A technique for sensor network, Machine to Machine (M2M), Machine Type Communication (MTC), Internet of Things (IoT) is provided. The present disclosure can be applied to intelligent services (smart homes, smart buildings, smart cities, smart cars or connected cars, health care, digital education, retail, security and safety service) based on the technique. A method for operating a user equipment (UE) is provided. The method includes receiving a first signal comprising a first category identification (ID) and a first unique ID from a first beacon device, determining a distance from the first beacon device based on the first signal, if the distance is below a threshold, registering the first category ID, and if a second signal comprising the registered first category ID from a second beacon device, displaying information corresponding to a second unique ID of the second signal.

Various techniques are described herein for providing ticketing reservation and purchasing functionality for enabling and/or facilitating users in performing activities/operations relating to group ticket reservations and/or automated conditional ticket purchases for various types of events which are scheduled to occur at one or more different venues.

The system provides location based coupon-less offers based upon a location of a card member (CM). A location of a CM may be determined based upon one or more of a travel itinerary, a GPS signal, a proximity of a mobile communication device to a cellular base station, and/or a zip code. An offer from a merchant registered to provide coupon-less offers may be transmitted to a mobile communication device based upon the location. An offer, once accepted by a CM, may be matched to a record of charge associated with a transaction account held by the CM. A credit may be applied to the CM's transaction account and a debit may be applied to a transaction account of the registered merchant. One or more offer categories and/or one or more offer category classes may be transmitted to the mobile communication device based upon the CM's location.

A computer implemented method is provided. The method includes detecting, by a computer of a charging unit (CU), a connection of a charging connector of the CU to a vehicle charge port of an electric vehicle (EV). The detecting of the connection includes processing a data exchange between electronics of the EV and the computer of the CU. The method includes receiving, by the computer of the CU, charge status of the EV while the charging connector is connected to the CU. The received charge status of the EV changes as charge is provided from the CU to a battery of the EV. The method includes sending a notification by server to a user account that was used to obtain charge for the EV at the CU. The notification provides data for a graphical user interface that shows the charge status of the EV. The method includes receiving instructions from a device associated with the user account, to make payment of a fee or receive a fee charge, to instruct the CU to indicate an in progress or in-use state even when the EV is at a full level of charge while the EV is occupying the CU and is preventing others from access to the CU that is provided for public use of users with user accounts. The method includes sending data by the server to the computer of the CU to display an in progress or in-use state, wherein the server communicates over the internet with the device.

A retail vendor application installed on a user device receives configuration parameters for a user interface button that can be used by a user of the device to purchase an item available for consumption. The application determines, based at least in part on the configuration parameters, an activity trigger that, if detected, causes the application to present the button to the user. The application monitors sensors and applications on the user device to obtain data that can be used to detect the activity trigger. In response to detection of the activity trigger, the application updates an interface of the user device to present the button. If the user selects the button, the application generates a purchase request for the item that is sent to a retail vendor service for processing.

A method includes receiving, at a user device including one or more processors, a signal pushed to the user device from an in-store device physically located in a store. The signal includes a first store identifier. The method further includes storing the first store identifier in memory. The method further includes receiving a content item from a third-party content provider device, the content item including a second store identifier. The third-party content provider device transmits the content item to a plurality of user devices within a geographic area around a location associated with the second store identifier. The method further includes providing the content item for display in response to determining the first store identifier matches the second store identifier. The content item is displayed without providing an indication of the presence of the user device at the store to the in-store device or to the third-party content provider device.

Systems and methods are disclosed for automated computer based notification systems. The systems and methods enable secure notification communication sessions. A representative method, among others that are disclosed herein, can be broadly summarized by the following steps: enabling a first party associated with a personal communication device (PCD) to input or select authentication information for use in connection with a subsequent notification communication session involving advance notice of a delivery or pickup of a good or service at a stop location by a mobile thing (MT); storing the authentication information; monitoring location or travel information in connection with the MT; causing initiation of the notification communication session to the PCD, in advance of arrival of the MT at the stop location, based at least in part upon the location or travel information associated with the MT; during the notification communication session, providing the authentication information to the PCD that indicates to the first party that the notification communication session was initiated by an authorized source; and during the notification communication session, enabling the first party to select whether or not to communicate with a second party having access to particulars of the pickup or delivery. An embodiment of a related system, among others, has a computer-based architecture with computer software, or code, that is stored in one or more memories and executed by one or more processors for performing the foregoing steps. Yet another embodiment of a related system can be implemented in software and/or hardware and has a means for performing each of the aforementioned steps.

A system automatically and continuously finds and aggregates the most relevant and current information about the people and things that a user cares about. The information gathering is based on current context (e.g., where the user is, what the user is doing, what the user is saying/typing, etc.). The result of the context based information gathering is presented ubiquitously on user interfaces of any of the various physical devices operated by the user.

Techniques for providing friction-free transactions using geolocation and user identifiers are described herein. These techniques may ascertain a user's location based on a location of a mobile device. A transaction between the user and a merchant may be completed with zero or minimal input from the user based on the geolocation of the mobile device and the user identifiers. In some implementations, a transaction initiated earlier is completed when the mobile device arrives at the merchant. Additionally, a parent-child or similar relationship may be established between multiple devices. Security on the mobile device based may be provided by biometric identification and calculation of variance from regular movement patterns. Advertisements may be sent to the mobile device based on bids from merchants near to the mobile device. Promotions may be sent to the mobile device when more than a threshold number of mobile devices are located at the same merchant.

Methods and systems for transmitting content to a device are described herein. Methods include receiving location information relating to a device that is usable to identify an approximate location of the device; comparing the approximate location of the device with a location of a venue; and transmitting content to the device if the approximate location of the device is within a pre-determined range of the location of the venue for a predetermined range of time. The user can receive the content without the need for the user to be aware of and seek out that content. The transmission of content to the device may depend not only on the user's location, but also on the amount of time the user is at the location. Content may be selected based upon whether the approximate location of the device is within pre-determined ranges of the location of the venue.