Multi-terminal centralized control stock trading system constructed based on RPA technology
Technical Field
The invention relates to the technical field of stock trading, in particular to a multi-terminal centralized control stock trading system constructed based on an RPA technology.
Background
RPA is named as robot-Process-Automation, and Chinese is named as robot Process Automation. Mainly for handling highly repeatable tasks: robots implemented by software programming languages can handle repeated human tasks. For example: mouse click, keyboard input, copy/paste and other daily computer operations to realize the effect of partially replacing manual work by a program robot. At present, the method has wide application in the fields with low precision requirement and low fault tolerance standard.
Under the influence of a market operation mechanism, the current asset management company has the condition of multi-terminal transaction. For example, each private fund raising company may be entrusted with multiple dealers, depending on business needs. Each dealer will provide independent transaction terminal software to its own customer. This results in many private recruiters needing to run up to several tens of transaction terminals simultaneously for trading operations. However, in the actual situation, when the trading market changes, the trader often wants to make orders at all trading terminals at the same time, but it is not practical to switch dozens of software sets quickly in a short time and complete the stock buying and selling operation. Aiming at the problems, a scheme for realizing centralized control and batch synchronous operation of a plurality of stock trading clients through RPA (remote platform application) robot technology is provided.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a multi-terminal centralized control stock trading system constructed based on an RPA technology, which has the advantages that the automatic and accurate operation can be realized through an RPA robot, the batch processing can be realized through one key through the RPA robot, the influence of a market operation mechanism is solved, and the condition of multi-terminal trading commonly exists in the current asset management company. For example, each private fund raising company may be entrusted with multiple dealers, depending on business needs. Each dealer will provide independent transaction terminal software to its own customer. This results in many private recruiters needing to run up to several tens of transaction terminals simultaneously for trading operations. However, it is not practical to switch dozens of software quickly in a short time and complete stock buying and selling operations.
(II) technical scheme
In order to realize the above, the RPA robot can automatically and accurately operate, and the RPA robot can process batch by one key, the invention provides the following technical scheme: the multi-terminal centralized control stock transaction system constructed based on the RPA technology comprises a mobile terminal, wherein the output end of the mobile terminal is in signal connection with the receiving end of APP download software, the output end of the APP download software is in signal connection with the receiving end of a centralized transaction client, the output end of the centralized transaction client is in signal connection with the receiving end of a server safe login module, the receiving end of the server safe login module is in signal connection with the receiving end of a password verification module, the output end of the password verification module is in signal connection with the receiving end of an RPA control server and the receiving end of a password re-verification module respectively, the output end of the password re-verification module is in signal connection with the receiving end of a transaction cancellation module and the receiving end of the RPA control server respectively, and the output end of the RPA control server is in signal connection with the receiving end of an instruction input module, the output end of the instruction input module is in signal connection with the receiving end of the instruction translation module, the output end of the instruction translation module is in signal connection with the receiving end of the robot instruction receiving module, the output end of the robot instruction receiving module is in signal connection with the receiving end of the robot central processing module, the output end of the robot central processing module is in signal connection with the receiving end of the first robot instruction sending module, the receiving end of the second robot instruction sending module and the receiving end of the third robot instruction sending module respectively, the output end of the first robot instruction sending module is in signal connection with the receiving end of the instruction receiving module, the output end of the second robot instruction sending module is in signal connection with the receiving end of the instruction receiving module, and the output end of the third robot instruction sending module is in signal connection with the receiving end of the instruction receiving module, the output end of the instruction receiving module is in signal connection with the receiving end of the instruction verifying module and the receiving end of the robot central processing module respectively, the output end of the instruction verifying module is in signal connection with the receiving end of the stock trading terminal, the output end of the stock trading terminal is in signal connection with the receiving end of the operation module, the output end of the operation module is in signal connection with the receiving end and the receiving end of the client checking information module, the output end of the client checking information module is in signal connection with the receiving end of the client information confirming module and the receiving end of the trading canceling module respectively, the output end of the client information confirming module is in signal connection with the receiving end of the trading finishing module, and the output end of the trading finishing module is in signal connection with the receiving end of the mobile terminal.
