OA21995A - Online transaction management system in the fields of finance and commerce. - Google Patents

Abstract

The invention relates to an online transaction management device in the fields of finance and commerce, comprising an IPP (1), a terminal 1 (2), a server 1 (3), a server 2 (4), a terminal 2 (5), and another computer (6) in a governed network. In particular, the receiver (7) locks and unlocks the IPP (1) receiving the information. The divert router 1 (8) diverts the virtual value and the cash link from terminal 1 (2) to server 1 (3), which, having recognized and notified the transaction, relays them to the cashier monitor (9), from which the activated transaction slip from the messaging system (10) is displayed. The divert router 2 (11) then relays the cash received to the custodian (12), along with the profiling of the two parties involved. The direct router 1(13) transfers the demonetary message from the cashier monitor (9) to terminal 2 (5) supporting the cashier monitor (14) whose applicability displayed there activates the direct router 2 (15) which retransfers the transactional demonetization from the cashier monitor (14) to the regulator monitor (16) or to the other computer (6) from where the manual or automatic payment of the money or the note finally takes place, on sight of the saved profiles.

Description

The invention relates to a device for managing online transactions in the fields of finance and commerce.

Online transactions typically take place on a free telecommunications network where financial institutions operate through publicly accessible financial and commercial applications. The freedom of this network allows senders and receivers to act without oversight. Senders transmit transactional information from one terminal to another via a server, while receivers access it secretly using a code. The transaction slips constitute contracts between the two parties, executed before the financial institutions. These electronic files, combined with the direct routing of messages, are used to enter currency amounts and addresses via the terminal's keyboard. This creates a risk that money could fall into the wrong hands through incorrect entry of the payer's or merchant's addressing parameters, or through the exposure of transactional data from the desktop, laptop, tablet, etc., to others during message transmission or reception.

The invention addresses the inability of conventional methods to prevent ordinary individuals from controlling the secrecy of online money flows. In one embodiment, this device forms an Identifiable Particular Peripheral (IPP) connected to terminals linked to another computer via servers under a network manager for currency distribution. The IPP comprises memory, a bus, a network module, a microprocessor, and a motherboard with connection pins. The read-only memory of this identifiable personal device stores a PIN and a fingerprint of the hand entered by the person in possession of the device, via a receptacle formed by an electronic lens and a sensor. The PIN, or Personal Identification Number, constitutes a personal identification number used to hermetically lock the device by encoding the owner's biometrics. This code is also used to unlock the IPP by reading the same fingerprint from its read-only memory and its random-access memory, which are connected to the electronic receptacle. The mass storage system contains two data volumes necessary for transactional operation. The first volume stores the data volumes of individuals and parties involved in the transactions. The second, considered a cash register, loads the additional information derived from the currency recorded on phone cards. The IPP network module consists of two telecommunications cells. The first cell connects to the terminal's antenna, integrating the parameter assigned to the cardholder. The second cell inserts the remote communication management system's identification code, an anonymous network parameter associated with all information transmissions. The terminal has a bus, a network module, and a monitor, compatible with cash receipt and disbursement. It has a digital camera that can be associated with GIRP. The server, under the network parameter managed by the cashier, contains memory, a processor, and a supplementary database, not stabilized at the right angle of the remote communication plane. The matching messaging system inserts a transaction slip with sender anonymity configured in the second cellular component of the IPP. The anonymous transaction slip carries a message stating the contract between the two parties instantaneously. It contains the regulated network parameter assigned to the receiver, a financier or merchant, a third party to the message sender. Server 2 maintains a database with the parameters of the senders, receivers, and financiers associated with the regulator's network frequency. It is the central element of the communication plan stabilized at 90° in the IPP intermediation, terminals, and other computers. The matching custodian incorporates the slip under the identifier of the cellular component 1 of the GIRP terminal. It displays both the instant message and the visible profiles of the contracting parties. The other computer has a bus, a network module, and a monitor, compatible with transaction processing and exhibiting a different appearance, such as ΓΙΡΡ, the terminal, and the server l. The various aspects of these intermediate elements reproduce specimens in different locations within countries, resulting in their mobility to varying degrees relative to the stability angle of server 2. The monitor, supported by the terminal or the other computer, integrates the display of the appropriate program and applications. The first router-detour comprises the buses and network modules of the ΓΙΡΡ-terminal and the server l, whose information transmission stops at the messaging stage. The cashier's application displayed in the monitor-delivery overlays the activated anonymous message from the first diverted relay. The second detour router uses the buses and network modules of the terminal and server 2, simultaneously conveying the same cashier information as the detour router 1 and stopping it at the cashier. The first direct router consists of the terminals' buses and network modules, which carry the cash contract or message and then relay it from the cashier monitor to the cashier monitor. The applicability of this transfer inserts an account with two tables of summary and detailed information. The application supplement contains a solvency request covering a portion of the credit, based on the summary and detail accounts, and a balance request with a parametric section for the debit and depletion of the latter. The second direct router utilizes the buses and network modules of terminal 2 and the other computer, relaying the solvent cash from the cashier monitor to the cashier monitor. This disbursement relay incorporates a diversion adapted to a control application to which the "retransfer" of transaction demonetization details arrives, without interruption from server 2. The message information consists of the data and/or its complement. The data is the sender's or receiver's profile, comprised of the name, network or contact parameter, and a 4x4 photo. The complement forms a virtual value and a link to the amount of money in server 1 and in the payment card. This link covers the transaction demonetization by mobilizing the symbol and the service's price reference from the money transfer service, accessible to the beneficiary, who is the requester. The entire request includes the credit of currency, and the debit and depletion of currency via a parameter given by the addressing profile of the part listed in GIRP of Terminal 2. The selection process during the listings incorporates the instructions to debit the summary table of values and progressively deplete the detailed table of linked values. The processor and microprocessor, along with the electronic components of the terminal, the other computer, and the peripheral device, are used to execute the instructions. The terminal's processor executes the program, the applications, and also the transfer or retransfer of currency. The processor of Server 1 instructs the recognition of the telecard links and then the notification of currency loads. The processor of Server 2 integrates the retransfer by executing the relay of the credit amount and profiles. It instructs the debit and depletion of the account. The instruction includes the removal of the link related to the nullity of the virtual value. Terminal 2's processor executes the program, applications, and instructions from server 2. It debits the virtual currency corresponding to the credit and progressively depletes the valued links to the level of the debit. The processor of the other computer executes the program and applications. The control application displayed on its monitor inserts the account balance request. The microprocessor performs the loading and unloading of GIRP, as instructed by server 1. The processing unit determines the change for the amount of money identifiable by its link. It inserts the change from the phone card, held by the cashier, and the credit amount to be paid by the manager, upon presentation of the selected profiles. Optionally, the second computer is an automated teller machine (ATM), sharing an infrared signal with Terminal 2. It has memory and a network module connected to Server 2. The infrared signal from Terminal 2 transmits the instantaneous information to a virtual control panel with software buttons, each with a specific cash credit amount. The control application, integrated into the cashier monitor, inserts the ATM's network parameter section, which is linked to the instant remote control. Depending on the optional configuration, the second direct router, located beneath the remote control buttons, relays the information to Terminal 2 and the ATM via Server 2, automatically debiting and dispensing the cash.

