CN112132684A - Account settling method and system based on language prediction machine lock group - Google Patents

Abstract

The invention provides a settlement method and a settlement system based on a language prediction machine lock group, wherein the settlement method comprises the following steps: the user configures respective language predictive lock modules on the block chain, and the language predictive lock modules configured for the same transaction to be settled form a language predictive lock group; the user issues transaction and preset locking conditions to the language predictive locking module; judging whether the lock condition modules of the predictive machine lock modules in the predictive machine lock group meet preset lock conditions or not, and processing the trigger of the predictive modules and executing preset block chain transaction when the lock condition modules of the predictive machine lock modules meet corresponding preset requirements; the invention provides a high fault-tolerant atomic transaction settlement function for various block chains in a non-intrusive way by setting the prediction machine lock group, and ensures the reliability of transaction settlement on the block chain which is likely to have rollback; the access prediction machine enables the intelligent contract on one chain to obtain the objective information of another chain or even a non-block chain system, thereby solving the problem of information intercommunication between chains and systems under the chains.

Description

Account settling method and system based on language prediction machine lock group

Technical Field

The invention relates to the technical field of block chains, in particular to a settlement method and a settlement system based on a predictive phone lock group.

Background

In the background, the existing mainstream intelligent contract platform represented by etherhouses has no cross-chain capability in nature. Thus, existing cross-chaining techniques have to propose new or augmented existing blockchain protocols to implement cross-chaining between a family of chains that support a particular blockchain protocol. Indeed, this technical solution has great limitations, and on one hand, it cannot be used on the existing mainstream intelligent contract platform represented by etherhouses, and on the other hand, there is a compatibility problem between different cross-link protocols.

The chinese invention patent CN111145023A (application number: 201911302120.6) discloses a cross-link exchange method based on a trusted prediction machine, which is characterized by comprising the following steps: step 1: a system administrator deploys an intelligent contract on a request chain, requests a user to initiate a cross-chain request through the intelligent contract and opens the cross-chain request in an event log mode; step 2: responding after a requested user of the cross-chain request observes the cross-chain request; and step 3: the node of the propheter under the chain monitors the request event log on the request chain; and 4, step 4: the propheter node processes the monitored request, and sends back the request result to the request chain after obtaining the request result; and 5: verifying the returned result on the request chain; step 6: and after the verification is passed, receiving a request result, performing corresponding processing on the chain, and setting the state of the cross-chain request to be completed. The patent introduces a prophetic machine node to monitor event logs on different chains, processes events at the prophetic machine node, and returns a result to a request chain, which not only depends on a third-party prophetic machine, but also does not solve the problems of limitation and compatibility.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a statement-of-language machine lock group-based settlement method and system.

The invention provides a settlement method based on a language prediction machine lock group, which comprises the following steps:

step M1: the user configures respective language predictive lock modules on the block chain, and the language predictive lock modules configured for the same transaction to be settled form a language predictive lock group;

step M2: a user issues block chain transactions and preset lock conditions to each predictive phone lock module in the predictive phone lock group;

step M3: judging whether the lock condition modules of all the predictive phone lock modules in the predictive phone lock set meet preset lock conditions or not, and processing the trigger of the predictive module and executing preset block chain transaction when the lock condition modules of all the predictive phone lock modules meet corresponding preset requirements;

the prophetic machine lock module comprises a lock condition module and a prophetic processing module;

the lock condition module controls the prediction machine lock module to receive prediction meeting preset conditions;

the language predicting processing module processes the language meeting the preset condition received by the language predicting machine lock module according to the preset rule, and executes the operation of initiating the on-chain transaction, issuing the on-chain data, resetting the lock condition and/or issuing a new language predicting machine lock after the processing.

Preferably, the step M1 includes: different block chains are configured with different prophetic machine lock modules or the same prophetic machine lock module; the same block chain is configured to comprise different prophetic machine lock modules or the same prophetic machine lock module.

Preferably, the step M2 of issuing the transaction to the talker lock by the user includes: ordinary account transfers, information publicity, and blockchain operations through release transactions; the preset locking condition comprises a condition for setting a relative confirmation number to judge and execute the transaction.

