FRAUD PREVENTION TRADING AND PAYMENT SYSTEM FOR BUSINESS AND CONSUMER TRANSACTIONS

Abstract

A code system for preventing fraud in trading and at the same time a safe payment method for business and consumer. The code system of the present invention ensures security and control for the contracting parties regarding the previously defined attributes of the goods and the payment including all decisional steps of the transactions as well as of the reverse transactions in case of complaint. The contracting parties act complementary, money and goods or money and services are never at the same time under control of one contracting party.

Description

FIELD

Embodiments are related to fraud prevention trading and payment systems for businesses and consumers and can include a system for handling a contract between two or more contracting parties from the beginning to the conclusion of the contract including the safe handling of payments. Embodiments can be used for fraud prevention in business to business (B2B), consumer to consumer (C2C), and to business to consumer (B2C) transactions.

BACKGROUND

At the time being there exist business to business internet platforms and consumer to consumer internet platforms as well as business to consumer platforms. Many of the B2B internet platforms establish contacts between businesses, the transaction does not necessarily take place on the internet platform, that offers the possibility to contact other businesses. Other B2B, C2B and C2C internet platforms have the possibility of closing a deal and paying on the same internet platform. Different payment systems can be used, as outlined below.

In import/export letter of credit is a frequently used method of payment. The advantage is a high security standard, on the other hand there are high costs for the banks services for the contracting parties because of the high bureaucracy and usually quite a long duration of the whole settlement.

Another payment situation is represented by payment on account, in this case bank wire transfer or direct debit, also by online banking are frequently used payment methods in the domestic and also in the international market. Other payment possibilities are represented by credit card, debit card, e-wallet payment methods, any prepaid payment methods and money transfer with immediate cash payout systems. The buying party is clearly in advantage compared to the vendor, because it receives first the goods or services, can verify the quality and pay afterwards. The vendor party takes the risk of cash loss in case of fraud or insolvency.

Cash on delivery is a special case, because it does not give the buyer the possibility to verify the content and the quality of the goods he receives, since he has to pay on the spot even before opening the package.

One more payment situation is the payment in advance, in which all the payment systems that are also used for payment on account, like above mentioned, can be used. Clearly the advantage is in the case of payment in advance on the vendor's side, the buyer has the risk of cash loss in case of fraud or the risk that the goods or services he buys are not corresponding to the description given by the vendor.

All the above payment methods have in common that they can guarantee secure payment. Except for the letter of credit none of the above mentioned payment systems may be able to prevent fraud for both contracting parties or to solve the problem of insolvency. As far as the letter of credit is concerned, the control during the transaction is entirely in the hands of the banks of the two or more contracting parties, if any objection regarding the quality of the contracted goods occurs, there is no possibility for the contracting parties to take any action. The inventors have developed the present invention which overcomes the drawbacks of the existing payment systems, the “fraud prevention trading and payment system for business and consumer” solves all these problems. By using our invention none of the contracting parties has at the same time control over money and goods or over money and services. These embodiments, and others described in greater detail herein, give the contracting parties the possibility of following and control a contract step by step until the conclusion and pay-out in absolute security in every decisional situation without becoming a victim of fraud, insolvency or similar inconvenient cases. Other features and advantages of the present invention will become apparent to those skilled in the art from the following detailed description.

SUMMARY

A transaction may be bad for a vendor, if a buyer is a defrauder or insolvent and may be bad for a buyer, if the buyer pays the vendor, but the goods or services do not correspond to the description of the contracted goods or services. Accordingly, embodiments of the fraud prevention trading and payment systems for business and consumer described herein can be useful for everybody who wants to sell or buy goods or services. It is a non bureaucratic system that allows security and control for the contracting parties over the quality of the goods and the payment by freezing the complete purchase price on the buyers account and a deposit on the vendors account. The contracting parties keep control over every decisional step of the transaction. In case of a complaint, reverse transactions are possible.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows a flowchart of a method in accordance with at least one embodiment.