The drawings in the appendix illustrate the device of the invention:

- Figure 1 represents the elements of the monetary flows, - Figure 2 represents the monetary detour routing, - Figure 3 represents the direct monetary routing.

With reference to the attached diagrams of the device, GIRP (1) collects transaction information. Terminal 1 (2) displays the cash collection program. Server 1 (3) recognizes and notifies cash deposits from the GIRP (1) cash register. Server 2 (4) centralizes the network parameters of the telecommunications company and saves messages sent directly from Terminal 1 (2). Terminal 2 (5) then displays the disbursement program. The other computer (6) displays the settlement program. Specifically, the receptacle (7) locks and unlocks GIRP (1) using the biometrics and PIN of the person in its possession. The cash loading application, supported by the unlocked terminal 1 (2), activates the bypass router 1 (8), which relays the cashier's telecard link to server 1 (3). This server recognizes the amount of cash and initiates the calculation and processing of its virtual value at the cash register. The cashier monitor (9) displays the applicability of the operation, enabling the first diversion of the supplementary data from the transaction slip in the messaging system (10) for the cashier's application, as displayed in the cashier monitor (9). The divert router 2 (11), under the operational application, simultaneously diverts the same supplementary data to server 2 (4), then the custodian (12) saves it in the transaction slip, identified by the sender and receiver profiles listed for the anonymous message activated in the cashier's application, and whose action on the direct router 1 (13) transfers the anonymous information from terminal 1 (2) to terminal 2 (5), from which the cashier monitor (14) displays the application supplement which, in turn, is used to select the credit amount of the solvency request from the summary and detail account, to select the debit parameters in the peripheral directory, to activate the direct router 2 (15), and to transfer the change from the credit of the cashier monitor (14) to the other computer (6) via server 2 (4), activating the profiling and instructing the debit and depletion of the account according to the Configuration. The monitor-regulator (16) displays the balance request control applicability, selects the network parameter of terminal 2 (5), and retrieves the names, contact details, and photos of the custodian (12). From there, the cashier manually deposits the debited and exhausted cash, in full view of the parties. Optionally, terminal 2 (5), displaying the applicability of solvency and advanced balance control, selects the credit and network parameter of the other computer (6). Then, server 2 (4) activates the display of profiles and the remote control. The credit button on the direct router 2 (15) debits, exhausts the account, and transfers the cash back to the other computer (6), from which the manager automatically deposits the banknotes, based on server 1 (3), to the requesting financier or merchant.