Preferably, the step M3 includes: judging whether a lock condition module of a predictive phone lock module of a transaction sender meets a first preset lock condition, when the lock condition module of the predictive phone lock module of the transaction sender meets the first preset lock condition, obtaining predictive phone lock module information and block chain information and/or non-block chain system information of a transaction receiver from a predictive phone service through a predictive phone interaction module, judging whether a second preset lock condition is met according to the obtained predictive phone lock module information and block chain information and/or non-block chain system information of the transaction receiver, and when the lock condition module of the predictive phone lock module of the transaction sender meets the second preset lock condition, processing the trigger of the predictive module and executing the preset block chain transaction;

the first preset locking condition is a locking condition which can be directly judged from a block chain of a prediction machine lock of a sender;

the second preset locking condition is a locking condition judged by information acquired by the prediction machine from another blockchain and/or non-blockchain system;

the predictive controller interaction module realizes the communication between the predictive controller lock module and the predictive controller service through an intelligent contract interface and/or a chain data monitoring program.

The predictive controller interaction module realizes the communication between the predictive controller lock module and the predictive controller service through an intelligent contract interface and/or a chain data monitoring program.

Preferably, the system further comprises a prediction machine lock group, wherein the prediction machine lock group is scheduled by a user on each blockchain through a cross-chain scheduling module to implement cross-chain transaction;

the cross-chain scheduling module constructs a program based on the settlement method of the forecast machine lock group to realize the settlement function and integrates the program into the existing centralized and/or decentralized wallet service.

The invention provides a settlement system based on a language prediction machine lock group, which comprises:

module M1: the user configures respective language predictive lock modules on the block chain, and the language predictive lock modules configured for the same transaction to be settled form a language predictive lock group;

module M2: a user issues block chain transactions and preset lock conditions to each predictive phone lock module in the predictive phone lock group;

module M3: judging whether the lock condition modules of all the predictive phone lock modules in the predictive phone lock set meet preset lock conditions or not, and processing the trigger of the predictive module and executing preset block chain transaction when the lock condition modules of all the predictive phone lock modules meet corresponding preset requirements;

the prophetic machine lock module comprises a lock condition module and a prophetic processing module;

the lock condition module controls the prediction machine lock module to receive prediction meeting preset conditions;

the language predicting processing module processes the language meeting the preset condition received by the language predicting machine lock module according to the preset rule, and executes the operation of initiating the on-chain transaction, issuing the on-chain data, resetting the lock condition and/or issuing a new language predicting machine lock after the processing.

Preferably, said module M1 comprises: different block chains are configured with different prophetic machine lock modules or the same prophetic machine lock module; the same block chain is configured to comprise different prophetic machine lock modules or the same prophetic machine lock module.

Preferably, the issuing of the transaction to the predictive lock by the user in the module M2 includes: ordinary account transfers, information publicity, and blockchain operations through release transactions; the preset locking condition comprises a condition for setting a relative confirmation number to judge and execute the transaction.

Preferably, said module M3 comprises: judging whether a lock condition module of a predictive phone lock module of a transaction sender meets a first preset lock condition, when the lock condition module of the predictive phone lock module of the transaction sender meets the first preset lock condition, obtaining predictive phone lock module information and block chain information and/or non-block chain system information of a transaction receiver from a predictive phone service through a predictive phone interaction module, judging whether a second preset lock condition is met according to the obtained predictive phone lock module information and block chain information and/or non-block chain system information of the transaction receiver, and when the lock condition module of the predictive phone lock module of the transaction sender meets the second preset lock condition, processing the trigger of the predictive module and executing the preset block chain transaction;

the first preset locking condition is a locking condition which can be directly judged from a block chain of a prediction machine lock of a sender;

the second preset lock condition is a lock condition judged by depending on information acquired by the prediction machine from another blockchain and/or non-blockchain system.

The predictive controller interaction module realizes the communication between the predictive controller lock module and the predictive controller service through an intelligent contract interface and/or a chain data monitoring program.

Preferably, the system further comprises a prediction machine lock group, wherein the prediction machine lock group is scheduled by a user on each blockchain through a cross-chain scheduling module to implement cross-chain transaction;

the cross-chain scheduling module constructs a program based on the settlement method of the forecast machine lock group to realize the settlement function and integrates the program into the existing centralized and/or decentralized wallet service.