Preferably, the operating method of the multi-terminal centralized control stock trading system constructed based on the RPA technology comprises the following operating steps:
the user uses the mobile terminal to download the concentrated transaction client by the APP download software, the concentrated transaction client is downloaded and then enters the server security login module for login, the password verification module is entered after inputting the account number for password verification, the password is entered into the RPA control server if the password is correct for the first time, the password is entered into the password re-verification module if the password is incorrect, the password is entered again, the transaction is cancelled by the transaction cancellation module if the password is incorrect for the second time, the transaction is cancelled by the RPA control server if the password is correct for the second time, the RPA control server enters the instruction input module after passing through the instruction input module, the transaction instruction information enters the instruction translation module after the transaction instruction is input, the instruction information is translated into the instruction of the robot operation, and the robot instruction receiving module receives and transmits the successfully translated instruction to the robot central processing module, the central processing module of the robot respectively transmits the instruction to the first robot instruction sending module, the first robot instruction sending module and the first robot instruction sending module according to different operating systems, the instruction receiving module receives the instruction after the instruction is sent out, the instruction receiving module verifies the received instruction information, if the instruction is incorrect, the instruction is returned to the central processing module of the robot for transmitting again, if the instruction is correct, the stock trading terminal enters the stock trading terminal, the stock trading terminal enters the operating module for operating, after the operation of the operation module is finished, the operation module enters a client information checking module to check information, if the information is incorrect, the operation module enters a transaction canceling module to cancel the transaction, if the information is correct, the operation module enters a client information confirming module to confirm, after the confirmation, the operation module enters a transaction finishing module to be filed, and after the filing is finished, the information is sent out and transmitted to a mobile terminal of a user.
(III) advantageous effects
Compared with the prior art, the invention provides a multi-terminal centralized control stock trading system constructed based on the RPA technology, which has the following beneficial effects:
1. the multi-terminal centralized control stock transaction system constructed based on the RPA technology has the advantages that a user downloads a plurality of transaction clients from APP download software by using a mobile terminal, the transaction clients enter a server security login module to perform password verification login, a password verification module displays that a password passes through and then directly enters an RPA robot server, an RPA robot is started to perform automatic accurate operation of the next-order operation, if the password verification module displays that the password is wrong, the password is secondarily verified, the password secondary verification module displays that the secondary password is correct, the RPA robot is also started to perform automatic accurate operation of the next-order operation, and the password secondary verification module displays that the secondary password is wrong, the transaction cancellation module cancels the transaction, so that the RPA robot can accurately operate.
2. The multi-terminal centralized control stock trading system constructed based on the RPA technology transmits received translation information to the robot central processing module through the robot instruction receiving module, the robot central processing module respectively transmits trading instruction information to different operating systems for unified processing, each robot instruction sending module corresponds to different operating systems, the robot instruction receiving module enters the instruction receiving module after operation is finished, the instruction receiving module receives the finished instruction of each system, the received instruction enters the instruction verifying module for verifying the correctness and the mistakes of the instructions of the different systems, the instruction enters the stock trading terminal for operation if the instruction is correct, and the instruction returns to the robot central processing module for reprocessing if the instruction is incorrect, so that the RPA robot can perform batch processing by one key.
Drawings
FIG. 1 is a block diagram of the system of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, the multi-terminal centralized control stock trading system constructed based on the RPA technology includes a mobile terminal, an output terminal of the mobile terminal is in signal connection with a receiving terminal of APP download software, an output terminal of the APP download software is in signal connection with a receiving terminal of a centralized trading client, an output terminal of the centralized trading client is in signal connection with a receiving terminal of a server secure login module, a receiving terminal of the server secure login module is in signal connection with a receiving terminal of a password verification module, an output terminal of the password verification module is in signal connection with a receiving terminal of an RPA control server and a receiving terminal of a password re-verification module, an output terminal of the password re-verification module is in signal connection with a receiving terminal of a trade cancellation module and a receiving terminal of an RPA control server, an output terminal of the RPA control server is in signal connection with a receiving terminal of an instruction input module, and an output terminal of the instruction input module is in signal connection with a receiving terminal of an instruction translation module, the output end of the instruction translation module is in signal connection with the receiving end of the robot instruction receiving module, the output end of the robot instruction receiving module is in signal connection with the receiving end of the robot central processing module, the output end of the robot central processing module is in signal connection with the receiving end of the first robot instruction sending module, the receiving end of the second robot instruction sending module and the receiving end of the third robot instruction sending module respectively, the output end of the first robot instruction sending module is in signal connection with the receiving end of the instruction receiving module, the output end of the second robot instruction sending module is in signal connection with the receiving end of the instruction receiving module, the output end of the third robot instruction sending module is in signal connection with the receiving end of the instruction receiving module, and the output end of the instruction receiving module is in signal connection with the receiving end of the instruction verification module and the receiving end of the robot central processing module respectively, the output end of the instruction verification module is in signal connection with the receiving end of the stock trading terminal, the output end of the stock trading terminal is in signal connection with the receiving end of the operation module, the output end of the operation module is in signal connection with the receiving end and the receiving end of the client checking information module, the output end of the client checking information module is in signal connection with the receiving end of the client information confirmation module and the receiving end of the trading cancellation module respectively, the output end of the client information confirmation module is in signal connection with the receiving end of the trading completion module, and the output end of the trading completion module is in signal connection with the receiving end of the mobile terminal.
