A system is configured to detect a small, but meaningful, anomaly within one or more metrics associated with a platform. The system displays visuals of the metrics so that a user monitoring the platform can effectively notice a problem associated with the anomaly and take appropriate action to remediate the problem. A first visual includes a radar-based visual that renders an object representing data for a set of metrics being monitored. A second visual includes a tree map visual that includes sections where each section is associated with an attribute used to compose the set of metrics. Via the display of the visuals, the techniques provide an improved way of representing a large number of metrics (e.g., hundreds, thousands, etc.) being monitored for a platform. Moreover, the techniques are configured to expose useful information associated with the platform in a manner that can be effectively interpreted by a user.

Disclosed herein are systems, methods, and non-transitory computer-readable storage media for uploading, by a verified party, verified-party content to a media platform, receiving requests by a client device for store content, and displaying the uploaded verified-party content along with store content on the client device.

Aspects of the subject disclosure may include, for example, a method that includes generating a virtual venue for the virtual reality space, wherein the generating the virtual venue including replicating an architecture of a venue associated with the event and generating a plurality of virtual stores for the virtual venue, wherein each virtual store is associated with each participant of the plurality of participants, accessing a plurality of cameras and a plurality of microphones associated with the event, generating the virtual reality space based on the plurality of participants, the virtual venue, the plurality of microphones, and the plurality of cameras, generating a plurality of images for each participant of the plurality of participants according to each profile for each participant of the plurality of participants to participate in the event, and presenting the virtual reality space to user equipment in a virtual reality format. Other embodiments are disclosed.

Systems and methods are provided for providing a platform to provide virtual storefronts to consumers. Environmental elements are associated with specific consumer services on computer server. A user in the environment takes audio or visual recordings of an environmental element and uploads the recordings to the server. The server determines the appropriate consumer service associated with the recorded environmental element and provides the user with a reference to the service. Accordingly, any space, such as a bus stop, subway or train terminal, movie theater, or airport, may be turned into a virtual store.

A server receives an order request from a consumer device where the order request is be provisioned to a recipient at a later time and where the recipient is required to be physically present receive the order. The order request also includes a request location and a request time. As a function of the information, the method determines an estimated time to complete the order request. The method further sends a confirmation request to the consumer device requesting a confirmation response within a predetermined time. After an expiration of the predetermined time, the method completes a transaction for the order request and receives the confirmation response from the consumer device after the expiration of the predetermined time. The method sends a notification to the consumer device indicating the estimated time to complete the order request for the recipient to receive the order request.

A system and method for exchanging or selling event tickets, including a database, a computing device, a seller's mobile device and a buyer's mobile device, a network connecting the computing device and the mobile devices, a plurality of modules executing on the computing device including an authentication module, a geolocation information, and a tickets information module, wherein the geolocation information module tracks the geolocations of the one or more users' mobile devices and verifies that the geolocations of the seller's mobile device and the buyer's mobile device are within a same venue as a prerequisite to the confirmation platform module facilitating an exchange of tickets.

According to one aspect, the system provides an automated platform for managing R2R, that preserves vendor control over of the communication between retailers. For example, according to one embodiment of the system, only authorized retailers of specific vendors are able to list, request, buy, sell and swap products on the system. In further examples, the system controls execution so that exchanges can occur anonymously, while maintaining the assurances that transactions are facilitated by authorized parties at vendor-set prices. In yet other example, the system permits authorized retailers to list non-performing goods for authorized retailers to obtain by purchase or swap at wholesale cost. In yet other example, the system permits authorized retailers to request goods at wholesale cost and display the requests in a workflow that permits providers execute fulfillment.

Disclosed are various embodiments for automatically identifying whether applications are static or dynamic. In one embodiment, code of an application is analyzed to determine instances of requesting data via a network in the application. Characteristics of the instances of requesting data via the network are provided to a machine learning model. The application is automatically classified as either dynamic or static according to the machine learning model.

This disclosure describes techniques for identifying users that are enrolled for use of a user-recognition system. To be identified using the user-recognition system, a user may first enroll in the system by stating an utterance at a first device having a first microphone. In response, the first microphone may generate first audio data. Later, when the user would like to be identified by the system, the user may state the utterance again, although this time to a second device having a second microphone. This second microphone may accordingly generate second audio data. Because the acoustic response of the first microphone may differ from the acoustic response of the second microphone, however, this disclosure describes techniques to apply a relative transfer function to one or both of the first or second audio data prior to comparing these data so as to increase the recognition accuracy of the system.

Methods and systems disclosed herein utilize location signals received from beacons and other indoor positioning systems along with an application program on customer devices for better management of customer traffic in physical queues and virtual queues, specifically in environments such as airports, food courts, shopping malls, and amusement parks. These methods and systems also provide a customer with a token for his place in the queue on his mobile device, so he is free to continue with his activities until it is time for him to acquire a product or a service.