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

1. the prediction machine lock group is a non-invasive technology, can provide a high fault-tolerant atomic transaction settlement function for various block chains, can conveniently realize a cross-chain protocol among a plurality of block chains on the basis of the technology under the condition of not modifying the original protocol of the block chains, and can also be configured on the same block chain to realize the atomic settlement among users;

2. the invention judges whether the relative confirmation numbers of different block chains meet the preset condition by introducing the lock condition module, so that the reliability of transaction settlement can be ensured on the block chain which is likely to have rollback by the language predicting machine lock group;

3. the invention can make the intelligent contract on one chain obtain the objective information of another chain or even a non-block chain system by accessing the prediction machine, thereby solving the problem of information intercommunication between chains and systems under the chains.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic diagram of a prophetic lock module;

FIG. 2 is a schematic diagram of a transaction flow from the perspective of a single predictive lock;

FIG. 3 is a schematic diagram illustrating a process for implementing a cross-chain transaction from a perspective of a predictive engine lock set.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

Example 1

The invention provides a settlement method based on a language prediction machine lock group, which comprises the following steps:

step M1: the user configures respective language predictive lock modules on the block chain, and the language predictive lock modules configured for the same transaction to be settled form a language predictive lock group;

step M2: a user issues block chain transactions and preset lock conditions to each predictive phone lock module in the predictive phone lock group;

step M3: judging whether the lock condition modules of all the predictive phone lock modules in the predictive phone lock set meet preset lock conditions or not, and processing the trigger of the predictive module and executing preset block chain transaction when the lock condition modules of all the predictive phone lock modules meet corresponding preset requirements;

the prophetic machine lock module comprises a lock condition module and a prophetic processing module;

the lock condition module controls the prediction machine lock module to receive prediction meeting preset conditions;

the language predicting processing module processes the language meeting the preset condition received by the language predicting machine lock module according to the preset rule, and executes the operation of initiating the on-chain transaction, issuing the on-chain data, resetting the lock condition and/or issuing a new language predicting machine lock after the processing.

Specifically, the step M1 includes: different block chains are configured with different prophetic machine lock modules or the same prophetic machine lock module; the same block chain is configured to comprise different prophetic machine lock modules or the same prophetic machine lock module.

Specifically, the step M2 where the user issues the transaction to the talker lock includes: ordinary account transfers, information publicity, and blockchain operations through release transactions; the preset locking condition comprises a condition for setting a relative confirmation number to judge and execute the transaction.

Specifically, the step M3 includes: judging whether a lock condition module of a predictive phone lock module of a transaction sender meets a first preset lock condition, when the lock condition module of the predictive phone lock module of the transaction sender meets the first preset lock condition, obtaining predictive phone lock module information and block chain information and/or non-block chain system information of a transaction receiver from a predictive phone service through a predictive phone interaction module, judging whether a second preset lock condition is met according to the obtained predictive phone lock module information and block chain information and/or non-block chain system information of the transaction receiver, and when the lock condition module of the predictive phone lock module of the transaction sender meets the second preset lock condition, processing the trigger of the predictive module and executing the preset block chain transaction;

the first preset locking condition is a locking condition which can be directly judged from a block chain of a prediction machine lock of a sender;

the second preset locking condition is a locking condition judged by information acquired by the prediction machine from another blockchain and/or non-blockchain system;

the predictive controller interaction module realizes the communication between the predictive controller lock module and the predictive controller service through an intelligent contract interface and/or a chain data monitoring program.

Specifically, the method further comprises the steps that a prediction machine lock group is scheduled by a user on each blockchain through a cross-chain scheduling module to implement cross-chain transaction;

the cross-chain scheduling module constructs a program based on the settlement method of the forecast machine lock group to realize the settlement function and integrates the program into the existing centralized and/or decentralized wallet service.

According to the settlement system based on the language prediction machine lock set provided by the invention, as shown in fig. 1, the settlement system comprises:

module M1: the user configures respective language predictive lock modules on the block chain, and the language predictive lock modules configured for the same transaction to be settled form a language predictive lock group;

module M2: a user issues block chain transactions and preset lock conditions to each predictive phone lock module in the predictive phone lock group;

module M3: judging whether the lock condition modules of all the predictive phone lock modules in the predictive phone lock set meet preset lock conditions or not, and processing the trigger of the predictive module and executing preset block chain transaction when the lock condition modules of all the predictive phone lock modules meet corresponding preset requirements;

the prophetic machine lock module comprises a lock condition module and a prophetic processing module;

the lock condition module controls the prediction machine lock module to receive prediction meeting preset conditions;

the language predicting processing module processes the language meeting the preset condition received by the language predicting machine lock module according to the preset rule, and executes the operation of initiating the on-chain transaction, issuing the on-chain data, resetting the lock condition and/or issuing a new language predicting machine lock after the processing.