FIG. 2 is a diagram of a system in accordance with at least one embodiment.

DETAILED DESCRIPTION

One embodiment includes a system having a computer or electronic terminal. The system is able to interact with a bank and contracting parties (two or more). All contracting parties have their respective accounts at a same e-wallet firm or respective bank accounts at the same bank and a trading platform is combined with the bank or e-wallet firm.

The system of the present invention can be implemented on any existing or future terminal or device with the processing capability to perform the functions described herein. It will be appreciated that an embodiment is not limited by the type of terminal or device used. Further, reference to a single click of a mouse as a means for user input and interaction with the terminal display is an example of a single action of the user for illustration purposes.

While this describes one mode of interaction, an embodiment is not limited to the use of a mouse as the input device or to the click of a mouse button as the user's single action. Rather, any action by a user regarding one transaction (code/deal), whether comprising one or more clicks of a mouse button, the input of a code or other input device, can be considered a single action of the user for the purposes of an embodiment.

The system can be applied to two or more matching codes. Only when the specific transaction is confirmed by the designated number of persons by input of components of the code or by mouse clicks, the transaction is completed. Further details will be explained below in conjunction with the flow chart shown in FIG. 1.

Further details of the invention will be explained with the flow chart shown in FIG. 1. In the example methods described below, it is assumed that buyers and sellers have accounts at a financial institution or e-wallet connected to the computer implemented system as described herein.

According to FIG. 1 there are different alternative methods (or usage scenarios) using an embodiment:

Method 1

• Step 1: Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 6: Vendor does not ship goods or fails to fulfill services
• Step 8: Buyer asks vendor for his code
• Step 9: Vendor submits his code to the buyer
• Step 11: Buyer enters both codes and unblocks his money and the vendor's deposit

Method 2

• Step 1: Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 6: Vendor does not ship goods or fails to fulfill services
• Step 8: Buyer asks vendor for his code
• Step 10: Vendor declines to give his code to the buyer
• Step 12: A settlement procedure is the attempt to find a solution to the difference of opinions
• Step 13: The settlement procedure is successful

Method 3

• Step 1: Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 6: Vendor does not ship goods or fails to fulfill services
• Step 8: Buyer asks vendor for his code
• Step 10: Vendor declines to give his code to the buyer
• Step 12: A settlement procedure is the attempt to find a solution to the difference of opinions
• Step 14: The settlement procedure is not successful
• Step 15: The contracting parties go to court in order to obtain a decision on who is right

Method 4

• Step 1:Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 7: Vendor ships goods to buyer or fulfills the services
• Step 16: Buyer evaluates goods or services
• Step 18: Goods or services are corresponding to contracted
• Step 27: Buyer sends his code to the vendor
• Step 28: Vendor enters both codes, unblocks his deposit and the cashflow takes place in his direction
• Method 5
• Step 1: Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 7: Vendor ships goods to buyer or fulfills the services
• Step 16: Buyer evaluates goods or services
• Step 17: In the buyers opinion goods or services are not corresponding to contract
• Step 19: Vendor agrees with the buyer
• Step 21: Buyer ships goods back to vendor
• Step 22: Vendor evaluates the returned goods
• Step 23: The returned goods correspond to the sent goods
• Step 25: Vendor submits his code to the buyer
• Step 26: Buyer enters both codes, the cashflow takes place in his direction and unblocks the vendors deposit

Method 6

• Step 1: Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 7: Vendor ships goods to buyer or fulfills the services
• Step 16: Buyer evaluates goods or services
• Step 17: In the buyers opinion goods or services are not corresponding to contract
• Step 19: Vendor agrees with the buyer
• Step 21: Buyer ships goods back to vendor
• Step 22: Vendor evaluates the returned goods
• Step 24: In the vendors opinion returned goods differ from the sent goods
• Step 29: A settlement procedure is the attempt to find a solution to the difference of opinions
• Step 31: The settlement procedure is not successful
• Step 32: The contracting parties go to court in order to obtain a decision on who is right

