GILBARCO S.R.L. Patent applications |
Patent application number | Title | Published |
20140150056 | FUEL DISPENSER USER INTERFACE SYSTEM ARCHITECTURE - A vending machine can include a touch display and a touch controller operatively connected to the touch display and configured to transmit display data to the touch display and receive input data from a touchscreen function of the touch display. The vending machine also includes a secure device operatively connected to the touch display for securing the display by managing touch input information provided to one or more applications based on the input data received from the touchscreen functionality. The vending machine has a processor operatively connected to the secure device for communicating access requests for the touch display to the secure device from the one or more applications along with an indication of whether the one or more applications are signed by an authorized entity. The secure device manages the touch input information provided to the one or more applications further based at least in part on the indication. | 05-29-2014 |
20140089174 | APPLICATION HOSTING WITHIN A SECURED FRAMEWORK IN A FUELING ENVIRONMENT - A secured framework for hosting secure and non-secure applications is provided. A master control apparatus includes an interface component for providing input to or output from the master control apparatus, and an interface communicating component for establishing a communications path to a portion of the interface component when a secured portion of the interface component is active. The interface communicating component provides data from a feature apparatus to the portion of the interface component over the communications path, and switches the communications path to refrain from providing data from the feature apparatus where the secured portion of the interface component is active. A security analyzing component can also be included to additionally or alternatively determine whether access is allowed to the portion of the interface component. | 03-27-2014 |
20130174080 | VIRTUAL PIN PAD FOR FUEL PAYMENT SYSTEMS - A method and system for displaying a virtual PIN pad and a virtual non-PIN pad on a touch screen having a screen area. Electronics in electrical communication with the touch screen are operative to provide the virtual PIN pad on the touch screen in a payment mode and provide the virtual non-PIN pad in a non-payment mode. The virtual PIN pad has a first plurality of virtual buttons and the virtual non-PIN pad has a second plurality of virtual buttons, the first plurality of virtual buttons being greater than the second plurality of virtual buttons. The electronics are operative in the payment mode to render the virtual PIN pad having the first plurality of virtual buttons and determine a numerical sequence entered by a user at the virtual PIN pad. The electronics are operative in the non-payment mode to render the virtual non-PIN pad having the second plurality of virtual buttons determine selections entered by a user at the virtual non-PIN pad. | 07-04-2013 |
20130103585 | Fueling Environment Wireless Architecture - A method and system for transmitting data between devices within a fueling environment comprising a wireless mesh network wherein the devices are configured to communicate via the wireless mesh network. A wireless communication device is connected to each device, and a middleware executed by the wireless communication device handles communications between the devices and the wireless mesh network. | 04-25-2013 |
20130103190 | FUEL DISPENSER USER INTERFACE SYSTEM ARCHITECTURE - A vending machine user interface can include a first controller operatively connected to an input device capable of receiving payment or account information. The first controller can, with another device, via a second controller, or otherwise, allow secure communication of data from the input device. The first controller, in this regard, can control the communication between the input device and the other device to protect the input device from unwarranted communication from the other device. The first controller can establish a secure channel with the other device using encrypted communications. The first controller, second controller, etc. can be connected to independent printed circuit boards (PCB). Activation of sensors connected to the PCBs can cause the first and/or second controllers to erase data necessary to ascertain/decode communications from the input device, such as encryption/decryption information, or may otherwise decommission the input device or a portion thereof. | 04-25-2013 |