Specifically, the module M1 includes: different block chains are configured with different prophetic machine lock modules or the same prophetic machine lock module; the same block chain is configured to comprise different prophetic machine lock modules or the same prophetic machine lock module.

Specifically, the issuing of the transaction to the talker lock by the user in the module M2 includes: ordinary account transfers, information publicity, and blockchain operations through release transactions; the preset locking condition comprises a condition for setting a relative confirmation number to judge and execute the transaction.

Specifically, the module M3 includes: judging whether a lock condition module of a predictive phone lock module of a transaction sender meets a first preset lock condition, when the lock condition module of the predictive phone lock module of the transaction sender meets the first preset lock condition, obtaining predictive phone lock module information and block chain information and/or non-block chain system information of a transaction receiver from a predictive phone service through a predictive phone interaction module, judging whether a second preset lock condition is met according to the obtained predictive phone lock module information and block chain information and/or non-block chain system information of the transaction receiver, and when the lock condition module of the predictive phone lock module of the transaction sender meets the second preset lock condition, processing the trigger of the predictive module and executing the preset block chain transaction;

the first preset locking condition is a locking condition which can be directly judged from a block chain of a prediction machine lock of a sender;

the second preset locking condition is a locking condition judged by information acquired by the prediction machine from another blockchain and/or non-blockchain system;

the predictive controller interaction module realizes the communication between the predictive controller lock module and the predictive controller service through an intelligent contract interface and/or a chain data monitoring program.

Specifically, the method further comprises the steps that a prediction machine lock group is scheduled by a user on each blockchain through a cross-chain scheduling module to implement cross-chain transaction;

the cross-chain scheduling module constructs a program based on the settlement method of the forecast machine lock group to realize the settlement function and integrates the program into the existing centralized and/or decentralized wallet service.

Example 2

Example 2 is a modification of example 1

The invention provides a prophetic machine lock concept, which provides reliable atomicity for transactions on different chains by configuring prophetic machine locks on different block chains and receiving prophetic and triggering transactions on the block chains according to a certain rule.

The invention provides a settlement system based on a language prediction machine lock group, which comprises:

the language predicting machine lock module: the module is a module for actually executing operations on a chain, and scheduling the predictive engine locks on each block chain by using the method described in the invention can realize chain crossing, and the scheduling can be completed by a chain crossing scheduling module, the predictive engine locks on different chains can be different, the predictive engine locks on the same chain can also be realized differently, and the module is further divided into a lock condition module, a predictive engine interaction module and a predictive processing module.

Locking the condition module: the module can be realized as an independent smart contract and/or a smart contract template and/or a smart contract or a part of a smart contract template, and controls the situation under which a prediction machine lock accepts what form of prediction from where, the prediction is equivalent to the key of the prediction machine lock, and after receiving the prediction capable of being used as the key, the lock condition module forwards the prediction to the prediction processing module for further processing.

A prediction processing module: the module may be implemented as a stand-alone intelligent contract and/or an intelligent contract template and/or a portion of an intelligent contract or intelligent contract template, which processes received predictions and performs subsequent operations according to pre-specified rules, including but not limited to: initiating an on-chain transaction, issuing on-chain data, resetting lock conditions, issuing new predictive locks, and the like.

The language predicting machine interaction module: the module can be realized as an intelligent contract interface and/or a chain data monitoring program, the specific realization is related to a specific chain and a prediction machine, and the module is adapted to various chains and various prediction machines and/or prediction machine networks; the module is responsible for the communication between the book teller lock and the book teller.

A cross-chain scheduling module: this is an optional module. The module can be integrated into the existing centralized and/or decentralized wallet service.

The module programs a predictive phone lock group chain-crossing method, and configures the predictive phone locks on each chain by considering the conditions of relative confirmation number, handling fee and the like so as to achieve the chain-crossing effect required by a user.

Example 3

Example 3 is a modification of example 1 and/or example 2

A simple transfer via a predictive lock on one chain is shown in figure 2. The initiator is a transfer initiator; the receiver is the receiver of the transfer; the implementation of the prophetic machine lock is an intelligent contract; the predictive machine services are services provided by a centralized and/or decentralized predictive machine and/or predictive machine network. Assuming that the initiator makes an appointment with the receiver, the initiator pays a certain fee to the receiver after a certain condition is met. The appointment can be described by a predictive machine lock, and the promissory to the block chain is the promissory to the receiving party; whether the condition is met or not is judged by the predictive controller service and the predictive controller lock is informed; when the predictive mechanical lock confirms the prediction that the symbolic condition is met, the predictive mechanical lock transfers the preset amount to the receiver according to the agreement.