Method 7

• Step 1: Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 7: Vendor ships goods to buyer or fulfills the services
• Step 16: Buyer evaluates goods or services
• Step 17: In the buyers opinion goods or services are not corresponding to contract
• Step 19: Vendor agrees with the buyer
• Step 21: Buyer ships goods back to vendor
• Step 22: Vendor evaluates the returned goods
• Step 24: In the vendors opinion returned goods differ from the sent goods
• Step 29: A settlement procedure is the attempt to find a solution to the difference of opinions

Step 30: The contracting parties go to court in order to obtain a decision on who is right

Method 8

• Step 1:Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 7: Vendor ships goods to buyer or fulfills the services
• Step 16: Buyer evaluates goods or services
• Step 17: In the buyers opinion goods or services are not corresponding to contract
• Step 20: Vendor declines
• Step 29: A settlement procedure is the attempt to find a solution to the difference of opinions
• Step 30: The settlement procedure is successful

Method 9

• Step 1:Vendor offers goods or services to the buyer
• Step 2: Buyer makes an offer to the vendor
• Step 3: Vendor and buyer agree on price and conditions of the goods or services
• Step 4: By agreeing the buyer blocks the purchase price on his account and the vendor blocks a certain deposit on his account
• Step 5: The system generates automatically and randomized a key.

The key is split, buyer and vendor get each a code component of the key.

• Step 7: Vendor ships goods to buyer or fulfills the services
• Step 16: Buyer evaluates goods or services
• Step 17: In the buyers opinion goods or services are not corresponding to contract
• Step 20: Vendor declines
• Step 29: A settlement procedure is the attempt to find a solution to the difference of opinions
• Step 31: The settlement procedure is not successful
• Step 32: The contracting parties go to court in order to obtain a decision.

FIG. 2 is a diagram of an example server device 200 that can be used for fraud prevention in accordance with at least one embodiment. The server device 200 includes a processor 202, operating system 204, memory 206 and I/O interface 208. The memory 206 can include a transaction engine 210 and an application program for fraud prevention 212.

In operation, the processor 202 may execute the application 212 stored in the memory 206. The application 212 can include software instructions that, when executed by the processor, cause the processor to perform operations for fraud prevention in accordance with the present disclosure (e.g., performing one or more of steps described above).

The application program 212 can operate in conjunction with the transaction engine 210 and the operating system 204.

The server (e.g., 200) can include, but is not limited to, a single processor system, a multi-processor system (co-located or distributed), a cloud computing system, or a combination of the above.

The client device can include, but is not limited to, a desktop computer, a laptop computer, a portable computer, a tablet computing device, a smartphone, a feature phone, a personal digital assistant, a media player, an electronic book reader, an entertainment system of a vehicle or the like.

The network can be a wired or wireless network, and can include, but is not limited to, a WiFi network, a local area network, a wide area network, the Internet, or a combination of the above.

The data storage, memory and/or computer readable medium can be a magnetic storage device (hard disk drive or the like), optical storage device (CD, DVD or the like), electronic storage device (RAM, ROM, flash, or the like). The software instructions can also be contained in, and provided as, an electronic signal.

Moreover, embodiments of the disclosed method, system, and computer readable media can be implemented in software executed on a programmed general purpose computer, a special purpose computer, a microprocessor, or the like.

It is, therefore, apparent that there is provided, in accordance with the various embodiments disclosed herein, systems, methods and computer readable media for fraud prevention.

While the invention has been described in conjunction with a number of embodiments, it is evident that many alternatives, modifications and variations would be or are apparent to those of ordinary skill in the applicable arts. Accordingly, Applicants intend to embrace all such alternatives, modifications, equivalents and variations that are within the spirit and scope of the invention.

