Advantageously, the invention is a competitor to money transfer systems. Conventional digital transactions facilitate electronic payment, such as money transfers, payment card charges, e-commerce transactions and other types of transactions. However, payees may be unbanked people (e.g., children) or people with no payment card (e.g., may have lost card), and payment card fund transfers may be expensive, time consuming, and cumbersome for financial institutions. Thus, there is need for an improved approach. The invention discloses an automated digital method of providing or sharing access to a payment card and/or similar financial account or non-card product, transactions between individuals or legal entities without physical transmission of a payment card, non-card product or its credentials, even without a recipient of an access having a payment card and/or financial account or non-card product, particularly by providing or sharing access to a payment card and/or similar financial account or non-card product of a sender.

A smart street parking management system includes a smart street parking meter a smart cloud parking management server connected to the smart street parking meter through a wireless networking technology and configured to regularly receive parking information of a vehicle parked on a smart street parking grid and status information of the smart street parking meter uploaded by the smart street parking meter. The status information of the smart street parking meter includes an empty-space status of the street parking grid detected by the smart street parking meter and a battery status of a rechargeable battery of the smart street parking meter. The parking information of the vehicle includes the plate number of the vehicle, the parking fee of the vehicle, and a payment status of the parking fee of the vehicle.

There are provided systems and methods for a modular mobile point of sale device having separable units for configurable data processing. A modular device may include a main unit that includes data processing features to allow for a mobile point of sale, including a data entry unit for payment data, a communication component to secure communicate that data to a centralized transaction processor, and a processing unit to receive the data and instruct the centralized to process the data with an online service provider. The module device may also be physically and communicatively coupled to additional modules that may increase the on-device functionality of the main unit, include a module to allow user input and additional modules to accept other types of transaction input. On detection of a connected unit, the main unit may secure connect to and authenticate each attached module.

A device for transmitting/receiving a wireless radio signal. Such a device includes: a first interface for transmitting/receiving a radio signal according to a first transmission technology; a second interface for transmitting/receiving a radio signal according to a second transmission technology; and an adaptation stage (such as a chip), which extracts data from signals coming from the first interface and/or the second interface.

Digital transaction apparatus including a Data Assistance Device (DAD), including a user interface that is operable to at least select data, and a DAD transmitter, a Digital Transaction Card (DTC), including a Digital Transaction Processing Unit (DTPU), and a DTC receiver, wherein the DAD and DTC are operable to transfer data from the DAD to the DTC and when subsequently using the DTC to effect a digital transaction, the DTC operates in accordance with the data selected and transferred from the DAD to the DTC, wherein the digital transaction apparatus further includes a remaining battery life estimation system operable to detect an occurrence of at least one electrical event and to measure the duration of the at least one electrical event, each electrical event having an associated power usage amount, and, subsequent to detection of an occurrence of an at least one electrical event, the remaining battery life estimation system calculates the total energy usage using the associated power usage amount in respect of the at least one electrical event and the duration of the at least one electrical event.

Systems and methods for facilitating a disbursement of funds to a payee are provided. The methods include receiving a payment request from a payor; generating a code, such as barcode, a Quick Response (QR) code, a Near Field Communication (NFC) code, or a textual string, that corresponds to the received payment request; transmitting the generated code to the payee; validating the code when the code is entered into a payment disbursement machine, such as an automated teller machine; and disbursing at least one of the funds and a payment voucher via the payment disbursement machine.

Embodiments relate to systems, apparatuses, and methods for performing access interactions between a user device and an access device. A method comprises receiving, by an access device with a single universal kernel comprising a plurality of interaction functionalities and a plurality of sub-kernels, data comprising a kernel identifier identifying a requested kernel of a plurality of kernels to perform an interaction. The access device with the single kernel may determine a first sub-kernel of a plurality of sub-kernels corresponding to an interaction functionality based on the kernel identifier. The access device with the single universal kernel may then process the interaction according to the interaction functionality corresponding to the determined sub-kernel.

A method is disclosed. The method includes receiving a broadcast signal from a beacon device, the broadcast signal encoding a first credential associated with a first entity. In response to receipt of the broadcast signal, the mobile communication device transmits the received first credential to an authentication system. The authentication system determines if the first entity associated with the broadcast signal is authentic and generates a confirmation message confirming the authenticity of the first entity. The mobile communication device then receives the confirmation message indicating that the first entity is authentic. The mobile communication thereafter receives and transmits a second credential for the mobile communication device to the beacon device, which transmits the second credential to the authentication system. The authentication system then confirms the authenticity of the mobile communication device. Then, the beacon device can initiate an interaction process with the user of the mobile communication device.

Methods for smartglasses-to-smartglasses payment systems is provided. Methods include receiving a transfer of funds initiation at a first smartglasses. The transfer of funds initiation may include an identifier, an amount and a personal identification number (“PIN”). Methods include transmitting the transfer of funds initiation from the first smartglasses to a second smartglasses. Methods may include receiving a notification on the second smartglasses. The notification may include a first smartglasses telephone number and the transfer of funds initiation. Methods may include transmitting a transfer of funds request from the second smartglasses to an entity. The transfer of funds request may include the first smartglasses telephone number, the transfer of funds initiation and the second smartglasses telephone number. Methods may include retrieving a first account and a second account from the entity. Methods may include transferring funds from the first account to the second account.

A multi-function transaction card may include a card body having dimensions that are in accordance with a standard for transaction cards, an output device on the card body, and a secure element within the card body. The multi-function transaction card may pair, via a wireless connection, the multi-function transaction card with a terminal. The multi-function transaction card may receive, from the terminal, information associated with a transaction. The multi-function transaction card may generate, based on the information associated with the transaction, and using a cryptographic key, an authorization request cryptogram (ARQC), wherein the cryptographic key is stored in the secure element. The multi-function transaction card may generate, based on the ARQC, a machine-readable code. The multi-function transaction card may display, using the output device, the machine-readable code.