Architecture and methods may be provided to enable a user to authenticate and complete a cardless transaction at a point-of-sale (“POS”) device. The POS device may include a keypad configured to receive a sequence of keypresses. The POS device may also include a processor configured to record the sequence of keypresses and tag each keypress with a timestamp. The POS device may include a keypress controller configured to determine from the sequence of keypresses, a number of keypresses, a frequency of each keypress and a time-delay between each keypresss. The sequence of keypresses may be transmitted to a secure transaction network and, using a machine-learning pattern identifier, be configured to identify a pattern to the sequence of keypresses based off of the determined number of keypresses, the frequency and time-delay and then further verify that the pattern matches to a stored pattern to authenticate the cardless transaction.

A method of network configuration of a personal identification number (PIN) pads includes receiving a request to upgrade a PIN pad from a merchant or an individual software vendor (ISV) to read microprocessor-enabled or contactless payment vehicles, retrieving a PIN pad configuration hash value from the PIN pad, obtaining current configuration using the hash value, sending instructions to the PIN pad to upgrade the PIN pad over a network if the PIN pad is capable of reading microprocessor-enabled or contactless payment vehicles, and downloading and installing drivers to enable PIN pad readers to read and process at least one of the microprocessor-enabled payment vehicles and contactless payment vehicles according to the instructions. The method further performs additional operations such as updating the PIN pad registry with the PIN pad configuration and enabling the PIN pad to read the microprocessor-enabled or contactless payment vehicles.

An initial multi-digit contact (multi-touch) is detected on a surface of a touchscreen display during initiation of a key entry session on a transaction terminal. A reference row for a logically maintained keypad is set for the key entry session based on the multi-touch. Active rows for the key entry session are changed by swipes up or down. A given key within an active row is selected based on pressure applied by or removed from one of the digits relative to other digits in the multi-touch or based on one of the digits swiped up or down while other digits remain stationary. The key entry session terminates when the multi-digit contact is lifted off the surface without further touching for a preconfigured period of elapsed time. In an embodiment, the session terminates when a multi-touch swipe to the left and then the right is detected (or right and then left).

An example described herein may involve receiving a temperature measurement associated with an input component, wherein the temperature measurement is received from a temperature sensor, and wherein the temperature measurement indicates a temperature of an input element of the input component; determining that the temperature of the input element satisfies a threshold temperature; and causing an infrared element to emit infrared light in association with a position of the input component. While the infrared element is emitting the infrared light, capture information associated with a user interacting with the input component may be obfuscated.

The disclosure discloses a control panel and an outdoor device with the control panel, which can discharge accumulated water in the control panel to prevent water accumulation. A control panel for preventing water accumulation includes a display sheet which is transparent or translucent and used for covering and protecting a circuit board and/or component, an interface label having functional areas allowing a user to observe or operate the circuit board and/or component, and an adhesive layer connected between areas of the display sheet and the interface label except for the functional areas so as to adhere the display sheet and the interface label together. Cavities are formed between the functional areas of the interface label and corresponding locations of the display sheet so as to form a display window and/or key windows. The water guiding grooves are provided in the adhesive layer for communicating the cavities with the outside so as to discharge the accumulated water.

An example described herein may involve receiving a temperature measurement associated with an input component, wherein the temperature measurement is received from a temperature sensor, and wherein the temperature measurement indicates a temperature of an input element of the input component; determining that the temperature of the input element satisfies a threshold temperature; and causing an infrared element to emit infrared light in association with a position of the input component. While the infrared element is emitting the infrared light, capture information associated with a user interacting with the input component may be obfuscated.

A device and associated methods for entering a PIN via tapping are disclosed. The device can be configured to determine a number of taps provided by a PIN holder on a touch sensor in representation of a PIN digit and to store the number of taps as a digit in a sequence that represents the PIN. Indications for interaction with the device can be provided to PIN holders in the form of auditory cues. A visually impaired PIN holder may be able to complete a PIN entry process by following the indications for interaction, tapping on a touch sensor a number of times equal to the value of the digit of the PIN to be entered, and performing gestures mapped to commands for the device.

A contactless PIN card includes an orientation reference feature, a plurality of tactile sensors, an arrangement of a plurality of tactile sensors along the edge, an arrangement of a plurality of tactile sensors on the surface or surfaces, an arrangement of a plurality tactile of sensors along the edge and on the surface or surfaces. A plurality of tactile sensors allowed the user to input a binary PIN according to the way how the finger is interacting with the tactile sensors. In addition to the validation of the identifying information embedded within the memory of any existing contactless credit card, debit cards, prepaid electronic cash card, loyalty card and access card, the user's identification is also validated through the binary PIN. An irreversible mathematical equation can be used to compute the identifying information and user's binary PIN to generate the validation Radio Frequency Identification signal.

A method of network configuration of a personal identification number (PIN) pads includes receiving a request to upgrade a PIN pad from a merchant or an individual software vendor (ISV) to read microprocessor-enabled or contactless payment vehicles, retrieving a PIN pad configuration hash value from the PIN pad, obtaining current configuration using the hash value, sending instructions to the PIN pad to upgrade the PIN pad over a network if the PIN pad is capable of reading microprocessor-enabled or contactless payment vehicles, and downloading and installing drivers to enable PIN pad readers to read and process at least one of the microprocessor-enabled payment vehicles and contactless payment vehicles according to the instructions. The method further performs additional operations such as updating the PIN pad registry with the PIN pad configuration and enabling the PIN pad to read the microprocessor-enabled or contactless payment vehicles.