APPENDIX A
Example Code Listing
// charges, advanced auction description, shipping selection and
// direct pay option omitted due to missing logical relevance
// frozen money gets automatically paid out to the (new) owner when
// the seller and the buyer go along with each other or when someone
// times out, that could be also executed by some action of the
// (new) owner
BidPercentage = 1.0;
if(Page == “AuctionInsertion”)
{
if(CurrentUser != Guest)
{
Inserted = false;
if(WasButtonPressed(“Insert”))
{
if(AtleastAllMandantoryFieldsFilledOut)
{
// Input. Duration means the number of days until
// auction times out
// Input.Freeze Percentage lets the seller specify
// how much he wants to freeze: lets him appear
// trustworthy
ToBeFreezed = (Input.StartPrice/100.0)*
Input.FreezePercentage;
if(CurrentUser.Money >= ToBeFreezed)
{
// Create new auction
Auction = new Auction;
Auction.Mode = “AuctionRunning”;
Auction.Seller = CurrentUser;
Auction.Seller.Money −= ToBeFreezed;
Auction.SellerFrozen = ToBeFreezed;
Auction.StartPrice = Input.StartPrice;
Auction.StartTime = TimeStamp( );
Auction.Duration = Input.Duration;
Inserted = true;
// if we want a pair of codes (generating them
// just before they can be used proposed)
Auction.SellerCode = GenerateCode( );
Auction.BuyerCode = GenerateCode( );
}
}
}
if(!Inserted)
{
// StartPrice has to be minimum 1
ShowNumberInput(“StartPrice”);
// FreezePercentage has to be minimum 1 and maximum
100
ShowNumberInput(“FreezePercentage”);
// Duration has to be minimum 1
ShowNumberInput(“Duration”);
}
}
}
else if(Page == “SingleAuctionOverview”)
{
if(Auction.Mode == “AuctionRunning”)
{
if(WasButtonPressed(“Bid”) &&
(CurrentUser != Guest && CurrentUser != Auction.Seller))
{
if(AtleastAllMandantoryFieldsFilledOut)
{
// Auction.Buyer is the one with the best bid
// as long as there is at least one bid
// CurrentPrice is the best bid amount if there
// is one otherwise just check against StartPrice
// Whether the bid amount is high enough
if((!Auction.Buyer &&
Input.BuyPrice > Auction.StartPrice)
|| Input.BuyPrice > Auction.CurrentPrice)
{
ToBeFreezed = (Input.BuyPrice/100.0)*
BidPercentage;
if(CurrentUser.Money >= ToBeFreezed)
{
// If someone bid before he gets his
// money back
if(Auction.Buyer)
{
Auction.Buyer.Money +=
Auction.BuyerFreezedAmount;
}
Auction.Buyer = CurrentUser;
Auction.CurrentPrice = Input.BuyPrice;
Auction.Buyer.Money −= ToBeFreezed;
}
}
}
// possibility to bid if you are not the highest bidder
if(Auction.Buyer != CurrentUser)
{
// BuyPrice of minimum StartPrice or higher than
// CurrentPrice when there was a bidder before
ShowNumberField(“BuyPrice”);
ShowButton(“Bid”);
}
}
}
else if(Auction.Mode == “AuctionBuyerFound”)
{
if(WasButtonPressed(“BuyerCompletesMoneyFreezingProcess”))
{
if(CurrentUser == Auction.Buyer)
{
// Freeze remaining money of bid price
Remaining = Auction.CurrentPrice −
((Auction.CurrentPrice/100.0)*BidPercentage);
if(Auction.Buyer.Money >= Remaining)
{
Auction.Buyer.Money −= Remaining;
Auction.State = “BuyerFrozeMoney”;
}
}
}
else if(WasButtonPressed(“SellerStatesShipping”))
{
if(CurrentUser == Auction.Seller)
{
AutionState = “SellerStatedShipping”;
}
}
else if(WasButtonPressed(“BuyerConfirmsGoods”+
“TrueToDescription”))
{
if(CurrentUser == Auction.Buyer)
{
// Give seller his frozen money back and also
