: arriving at the unloading; after the unloading is completed, executing S2023;

s2023: generating a to-be-loaded freight bill; then, executing S204;

s203: the method comprises the following steps:

s2031: the purchase order is collected, and after the order is supplemented, S2033 is executed;

s2022: when the unloading is finished, executing S2023;

s2023: generating a resource; then, S205 is executed;

s204: selecting a to-be-loaded freight bill; then, S208 is executed;

s205: selecting a resource;

s206: judging whether the resources are enough; if yes, go to S208; if not, go to S207;

s207: newly adding resources; then, S2033 is executed;

s208: carrying;

s209: adding or adding the uncommitted purchase orders to the stowage result;

s210: judging whether the batch delivery is carried out; if the batch shipment is carried out, S212 is executed; if not, executing S211;

s211: purchasing;

s212: delivering goods;

wherein, the steps S201 to S211 are completed by the stowage shift operation, and the step S212 is completed by the operation shift operation.

7. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 2 wherein the sign-off process comprises the steps of:

s301: starting;

s302: arriving at the unloading;

s303: judging whether take-out is needed; if the takeout is needed, executing S304; if no take-out is required, go to S306;

s304: carrying out takeout; inputting a takeout waybill and tracking information;

s305: inputting sign-in information and confirming sign-in; then, S316 is executed;

s306: judging whether to dispatch the product; if the dispatch is received, executing S307; if not, executing S317;

s307: the dispatching network points send dispatching instructions;

s308: the dispatcher confirms that dispatching is started;

s309: if the sender is connected to the receiver, S311 is performed; if the sender does not contact the receiver, executing S310;

s310: sending for many times; the dispatch data is returned to the dispatch interface to wait for dispatch again, and then S307 is executed;

s311: if the receiver confirms the receipt, S312 is performed; if the receiver does not receive or rejects the delivery, go to S314;

s312: signing a receipt or a receipt with a signature;

s313: taking a receipt, taking a picture of the receipt, signing and uploading; then, S316 is executed;

s314: the telephone contacts the customer service, the customer service and the receiver for communication; to verify and confirm the recipient's rejection;

s315: confirming the rejection of the receiver;

s316: finishing;

s317: the receiver is informed to pick up the goods by telephone;

s318: if the receiver receives the goods, S319 is performed; if the receiver does not receive or rejects the reception, S321 is performed;

s319: the receiver picks up the goods and signs the receipt or the receipt signature;

s320: entering sign-in information and confirming sign-in;

s321: registering a consignee rejection event;

s322: reporting the dispatcher;

s323: finishing;

wherein the steps S301 to S308, S316 and S317 are performed by the dispatcher, the steps S309, S310, S313 and S315 are performed by the driver, the steps S311, S312, S318 and S319 are performed by the consignee, and the steps S314, S320 to S323 are performed by the customer service; the steps S308, S310, S313 and S315 operate through an APP installed in the mobile terminal.

8. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 1 wherein the receipt management process comprises the steps of:

s401: starting;

s402: signing;

s403: registering the receipt;

s404: confirming whether the receipt meets the requirements; if the receipt meets the requirement, executing S408; if the receipt is not qualified, executing S405;

s405: refuting;

s406: the receipt returning agent informs the agent of re-signing the receipt;

s407: re-signing the receipt and sending the receipt;

s408: confirming receipt of the receipt;

s409: judging whether the receipt is sent by a business department or not; if the business department is sending, executing S412; if not, executing S410;

s410: sending the receipt back to the client;

s411: the client receives the feedback of the receipt information; then executing S415;

s412: sending the receipt to a business department;

s413: the business department receives the receipt;

s414: the customer receives the receipt; (ii) a Then executing S415;

s415: confirming that the customer has received the receipt;

s416: finishing;

wherein, the steps S401 to S403 and S407 are completed by the agent operation, the steps S404 to S406, S408 to S410, S412 and S416 are completed by the dispatch unit operation, the steps S413 and S415 are completed by the business department operation, and the steps S411 and S414 are completed by the customer operation.

9. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 2 wherein the warehousing procedures comprise unloading procedures, pre-harvest procedures, warehousing procedures and racking procedures;

the unloading process comprises the following steps:

s501: starting;

s501: the vehicle arrives and the unloading is informed;

s503: judging whether to dispatch and pick up goods; if yes, executing S505; if not, executing S504;

s504: newly building a delivery note;

s505: confirming the number of unloaded documents, the number of straight documents and the number of documents;

s506: generating an unloading list;

s507: printing an unloading list;

s508: counting the number of unloading vehicles;

s509: confirming unloading; if so, go to S510; if not, executing S505;

s510: finishing the unloading list; then executing the pre-receiving process;

the pre-receiving process comprises the following steps:

s511: judging whether to dispatch and pick up goods; if not, executing S512; if so, go to S513;

s512: inputting a pre-receipt according to a paper delivery order of a customer; then, S514 is executed;

s513: judging whether a driver records a pre-receiving order or not; if so, go to S514; if not, executing S512;

s514: verifying the pre-receipt and submitting the pre-receipt;

s515: receiving a goods receiving task;

s516: printing a pre-receipt;

s517: confirming the number and weight of goods in storage;

s518: checking whether the goods are abnormal; if so, executing S521; if not, go to S519;

s519: judging whether the service is a direct-sending service; if yes, executing S520; if not, go to S522;

s520: finishing;

s521: registering an exception;

s522: checking and accepting the information of the goods put in storage in the pre-acceptance bill;

s523: automatically generating a warehousing entry; then executing the warehouse entry process;

the pre-receiving process further comprises the following steps:

s530: feeding back the revocation warehousing list to the client;

s531: the client replies the processing suggestion; if the customer processing opinion is other customer' S incoming goods, executing S532; if the customer processing opinion is that the return to the factory is required, executing S533; if the customer processing opinion is partial warehousing, executing S534;

s532: re-recording the pre-receipt; then, S535 is executed;

s533: all or part of the cancellation; then, S535 is executed;

s534: partially generating a warehousing list;

s535: finishing the pre-order collection; then executing the warehouse entry process;

the warehouse entry process comprises the following steps:

s524: receiving a warehousing task;

s525: printing a warehousing label;

s526: confirming the weight of the goods;

s527: judging whether the weight of the goods is abnormal or not; if so, go to S528; if not, go to S536;

s528: registering an exception;

s529: canceling the warehousing bill; then executing S530;

s536: warehousing is finished;

s537: finishing warehousing; then executing the racking process;

the racking process comprises the following steps:

s538: automatically detecting orders to be sorted but not generating orders, and automatically generating a goods sorting order;

s539: automatically generating a listing list;

s540: getting the task of putting on the shelf;

s541: printing a shelf list;

s542: judging whether time is available for shelving; if there is time to shelf, perform S545; if not, go to step S543;

s543: putting on the shelf to a goods receiving cache area and completing putting on the shelf;

s544: generating a secondary shelving list and finishing automatic picking;

s545: putting the shelves to a stock area, and completing the shelving;

s546: putting up a single bundle;

the step S508 is completed by the unloading post operation, the steps S501 to S507, S509 to S514, S530 to S535, and S529 are completed by the order post operation, the steps S515 to S523 are completed by the pre-post operation, the steps S524 to S528, and S536 to S539 are completed by the warehousing post operation, and the steps S540 to S546 are completed by the on-shelf post operation; the steps S515, S517, S521, S522, S524, S528, S536, S540, S543, S544 and S545 operate through an APP installed in the mobile terminal.

10. The AIOT and blockchain based intelligent supply chain logistics information platform of claim 1 wherein the exception flow includes the steps of:

s2111: starting;

s2112: the goods transportation link is abnormal;

s2113: registering an exception;

s2114: judging whether to inform relevant departments; if so, executing S2115; if not, go to S2116;

s2115: receiving the exception and following the exception; then, S2123 is executed;

s2116: carrying out anomaly analysis;

s2117: judging whether feedback to the client is needed or not; if so, go to S2118; if not, go to S2119;

s2118: the client is notified offline and gives a processing suggestion;

s2119: inputting a treatment suggestion, and selecting a treatment mode;

s2120: judging whether a processing document is generated or not; if so, execute S2121; if not; executing S2122;

s2121: processing documents resulting from the exception;

s2122: a shutdown exception;

s2123: finishing;

wherein the steps S2111 to S2114 are performed by the registered person, the steps S2116 to S2122 are performed by the processing person, and the steps S2115 and S2123 are performed by the notifying person.

Images