Abstract: A mobile device initiates automatic action-based product provisioning for rides. The mobile device detects a ride protection trigger and alerts a management server of the detected ride protection trigger. The mobile device also retrieves ride information from a ride application and sends the ride information to the management server. The management server determines a ride action based on the ride protection trigger and the ride information. The management server identifies a product based on the determined ride action and sends the ride information and a request for a dynamic product to a product provisioning server. The product provisioning server generates the dynamic product based on the request and the ride information and sends the generated dynamic product to the management server. The management server may send the dynamic product to the mobile device for display.

Abstract: A mobile device initiates automatic action-based product provisioning for rides. The mobile device detects a ride protection trigger and alerts a management server of the detected ride protection trigger. The mobile device also retrieves ride information from a ride application and sends the ride information to the management server. The management server determines a ride action based on the ride protection trigger and the ride information. The management server identifies a product based on the determined ride action and sends the ride information and a request for a dynamic product to a product provisioning server. The product provisioning server generates the dynamic product based on the request and the ride information and sends the generated dynamic product to the management server. The management server may send the dynamic product to the mobile device for display.

Abstract: Implementations of the disclosure provide for to remotely testing operational components of a mobile device. In one implementation, a method is provided. The method includes providing, by a server processing device, instructions to a mobile device for a user to interact with a component of the mobile device. Data associated with an operation of the component in view of the instructions is received. The received data is compared to a model input characterizing a functional level associated with the operation of the component. Thereupon, it is determined whether there is a depleted operation of the component in view of the comparison.

Abstract: Implementations of the disclosure provide for to remotely testing operational components of a mobile device. In one implementation, a method is provided. The method includes providing, by a server processing device, instructions to a mobile device for a user to interact with a component of the mobile device. Data associated with an operation of the component in view of the instructions is received. The received data is compared to a model input characterizing a functional level associated with the operation of the component. Thereupon, it is determined whether there is a depleted operation of the component in view of the comparison.

Abstract: A drain assembly comprises a rigid body having an intake chamber connected to a discharge chamber via a passageway disposed in a lower portion of the rigid body, an intake opening disposed in an upper portion of the rigid body adapted to receive a fluid into the intake chamber of the rigid body, the intake opening adapted to be coupled to a drain via a flexible hose, a discharge opening also disposed in the upper portion of the rigid body but spaced from the intake opening, adapted to conduct the fluid out from the discharge chamber of the rigid body, the discharge opening adapted to be coupled to a drainage pipe, a clean-out opening disposed in the lower portion of the rigid body in fluid communication with the passageway, and a removable cap adapted to close off the clean-out opening.