// the buyers bid price
Auction.Seller.Money += Auction.SellerFrozen +
Auction.CurrentPrice;
Auction.State = “AuctionDone”;
}
}
else if(WasButtonPressed(“BuyerClaimsAnnulationBecauseOf”+
“GoodsDifferingFromDescriptionAndStatesShippingBack”))
{
if(CurrentUser == Auction.Buyer)
{
Auction.State = “BuyerClaimedAnnulationBecauseOf”+
“GoodsDifferingFromDescriptionAndStatedShippingBack”;
}
}
else if(WasButtonPressed(“SellerConfirmsGoodsAreShippedBack”+
“AsTheyWereBeforeAndAcceptsAnnulation”))
{
if(CurrentUser == Auction.Seller)
{
// Liquify each ones assets
Auction.Seller.Money += Auction.SellerFrozen;
Auction.Buyer.Money += Auction.CurrentPrice;
Auction.State = “AuctionDone”;
}
}
// Codes are not necessary, but if they are used we need
// a way to pay them out
// Paying out a pair of codes is also possible outside the
// auction overview by iterating through the auctions
// and check their codes (you could fix the paying out
// process to just a few people but atleast the seller and
// the buyer)
else if((Input.Code1 == Auction.SellerCode &&
Input.Code2 == Auction.BuyerCode) ||
(Input.Code1 == Auction.BuyerCode &&
Input.Code2 == Auction.SellerCode))
{
if(CurrentUser == Auction.Seller)
{
// Give seller his frozen money back and also
// the buyers bid price
Auction.Seller.Money += Auction.SellerFrozen +
Auction.CurrentPrice;
Auction.State = “AuctionDone”;
}
else if(CurrentUser == Auction.Buyer)
{
// Liquify each ones assets
Auction.Seller.Money += Auction.SellerFrozen;
Auction.Buyer.Money += Auction.CurrentPrice;
Auction.State = “AuctionDone”;
}
}
if(Auction.State == “NothingDoneSoFar”)
{
if(CurrentUser == Auction.Buyer)
{
ShowButton(“BuyerCompletesMoneyFreezingProcess”);
}
}
else if(Auction.State == “BuyerFrozeMoney”)
{
if(CurrentUser == Auction.Seller)
{
ShowButton(“SellerStatesShipping”);
}
}
else if(Auction.State == “SellerStatedShipping”)
{
if(CurrentUser == Auction.Buyer)
{
ShowButton(“BuyerConfirmsGoodsTrueToDescription”);
ShowButton(“BuyerClaimsAnnulationBecauseOfGoods”+
“DifferingFromDescriptionAndStatesShippingBack”);
}
}
else if(Auction.State == “BuyerClaimedAnnulationBecauseOf”+
“GoodsDifferingFromDescriptionAndStatedShippingBack”)
{
if(CurrentUser == Auction.Seller)
{
ShowButton(“SellerConfirmsGoodsAreShippedBack”+
“AsTheyWereBeforeAndAcceptsAnnulation”);
ShowButton(“SellerConfirmsGoodsAreShippedBack”+
“AsTheyWereBeforeButDoesNotAcceptAnnulation”);
}
}
// Display codes
if(Auction.State != “AuctionDone”)
{
if(Groundswell == Auction.Seller)
{
ShowCode(Auction.SellerCode);
}
else if(CurrentUser == Auction.Buyer)
{
ShowCode(Auction.BuyerCode);
}
}
}
}
// Timeout handling
// Auction runs out of time
if(TimeStamp( ) > Auction.StartTime+(Auction.Days*60*60*24))
{
if(!Auction.Buyer)
{
Auction.Seller.Money += Auction.SellerFrozen;
AuctionMode = “AuctionDone”;
}
else
{
AuctionMode = “AuctionBuyerFound”;
}
}
else if(SellerTimesOutOnCriticalAuctionMode)
{
OnePercent = (Auction.StartPrice/100.0)*1.0;
Remaining = Auction.SellerFrozen−OnePercent;
Auction.Seller.Money += Remaining;
Auction.Buyer.Money += Auction.CurrentPrice+OnePercent;
Auction.Mode = “AuctionDone”;
}
else if(BuyerTimeOutOnCriticalAuctionMode)
{
Auction.Seller.Money += Auction.SellerFrozen+
((Auction.CurrentPrice/100)*BidPercentage);
Auction.Mode = “AuctionDone”;
}

