CPC Class H04W

Systems and methods for monitoring the use of a shared vehicle are described. In various aspects, telematics data regarding operation of a shared vehicle is collected from one or more sensors, where the shared vehicle is associated with a shared vehicle operator and a shared vehicle stakeholder. One or more processors determine whether a driving event has occurred based upon the telematics data, where the driving event is indicative of improper usage of the shared vehicle by the shared vehicle operator. The one or more processors generate a notification regarding the driving event. The notification includes a driver rating determined from the telematics data regarding operation of the shared vehicle by the shared vehicle operator. The notification is transmitted, via a network, to the shared vehicle stakeholder for presentation to the shared vehicle stakeholder.

Aspects of the disclosure relate to processing remotely captured sensor data. A computing platform having at least one processor, a communication interface, and memory may receive, via the communication interface, from a user computing device, sensor data captured by the user computing device using one or more sensors built into the user computing device. Subsequently, the computing platform may analyze the sensor data received from the user computing device by executing one or more data processing modules. Then, the computing platform may generate trip record data based on analyzing the sensor data received from the user computing device and may store the trip record data in a trip record database. In addition, the computing platform may generate user record data based on analyzing the sensor data received from the user computing device and may store the user record data in a user record database.

A system for monitoring livestock in a ranching environment. The system includes tag sensors attached to animals, and configured to collect monitoring data from the animals, a first access point, configured to receive the collected monitoring data from the tag sensors and to process the collected monitoring data, an Internet of Things (IoT) link established between each of the tag sensors and the access point, and an IoT communication protocol overlay that enables synchronized uplinks from the tag sensors to the first access point via the IoT links. The IoT communication protocol overlay governs transmissions of monitoring data by the tag sensors to the access point. The system further includes a hub/cloud platform configured to receive the processed monitoring data from the first access point, perform data analytics on the processed monitoring data, and provide a user interface that enables a user to monitor the livestock.