Disclosed in the present invention is a system for automatic management of an unmanned parking lot. More specifically, the present invention relates to a system for automatic management of an unmanned parking lot, in which the system recognizes whether a vehicle enters a parking lot and is parked, and automatically processes a payment depending on parking time. Depending on an embodiment of the present invention, a card terminal mounted in a vehicle in each parking space of the unmanned parking lot is recognized, and procedures of vehicle identification, parking approval, payment, etc. are automatically performed in connection with a card system, such that it is possible to provide convenience of parking to an owner of a vehicle and the operator of the parking lot.

A payment terminal with a housing having a planar upper face with an extension forming an angle θ.sub.2 between 30 and 50° with the planar face for receiving a contactless reading device, another end of the planar face comprising a magnetic stripe card reader and receiving, in a slot located above the magnetic stripe card reader and forming an angle θ.sub.1 between 30 and 50° with the planar face, a contact chip card reader, the terminal comprising a main circuit board comprising a controller and memory, the controller for controlling a display device displaying a keyboard and card reading, the board comprises a connector for a contact card reader oriented with the angle θ.sub.1 with the planar card surface and a flexible connector for connecting a wired antenna for reading of contactless payment means with the angle θ.sub.2 with the planar card surface.

A mobile device presents representations of payment accepting unit events on a display, by identifying a payment accepting unit that is available to accept payment from a mobile payment application executing on the mobile device, displaying a visual indication of the payment accepting unit and accepting user input to receive selection of the payment accepting unit and trigger payment, establishing a wireless communication path including the mobile device and the payment accepting unit, enabling user interaction with the user interface to complete the transaction, exchanging information with the available payment accepting unit via the one or more radio transceivers in conjunction with the transaction, and displaying an updated user interface of the mobile payment application.

A computer system having a processor; at least one sensor for detecting and determining a location of a short-range communications attempt between a computing device and a short-range communications target; and a plurality of initiators for completing short-range communications attempts, wherein the processor is configured to enable one of the initiators to allow the computing device to complete the short-range communication transaction based on the determined location of the short-range communications attempt.

Various embodiments are generally directed to copying data to a clipboard of a mobile device from a contactless card using NFC. A mobile device may issue a request to read data from the contactless card. The contactless card may generate encrypted data in response to the request. The mobile device may receive the encrypted data via NFC and transmit the encrypted data to a server for verification. The server may verify the encrypted data and transmit an indication of an account number for the contactless card to the mobile device. The mobile device may then copy the account number to a clipboard of the mobile device.

A payment reader is provided for use in a payment system. The payment reader includes a housing, a non-conductive cover covering the housing and forming an internal compartment, electronic circuitry within the internal compartment and surrounded by the cover, and a mesh of conductive traces provided on the cover and in communication with the electronic circuitry. The cover has an upper wall and interconnected side walls depending downwardly from the upper wall. The lower surface of the upper wall which faces the internal compartment has its entire surface area which is formed of at least one three-dimensional shape which extends outwardly from an x-y plane in the z-direction.

A mobile device presents representations of payment accepting unit events on a display, by identifying a payment accepting unit that is available to accept payment from a mobile payment application executing on the mobile device, displaying a visual indication of the payment accepting unit and accepting user input to receive selection of the payment accepting unit and trigger payment, establishing a wireless communication path including the mobile device and the payment accepting unit, enabling user interaction with the user interface to complete the transaction, exchanging information with the available payment accepting unit via the one or more radio transceivers in conjunction with the transaction, and displaying an updated user interface of the mobile payment application.

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 point of sale (POS) device includes an output device such as a speaker, a display screen, or a network interface. The POS device also includes a secure enclosure housing a secure processor and tamper detection circuitry for detecting attempts to tamper with the secure enclosure. Use of the output device is shared between the secure processor and a main processor via a switch that is controlled by the secure processor. The secure processor can switch control of the output device from the main processor to itself and can output an output dataset via the output device in a number of scenarios. These scenarios include the secure processor detecting an attempt to tamper with the secure enclosure, the secure processor recognizing that the main processor is behaving suspiciously, or the secure processor wanting to output sensitive information. The output dataset may include visual data, audio data, or network data.

Example embodiments of systems and methods for data transmission between a contactless card, a client device, and one or more servers are provided. The contactless card may include one or more processors and memory. The memory may include one or more applets. The client device may include one or more processors and memory. The client device may be in data communication with the contactless card. One or more servers may be in data communication with the client device. A first set of information may be transmitted from the contactless card to the client device. The first set of information may include one or more links to activate the contactless card. The client device may be configured to receive the first set of information from the contactless card. Upon validation of the first set of information, the contactless card may be activated.