The operating method of the stock trading system with the centralized control of multiple terminals constructed based on the RPA technology comprises the following operating steps:
the user uses the mobile terminal to download the concentrated transaction client by the APP download software, the concentrated transaction client is downloaded and then enters the server security login module for login, the password verification module is entered after inputting the account number for password verification, the password is entered into the RPA control server if the password is correct for the first time, the password is entered into the password re-verification module if the password is incorrect, the password is entered again, the transaction is cancelled by the transaction cancellation module if the password is incorrect for the second time, the transaction is cancelled by the RPA control server if the password is correct for the second time, the RPA control server enters the instruction input module after passing through the instruction input module, the transaction instruction information enters the instruction translation module after the transaction instruction is input, the instruction information is translated into the instruction of the robot operation, and the robot instruction receiving module receives and transmits the successfully translated instruction to the robot central processing module, the central processing module of the robot respectively transmits the instruction to a first robot instruction sending module, a second robot instruction sending module and a third robot instruction sending module according to different operating systems, an instruction receiving module receives the instruction after the instruction is sent out, the instruction receiving module verifies the received instruction information, if the instruction is incorrect, the instruction is returned to the central processing module of the robot for transmitting again, if the instruction is correct, the stock trading terminal enters a stock trading terminal, and the stock trading terminal enters an operating module for operating, after the operation of the operation module is finished, the operation module enters a client information checking module to check information, if the information is incorrect, the operation module enters a transaction canceling module to cancel the transaction, if the information is correct, the operation module enters a client information confirming module to confirm, after the confirmation, the operation module enters a transaction finishing module to be filed, and after the filing is finished, the information is sent out and transmitted to a mobile terminal of a user.
The working principle is that the multi-terminal centralized control stock transaction system constructed based on the RPA technology, a user downloads a plurality of transaction clients from APP download software by using a mobile terminal, enters a server security login module to perform password verification login, directly enters an RPA robot server when a password is displayed by a password verification module to start an RPA robot to perform automatic precise operation of the next sequence operation, performs secondary verification when the password verification module displays that the password is wrong, starts the RPA robot to perform automatic precise operation of the next sequence operation when the password re-verification module displays that the secondary password is correct, cancels the transaction by a transaction cancellation module when the password re-verification module displays that the secondary password is wrong, achieves the purpose that the RPA robot can operate precisely, and transmits received translation information to a central processing module of the robot by a robot instruction receiving module, the central processing module of the robot can transmit the transaction instruction information to different operating systems respectively for unified processing, each instruction sending module of the robot corresponds to different operating systems, the robot enters the instruction receiving module after the operation is finished, the instruction receiving module receives the completed instruction of each system, the robot enters the instruction verifying module after the instruction receiving module receives the instruction, the instruction of different systems is verified to be correct and wrong, the instruction can enter the stock transaction terminal for operation if the instruction is correct, the robot returns to the central processing module of the robot for reprocessing if the instruction is incorrect, and therefore the RPA robot can perform batch processing by one key.
To sum up, in the multi-terminal centralized control stock transaction system constructed based on the RPA technology, a user downloads a plurality of transaction clients from APP download software by using a mobile terminal, enters a server security login module to perform password verification login, directly enters an RPA robot server when a password passes through the password verification module, starts an RPA robot to perform automatic precise operation of the downlink operation, performs secondary verification if the password is wrong, starts the RPA robot to perform automatic precise operation of the downlink operation when the password is correct again verified, cancels the transaction by a transaction cancellation module when the password is wrong again displayed by the password re-verification module, so that the RPA robot can operate precisely, the multi-terminal centralized control stock transaction system constructed based on the RPA technology transmits received translation information to a central processing module of the robot through a command receiving module of the robot, the central processing module of the robot can transmit the transaction instruction information to different operating systems respectively for unified processing, each instruction sending module of the robot corresponds to different operating systems, the robot enters the instruction receiving module after the operation is finished, the instruction receiving module receives the completed instruction of each system, the robot enters the instruction verifying module after the instruction receiving module receives the instruction, the instruction of different systems is verified to be correct and wrong, the instruction can enter the stock transaction terminal for operation if the instruction is correct, the robot returns to the central processing module of the robot for reprocessing if the instruction is incorrect, and therefore the RPA robot can perform batch processing by one key.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.