A device may receive application data associated with transaction applications of client devices and transaction card data associated with transaction cards. The device may receive geographical data identifying a geographical area associated with users of the client devices and the transaction cards. The device may determine, based on the application data, the transaction card data, and the geographical data, location data identifying geographical locations of the users in the geographical area. The device may determine, based on the location data, quantity data identifying quantities of the users located on multiple paths of the geographical area. The device may process the geographical data, the location data, and the quantity data, with a machine learning model, to identify a path with less than a threshold quantity of users in the geographical area. The device may perform one or more actions based on the path.

Methods and apparatus consistent with the present disclosure allow a customer or payor to select from a plurality of nearby vendors or payees when a computing device of the payor is physically close to electronic devices of the payees. Payee devices and locations of those payee devices may be identified and displayed on a display of a payor device. Once displayed, a specific payee device may be selected by the customer and an order for a product or service may be sent to the selected payee device from the payor device. After the product or service has been provided to the customer, information that confirms that purchase may be sent to any of the selected payee device, the payor device, or a payment processing computer and funds to pay for the product or service may be deposited into an account of the payee based on the confirmation.

A customer is provided with a customized and guided experience when shopping in-person in a retail store, distribution center, or other shopping area or location. Proactive actions that guide a customer through the store in a customized way are determined taking the customer's intent, customer's history with the store, customer's purchase history, and customer's location within the store (among other things} as inputs and rendering to the user guidance as to how to navigate or interact with or within the store.

A non-transitory computer-readable storage medium storing computer-readable program code executable by a processor to retrieve a customer data record including bill payment activity associated with a provider account for a customer of a financial institution; and define a geographical footprint for the customer. The geographical footprint may be defined by identifying a customer set including the customer from a plurality of customers of a provider of the provider account, having customer records indicating geographic proximity, and determining that a predetermined fraction of the customer set are associated with a common billing cycle for the provider. The computer-readable program code may be executable by the processor to send a bill payment alert for transmission to the customer via electronic communication or telephonic communication, when the bill payment activity meets a threshold condition, wherein the threshold condition is determined at least in part by the geographical footprint.

The payment card includes at least one authentication cryptogram on one side of the card. The authentication cryptogram being unique and belonging to the payment card, is affixed to the payment card and identifies the payment card by optical recognition. The optical recognition identifier is linked to a bank account to which the payment card is linked. The method for authenticating the payment card and the bearer of the payment card is performed for a secure operation relating to personal data of the bearer of the payment card. Finally, the invention relates to a use of the authentication method to make a remote payment using the payment card.

Systems and methods for making payments are described. The method includes transmitting with a first telecommunications device a request for a transaction identification (TID), a payment amount for a financial transaction, and first geographical location data to a payment server. The payment server generating and transmitting the TID to the first telecommunications device. The first telecommunications device communicating the received TID to a second telecommunications device, and the second telecommunications device transmitting the received TID and second geographical location data to the payment server. The payment server comparing the received TID to the generated TID and the first to the second geographical location data, and in response to a match, transmitting back to the second telecommunications device a payment confirmation request. The second telecommunications device transmitting an authorization order to the payment server to release the payment amount to the first telecommunications device.

A method for authenticating a user prior to allowing a transaction or access to a website, in which the user's computer is identified via a recognized computer signature that is associated with a geographical location. The location of the user's cell phone is compared to the associated location, and the transaction or access is permitted if the difference in locations is within a predetermined acceptable distance.

A payment card security system includes a payment card provider account system communicatively coupled to a payment card transaction device and a mobile device. The payment card transaction device sends an indication that a payment card is being used to perform a transaction. The payment card provider account system includes processors that receive the indication that the payment card is being used to perform the transaction from the payment card transaction device. The processors also send a notification indicating that the payment card is being used to perform the transaction. The processors further enable authorization of the transaction via the mobile device. In this manner, the payment card security system may prevent or reduce the occurrence of suspicious transactions as they are occurring, rather than waiting until after they have occurred.

Systems and methods related to resource acquisition on a resource market are disclosed. A system may include a machine having a resource requirement for a task. A system controller may include a resource requirement circuit to determine an amount of a resource for the machine to service the task requirement, a resource market circuit to access a resource market, and a market testing circuit to execute a first transaction of the resource on the resource market. The controller may further include an arbitrage execution circuit to execute a second transaction of the resource on the resource market in response to an outcome of the first transaction, wherein the second transaction comprises a larger transaction than the first transaction.

A method for identification of malicious activity based on analysis of a travel path of a mobile device through multiple geographic areas includes receiving at least three location data associated with the mobile communication device, the first location data comprising indication of the geographic area of the mobile subscriber and a receipt timestamp; determining the actual travel time of the mobile subscriber from the first geographic area and the third geographic area based on a difference between timestamps of the first location data and the third location data; determining a minimum transition time for the subscriber of the mobile device to move from the first geographic area to the third geographic area; and identifying a malicious activity based on comparison of the actual travel time and the minimum transition time wherein actual travel time is less than minimum transition time between the first geographic area and the third geographic area.