A computing system has a communication interface for receiving, from a gift bag wallet application operating on a cardholder mobile device, a transfer request to transfer a balance of a prepaid payment card to a cardholder account associated with a cardholder digital wallet. A processor of the mobile device is programmed to determine, from the transfer request, the prepaid payment card issuer and a payment network associated with the prepaid payment card. Using the communication interface, the system transmits, to the prepaid payment card issuer, a balance request message for a balance of the prepaid payment card and receives a balance request response message identifying the balance of the prepaid payment card. The system then transfers the balance of the prepaid payment card from the prepaid payment card issuer to the cardholder account associated with the cardholder digital wallet based on cardholder information of the cardholder account included in the transfer request.

A computing system has a communication interface for receiving, from a gift bag wallet application operating on a cardholder mobile device, a transfer request to transfer a balance of a prepaid payment card to a cardholder account associated with a cardholder digital wallet. A processor of the mobile device is programmed to determine, from the transfer request, the prepaid payment card issuer and a payment network associated with the prepaid payment card. Using the communication interface, the system transmits, to the prepaid payment card issuer, a balance request message for a balance of the prepaid payment card and receives a balance request response message identifying the balance of the prepaid payment card. The system then transfers the balance of the prepaid payment card from the prepaid payment card issuer to the cardholder account associated with the cardholder digital wallet based on cardholder information of the cardholder account included in the transfer request.

A system and method using a system for authenticating a person as an authorized user before waking an information handling system from an inactive state. A sensor receives an input from a person, captures information about the person and a microcontroller unit (MCU) determines if the captured information matches information corresponding to an authorized user. If the MCU determines the captured information corresponds to information corresponding to an authorized user, the MCU sends a command to one of a central processing unit (CPU) or an embedded controller (EC) to change operation of the information handling system to an active state. If the MCU determines the captured information does not correspond to information corresponding to an authorized user, no command is sent to the CPU or EC to change operation of the information handling system.

A system and method using a system for authenticating a person as an authorized user before waking an information handling system from an inactive state. A sensor receives an input from a person, captures information about the person and a microcontroller unit (MCU) determines if the captured information matches information corresponding to an authorized user. If the MCU determines the captured information corresponds to information corresponding to an authorized user, the MCU sends a command to one of a central processing unit (CPU) or an embedded controller (EC) to change operation of the information handling system to an active state. If the MCU determines the captured information does not correspond to information corresponding to an authorized user, no command is sent to the CPU or EC to change operation of the information handling system.

Methods and apparatus to count people are disclosed. Example apparatus disclosed herein include means for discarding existing characteristic datasets from a list; means for populating the list with first characteristic datasets obtained from a first plurality of images representative of an environment during a first period of time of a media presentation; means for limiting a number of the first characteristic datasets stored in the list for a first location represented in the first plurality of images; and means for comparing the first characteristic datasets to each other to determine a first number of unique faces in the environment during the first period of time, wherein the means for discarding is to delete the first characteristic datasets from the list, and the means for populating is to re-populate the list with second characteristic datasets obtained from a second plurality of images representative of the environment.

A contactless card reader comprises a contactless card reader front-end coupled to a processor. A communications module is coupled to the processor and a set of sensors is coupled to the processor. The set of sensors determines parameters related to the location, orientation and motion of the card reader. The processor receives the parameters from the set of sensors and utilizes the parameters and scenario configuration data to evaluate a rule. The result of the evaluation of the rule results in a limitation on the operation of the card reader. The communications module is configured to intermittently receive the scenario configuration data from external sources.

A contactless card reader comprises a contactless card reader front-end coupled to a processor. A communications module is coupled to the processor and a set of sensors is coupled to the processor. The set of sensors determines parameters related to the location, orientation and motion of the card reader. The processor receives the parameters from the set of sensors and utilizes the parameters and scenario configuration data to evaluate a rule. The result of the evaluation of the rule results in a limitation on the operation of the card reader. The communications module is configured to intermittently receive the scenario configuration data from external sources.

Various embodiments include, for example, a digital-card reader, a reader hub, and a method of determining a coefficient of friction for mounting the digital-card reader and the reader hub to a mounting surface. In one specific embodiment, the digital-card reader includes a card-reader frame having a circuit board including at least one memory-card reader to perform data transfer operations; a magnetic material coupled to at least one face of the card-reader frame; and a compliant-region mat coupled to the at least one face of the card-reader frame and positioned proximate to the magnetic material. The magnetic material compresses the compliant-region mat to increase friction against a mounting surface to at least partially overcome insertion forces associated with inserting the memory card into the digital-card reader to reduce or eliminate lateral movement of the digital-card reader with reference to the mounting surface. Other devices, apparatuses, and methods are described.

Various embodiments include, for example, a digital-card reader, a reader hub, and a method of determining a coefficient of friction for mounting the digital-card reader and the reader hub to a mounting surface. In one specific embodiment, the digital-card reader includes a card-reader frame having a circuit board including at least one memory-card reader to perform data transfer operations; a magnetic material coupled to at least one face of the card-reader frame; and a compliant-region mat coupled to the at least one face of the card-reader frame and positioned proximate to the magnetic material. The magnetic material compresses the compliant-region mat to increase friction against a mounting surface to at least partially overcome insertion forces associated with inserting the memory card into the digital-card reader to reduce or eliminate lateral movement of the digital-card reader with reference to the mounting surface. Other devices, apparatuses, and methods are described.

One example embodiment is a device which includes a non-conductive substrate and at least one touchpoint. The substrate has an external surface. The touchpoint includes a conductive pad disposed on the external surface, and a conductive line that has a first end and a second end. The first end makes electrical contact with the conductive pad and the second end extends spatially away from the first end to a pre-determined distance. When the external surface of the non-conductive substrate is placed in proximity to a touch surface, the conductive pad triggers a touch event on the touch surface such that a coordinate of the conductive pad relative to the touch surface is determined.