Disclosed embodiments may include a system that may receive first level authentication data from a first user, identify a first user device associated with the first user, and determine whether a current location of the first user device is within a predetermined proximity of a first computing device. In response to the determination, the system may detect one or more objects within the predetermined proximity of the first computing device using the one or more positional sensors. The system may determine that at least one of the one or more objects is associated with a human, and in response, trigger a security measure. The system may transmit an indication of the triggered security measure to the first computing device, and may transmit instructions to the first user device configured to cause the first user device to provide an alert to the first user.

A processing system may obtain a customer identifier at a first retail location of a telecommunication network service provider, determine a recency factor of the identifier, obtain an identification of items of interest to the customer, and determine whether the customer has visited a second retail location of the provider within a time period prior to the customer being at the first retail location. The processing system may then apply, to a fraud detection machine learning model, a plurality of factors comprising: a quantity of items of interest, a value of the items, a factor associated with whether the customer has visited the second retail location within the time period, and the recency factor, where the fraud detection machine learning model outputs a fraud indicator value, determine that the fraud indicator value meets a warning threshold and present a warning to a device at the first retail location.

A networked machine has a network interface to provide connectivity to a network. The network interface hosts a first network connection that receives geolocation information from users operating common client applications on client machines, and a second network connection that accesses credit data for the users from creditor machines. A processor is connected to the network interface. A memory is connected to the processor. The memory stores instructions executed by the processor to analyze consideration transfer input from a sending user in a common geolocation as one or more potential recipient users, authorize a transaction based upon the consideration transfer input, transfer funds between an account associated with the sending user and an account associated with a recipient user, and notify, via network communications, the sending user and the recipient user of the transaction.

A financial transaction processing system for automatically routing a financial transaction to a payment device and methods for making and utilizing the same. The financial transaction processing system can include receiving information about a financial transaction initiated by a consumer or other user who is associated with two or more physical and/or digital payment devices. The financial transaction information can be routed to a selected payment device of the user based upon one or more payment device features of the payment devices, information about the financial transaction, information about the user initiating the financial transaction and/or information about at least one vendor for fulfilling the financial transaction. The financial transaction processing system advantageously can enable the user to use a single aggregating payment method for financial transactions and create underlying financial transaction authorizations corresponding to financial transaction authorizations on the top-level aggregating payment method.

Described herein are systems, methods, and apparatuses for performing a user-less payment for an item upon its delivery by an unmanned delivery vehicle. The unmanned delivery vehicle may navigate to a delivery location, receive payment information, initiate a payment transaction with a remote server, and release the item at a specified location upon successful completion of the payment transaction. Upon arrival of the unmanned delivery vehicle, a wireless data transmission device may send payment information to a remote server, and the remote server may provide the unmanned delivery vehicle with an indication of whether the item can be released and a specific location at which the item can be released.

Systems and methods for motion-enabled transactions are disclosed. The system may allow users to complete transactions with merchants via an air sign input. The system may receive a motion-enabled transaction request comprising an air sign input. The system may determine a stored air sign symbol based on the air sign input. The system may retrieve a merchant identifier, a transaction type, and a transaction cost based on the determined stored air sign symbol. The system may transmit a transaction confirmation comprising the merchant identifier, the transaction type, and the transaction cost. In response to the user confirming the transaction confirmation, the system may authorize and process the transaction.

Images are captured of a customer during a transaction at a transaction terminal along with images associated with items of the transaction and any bags or cart used to hold the items. The images are processed to track any movement and locations of the customer, items, bags, and cart relative to a known location of the transaction terminal. When a transaction payment is required for the transaction and movement is detected in a direction that is moving away from the transaction terminal before a payment notification is received for the transaction, one or more alerts are raised as an indication to staff and/or security systems of a potential in-progress walk-away theft.

A system for detecting a fraudulent ATM transaction is disclosed. The system relates to an ATM machine that receives a bank/ATM card from a customer. The ATM first attempts to read information from the card chip, but is unable to do so due to a read error. The ATM then instead reads the information from the magnetic strip, and initiates a fraud detection procedure. In one such procedure, the ATM uses a local wireless access point to detect a customer's device, such as a phone, in the vicinity of the ATM. In another such procedure, the ATM communicates with a backend server. The backend server then determines the location of the customer device either by transmitting a message to request authorization, or by utilizing GPS or other location-detection means on the customer device to determine whether the customer device is within the ATM vicinity.

Systems, methods, and computer-readable storage media utilized for authorizing transactions without a payment card present. One method includes receiving a habitual transaction request including a customer indicator and identifying characteristics of the habitual transaction request. The method further includes identifying, utilizing the customer indicator, habit information of a customer and authenticating the habitual transaction request based on the characteristics of the habitual transaction request conforming with the habit information. The method further includes, in response to authenticating the habitual transaction request, authorizing the habitual transaction request and receiving a non-habitual transaction request including the customer indicator. The method further includes determining that the customer is active, and the customer indicator is approved to conduct a non-habitual transaction and authorizing the non-habitual transaction request based on the determination and the customer indicator being approved to conduct the non-habitual transaction and transmitting a notification indicating the non-habitual transaction request was authorized.

The present disclosure is related to a computer-implemented method, card processing server, and non-transitory computer readable medium for determining a merchant location using a virtual card, in real-time. A card processing server may receive test transaction data from an acquirer bank of a merchant when a test transaction is initiated through a virtual card provided to the merchant. The card processing server may detect a record of the test transaction in a transaction database, in real-time, using one or more attributes of the virtual card stored in the card processing server and may retrieve signature data from the test transaction data upon detecting the record of the test transaction. Finally, the card processing server determines a transaction source data location of the merchant at which the test transaction was initiated and a registered name of the merchant based on the signature data.