Claims

1. A computer implemented system for fraud prevention and safe handling of payments for a transaction in which two participating contracting parties have active control during every decisional step of the transaction and are finally able to conclude the transaction without external interference only by acting complementary and conjointly, the system comprising: a computer coupled to a network for carrying data, the computer having at least one central processing unit;a memory coupled to the computer and adapted to store a database;a server corresponding to a host and operably connected to the network to host data corresponding to online transactions;a buyer account and a seller account at a financial institution associated with the computer implemented system where a loss of money is prevented by blocking a sum related to a specific transaction on the buyer account and a certain variable percentage of that sum as a deposit on the seller account as soon as contracted by the two participating contracting parties conjointly until the transaction is concluded and a transfer of money takes place in a direction of the seller account when a seller enters two components of a key in the computer implemented system as below explained in detail, the two components being a seller code and a code the seller receives from the buyer if the buyer determines that the contractual conditions are fulfilled;one or more input/output communication terminals for the transmission and reception of codes connected to the buyer account and the seller account at the financial institution, said key consisting of a variable number of bits and being generated randomly and being divided in two parts of variable length by the above specified computer implemented system where the key and its components are stored for alignment and sent to the two contracting parties, each contracting party holding a different component of the key.

2. A computer implemented method for fraud prevention and safe handling of payments, the method comprising: reserving a sum related to a specific transaction in a buyer account;placing a percentage of the sum as a deposit into a seller account when a contract between two participating contracting parties is commenced; andtransferring the reserved sum from the buyer account to the seller account when a seller enters two components of a key, the two components including a seller code and a code the seller receives from the buyer if the buyer judges that the contractual conditions are fulfilled.

3. A method according to claim 2, further comprising verifying if the buyer account satisfies the request associated with transaction management to reserve the sum related to the specific transaction.

4. A method according to claim 3, further comprising handling of reverse transactions when a complaint is made against contracted goods or services, if they do not correspond to their description, in case of complaint goods have to be sent back to the vendor, who has to confirm the receipt and determine whether to cancel the transaction or refuse the reason of the complaint.

5. A method according to claim 4, further comprising maintaining a reserve on funds in a buyer or seller account respectively so that in case of a complaint the funds remains reserved on the respective accounts.

6. A method according to claim 5, wherein the code is transmitted automatically when the contracting parties confirm and is not transmitted if a party refuses.

7. A method according to claim 6, wherein the contracting parties include a plurality of vendors and a plurality of buyers.

8. A method according to claim 7, which is combined to any existing trading and auction internet platform or to peculiar swapping or reverse auction platforms, tendering platforms or similar platforms.

9. A method according to claim 8, wherein the computer implemented system and method is used for instant money transfer in a pay-out process, whereby the money sender creates a key and transmits automatically a part of the code to the recipient, wherein after receiving the code, the recipient presents himself at a pay-out point connected to the computer implemented system or uses an automated teller machine (ATM) where the key and its components are stored for alignment, andwherein after the input of his part of the code in the communication terminal the cash out takes place and the money can even be paid out to a person who has no bank account.

10. A method according to claim 9, which is carried out with a system according to the present invention, wherein a user creates a key with the above described computer implemented system and method and uses his component of the code for himself in a pay-out process or for cashless payments, receiving change, if the price is less than the sum paid.