According to DvP settlement of settlement method based on the predictive phone lock group, a user a wants to purchase a lot of goods from a user b on line, and the user a and the user b issue transactions and information by using the same blockchain. User a wants to transfer money on the chain after b is shipped, and user b wants to ensure that a transfers money after b is shipped. Then, they set the propheter lock on the blockchain respectively, a sets the condition that the transaction issued by themselves meets m confirmation numbers and b issues a piece of delivery voucher information provided by the appointed third-party logistics company on the blockchain, and b sets the condition that a has issued the transaction information in the propheter lock and meets m confirmation numbers. After negotiation, a issues a transaction to transfer funds to an intermediate account which can be controlled by the predictive phone lock of a, b delivers goods and issues a delivery certificate to the predictive phone lock of b after the confirmation number condition is met, meanwhile, the predictive phone lock of a starts to receive predictive service and knows that b has delivered goods, and then the predictive phone lock of a executes transaction to transfer the intermediate account funds to the account of b. Of course, the prediction engine lock set can also be applied to a plurality of block chains to realize cross-chain transaction.

As shown in fig. 3, a cross-chain agreement based on the settlement method of the preplan lock group, where two participating parties agree to exchange assets on one chain for assets on the other chain with assets on one chain, i.e. on one chain, the first transfers to the second, and on the other chain, the second transfers to the first, then for each transfer of assets there is an agreement as shown in fig. 2 on each chain, since the preplan locks on both chains are symmetrical, so in fig. 3 we only concern the preplan lock on one chain and the agreement described therein, in fig. 3 the initiator is the first, the receiver is the second, then the agreement is that, if on the other chain, the second transfers assets to the first, on this chain, the first transfers assets to the second, and in order to remove the adversary's risk, the two parties each make an agreement on both chains, i.e. configure the preplan lock, at a future time, if the other party's agreement is valid (as it is embodied that the corresponding preplan lock exists on the chain), then transfer is performed, to avoid the risk of block rollback, this future time is set to another chain, i.e. after the block where the corresponding prophetic lock on the target chain in the graph satisfies the confirmation number, and further, this future time is represented as a relative confirmation number. Firstly, a prediction machine lock pair is configured; after the configuration is completed, waiting for the relative confirmation number to be satisfied; after the relative confirmation number is met, the predicting machine service informs the situation of the corresponding predicting machine lock on the predicting machine lock target chain; and finally, performing subsequent processing on the prediction machine lock according to prediction.

Those skilled in the art will appreciate that, in addition to implementing the systems, apparatus, and various modules thereof provided by the present invention in purely computer readable program code, the same procedures can be implemented entirely by logically programming method steps such that the systems, apparatus, and various modules thereof are provided in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Therefore, the system, the device and the modules thereof provided by the present invention can be considered as a hardware component, and the modules included in the system, the device and the modules thereof for implementing various programs can also be considered as structures in the hardware component; modules for performing various functions may also be considered to be both software programs for performing the methods and structures within hardware components.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. A settlement method based on a prediction machine lock group is characterized by comprising the following steps:

step M1: the user configures respective language predictive lock modules on the block chain, and the language predictive lock modules configured for the same transaction to be settled form a language predictive lock group;

step M2: a user issues block chain transactions and preset lock conditions to each predictive phone lock module in the predictive phone lock group;

step M3: judging whether the lock condition modules of all the predictive phone lock modules in the predictive phone lock set meet preset lock conditions or not, and processing the trigger of the predictive module and executing preset block chain transaction when the lock condition modules of all the predictive phone lock modules meet corresponding preset requirements;

the prophetic machine lock module comprises a lock condition module and a prophetic processing module;

the lock condition module controls the prediction machine lock module to receive prediction meeting preset conditions;

the language predicting processing module processes the language meeting the preset condition received by the language predicting machine lock module according to the preset rule, and executes the operation of initiating the on-chain transaction, issuing the on-chain data, resetting the lock condition and/or issuing a new language predicting machine lock after the processing.

2. The method for settlement based on the predictive machine lock set according to claim 1, wherein the step M1 comprises: different block chains are configured with different prophetic machine lock modules or the same prophetic machine lock module; the same block chain is configured to comprise different prophetic machine lock modules or the same prophetic machine lock module.