The device according to the invention is intended for the management of online financial and commercial transactions.

Claims (9)

CLAIMS l- Online transaction management device in the fields of finance and commerce characterized in that it consists of an IPP (l), a terminal 1 (2), a server 1 (3), a server 2 (4), a terminal 2 (5) and another computer (6), the whole including a receptacle (7), a detour router 1 (8), a cashier monitor (9), a messaging system (10), a detour router 2 (11), a custodian (12), a direct router 1 (13), a cashier monitor (14), a direct router 2 (15) and a regulator monitor (16), together with a computer program, applications and a telecommunications network governing the distribution of money. 2- Device according to claim 1 characterized in that 1IPR (1) comprising, a memory with a considerable loading space for a virtual cash register, a network module with an identifying parameter cell and an anonymous parameter cell, a receptacle (7) consisting of an electronic lens with a sensor and a fingerprint reader, a microprocessor and a motherboard with connection pins to terminal 1 (2) or terminal 2 (5), hermetically locks and unlocks the information of the money changers, the issuer and the money receivers, by a PIN code attached to the biometrics of the person in possession of said particular device identifiable for the distribution of money across countries thanks to the aspectual mobility of the intermediary elements. 3- Device according to claim 1 or claim 2 characterized in that terminal 1 (2) and terminal 2 (5), with digital camera and remote communication antenna attached to the first cellular component of 1IPR (1), server 1 (3), server 2 (4) and the other computer (6) adapted to the frequency and network parameters of the manager, transmit and receive money in the peripheral till and control the disbursement by means of the applicant's profile seen from the saved contacts of the parties to the transaction before the manual payment of the currency in the country's currency. 4- Device according to claim 3 characterized in that the server 2 (4) stabilized at 90° in the communication plane with the custodian (12) as well as the intermediate elements, mobile in several degrees due to the positions in different countries with respect to their various aspects, namely the server 1 (3) with the messaging (10), GIRP (1), the terminal 1 (2), the terminal 2 (5) and the other computer (6), manage to centralize the regulated network parameters, to base the data, to recognize and notify the additions, to save and activate the messages, and to support the display of information relating to the receipts and disbursements of money, the regularization of transactions applied by means of solvency requests and balance requests on the credits, debits and exhaustions of the summary and detail account of the holder, financier or merchant. 5- Device according to any one of the preceding claims characterized in that the bypass router l (8) formed of the buses and network modules of ΓΙΡΡ-terminal and of the server l (3), and, the bypass router 2 (l l) made up of the buses and network modules of ΓΙΡΡ-terminal and of the server 2 (4) ensure the reactivation on both sides of the collection of the transaction by the relay of the change from the till of the particular device identifiable to the messaging (10) and by the simultaneous relay of the change and the profiles to the custodian (12). 6- Device according to the preceding claims characterized in that the direct router 1 (13), consisting of the bus and network module of terminal 1 (2) and the bus and network module of terminal 2 (5) transfers the money by instantly relaying the message from the cashier monitor (8), by the address of the receiver listed in GIRP (1) and the addressing anonymity set in the second modular cell of the transmitter, to the cashier monitor (14) displaying the program and related applications. 7- Device according to the preceding claims characterized in that the direct router 2 (15), formed of the bus and network module of terminal 2 (5), and, of the bus and network module of the other computer (6) retransfers the credit requested by the financier or the merchant, through the relay of the latter from the disbursing monitor (14) to the regulating monitor (16) which displays the profiles attached to the contracts saved in the keeper (12) so that the manager sees the parties and manually pays the money corresponding to the virtual value and the money links debited and exhausted progressively from the account according to the transactions in relation to the contacts selected in the directory of the IPP device (1). 8- Device according to the preceding claims characterized in that the divert router 1 (8) and the divert router 2 (11) diverts, at the same time, the cashier agent, in the transaction slip stopped at the messaging (10) and the custodian (12) from which the server 1 (3) activates the anonymous relay of the latter to the cashier monitor (8) which displays it in the summary account of virtual values and links of the moneyers received from the different issuers, while by the credit solvency request the direct router 2 (15) diverts it to the server 2 (4) which then activates the profiling of the contracting parties without interrupting its transmission to the other computer (6) supporting the regularizer monitor (16) where the balance request is applied debiting and exhausting this change corresponding to the change to be paid. 9- Device according to claim 8 and the preceding claims characterized in that optionally the terminal 2 (5) with a virtual remote control with credit button and an infrared signal shared by the other computer (6) as a suitable distributor, activates the automatic payment of the tickets to the holder of the debited and exhausted account, on sight of the profiles of the direct router 2 (15) of the applicability of the solvency and advanced balance requests.