3. The method for settlement based on the predictive phone lock set according to claim 1, wherein the step M2 of issuing the transaction to the predictive phone lock by the user comprises: ordinary account transfers, information publicity, and blockchain operations through release transactions; the preset locking condition comprises a condition for setting a relative confirmation number to judge and execute the transaction.

4. The method for settlement based on the predictive machine lock set according to claim 1, wherein the step M3 comprises: judging whether a lock condition module of a predictive phone lock module of a transaction sender meets a first preset lock condition, when the lock condition module of the predictive phone lock module of the transaction sender meets the first preset lock condition, obtaining predictive phone lock module information and block chain information and/or non-block chain system information of a transaction receiver from a predictive phone service through a predictive phone interaction module, judging whether a second preset lock condition is met according to the obtained predictive phone lock module information and block chain information and/or non-block chain system information of the transaction receiver, and when the lock condition module of the predictive phone lock module of the transaction sender meets the second preset lock condition, processing the trigger of the predictive module and executing the preset block chain transaction;

the first preset locking condition is a locking condition which can be directly judged from a block chain of a prediction machine lock of a sender;

the second preset locking condition is a locking condition judged by information acquired by the prediction machine from another blockchain and/or non-blockchain system;

the predictive controller interaction module realizes the communication between the predictive controller lock module and the predictive controller service through an intelligent contract interface and/or a chain data monitoring program.

5. The method according to claim 1, further comprising scheduling the implementation of the cross-chain transaction by the predictive machine lock group through the cross-chain scheduling module on each blockchain by the user;

the cross-chain scheduling module constructs a program based on the settlement method of the forecast machine lock group to realize the settlement function and integrates the program into the existing centralized and/or decentralized wallet service.

6. A statement-of-account system based on a predictive-machine lock set, comprising:

module M1: the user configures respective language predictive lock modules on the block chain, and the language predictive lock modules configured for the same transaction to be settled form a language predictive lock group;

module M2: a user issues block chain transactions and preset lock conditions to each predictive phone lock module in the predictive phone lock group;

module M3: judging whether the lock condition modules of all the predictive phone lock modules in the predictive phone lock set meet preset lock conditions or not, and processing the trigger of the predictive module and executing preset block chain transaction when the lock condition modules of all the predictive phone lock modules meet corresponding preset requirements;

the prophetic machine lock module comprises a lock condition module and a prophetic processing module;

the lock condition module controls the prediction machine lock module to receive prediction meeting preset conditions;

the language predicting processing module processes the language meeting the preset condition received by the language predicting machine lock module according to the preset rule, and executes the operation of initiating the on-chain transaction, issuing the on-chain data, resetting the lock condition and/or issuing a new language predicting machine lock after the processing.

7. The predictive machine lock group-based settlement system of claim 6, wherein the module M1 comprises: different block chains are configured with different prophetic machine lock modules or the same prophetic machine lock module; the same block chain is configured to comprise different prophetic machine lock modules or the same prophetic machine lock module.

8. The system according to claim 6, wherein the module M2 for issuing the transaction to the predictive lock by the user comprises: ordinary account transfers, information publicity, and blockchain operations through release transactions; the preset locking condition comprises a condition for setting a relative confirmation number to judge and execute the transaction.

9. The predictive machine lock group-based settlement system of claim 6, wherein the module M3 comprises: judging whether a lock condition module of a predictive phone lock module of a transaction sender meets a first preset lock condition, when the lock condition module of the predictive phone lock module of the transaction sender meets the first preset lock condition, obtaining predictive phone lock module information and block chain information and/or non-block chain system information of a transaction receiver from a predictive phone service through a predictive phone interaction module, judging whether a second preset lock condition is met according to the obtained predictive phone lock module information and block chain information and/or non-block chain system information of the transaction receiver, and when the lock condition module of the predictive phone lock module of the transaction sender meets the second preset lock condition, processing the trigger of the predictive module and executing the preset block chain transaction;

the first preset locking condition is a locking condition which can be directly judged from a block chain of a prediction machine lock of a sender;

the second preset locking condition is a locking condition judged by information acquired by the prediction machine from another blockchain and/or non-blockchain system;

the predictive controller interaction module realizes the communication between the predictive controller lock module and the predictive controller service through an intelligent contract interface and/or a chain data monitoring program.

10. The claim 6, further comprising the predictive engine lock group to implement the cross-chain transaction by the user on each blockchain through the cross-chain scheduling module;

the cross-chain scheduling module constructs a program based on the settlement method of the forecast machine lock group to realize the settlement function and integrates the program into the existing centralized and/or decentralized wallet service.

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