Abstract: A system is disclosed. The system has a control module, comprising computer-executable code stored in non-volatile memory, a processor, a control center device, and a plurality of autonomous devices that operate remotely from the control center device, each of the plurality of autonomous devices including a control device. The control module, the processor, the control center device, and the control devices are configured to collect data using one or more collection devices disposed at each of the plurality of autonomous devices, process the collected data using the control devices disposed at the plurality of autonomous devices, transfer the processed data from the control devices to the control center device when the plurality of autonomous devices are autonomously operating without control by the control center device, and train artificial intelligence as a function of the processed data transferred from the control devices.

Abstract: Apparatus and methods relate to a controller configured to monitor incident risk levels of multiple independently governed autonomous vehicles remote from the controller simultaneously; and, in response to an unsafe incident risk level for one or more vehicles, take control of vehicles having an unsafe incident risk level, to restore a safe incident risk level; and, in response to determining incident risk has been restored to a safe level, returning control to the autonomous vehicles. Incident risk may be determined for multiple vehicles individually, and as a group, based on data from sensors distributed across multiple vehicles. Sensor data from multiple vehicles may be fused, permitting accurate incident risk determination for a vehicle group. Safety measures may be targeted by artificial intelligence to an individual vehicle or a vehicle group, to reduce incident risk by increasing separation between vehicles, or reducing vehicle speed.

Abstract: A system is disclosed. The system has an ultra-low latency data and video streaming module, comprising computer-executable code stored in non-volatile memory, a processor, a control center device, and a plurality of vehicle, robot or drone units that operate remotely from the control center device, each of the plurality of units including a control device. The control module, the processor, the control center device, and the control devices are configured to video stream using one or more camera modules disposed at each of the plurality of units, transfer the video streams from the control devices to the control center device.

Abstract: A system is disclosed. The system has a control module, comprising computer-executable code stored in non-volatile memory, a processor, a control center device, and a plurality of autonomous devices that operate remotely from the control center device, each of the plurality of autonomous devices including a control device. The control module, the processor, the control center device, and the control devices are configured to collect data using one or more collection devices disposed at each of the plurality of autonomous devices, process the collected data using the control devices disposed at the plurality of autonomous devices, transfer the processed data from the control devices to the control center device when the plurality of autonomous devices are autonomously operating without control by the control center device, and train artificial intelligence as a function of the processed data transferred from the control devices.

Abstract: An improved distributed information sharing system (DISS) and methods for an autonomous vehicle, the DISS programmed and configured to receive information from a plurality of distributed sensors; determine the existence of an incident, vehicles, passengers, pedestrians, animals and objects involved in the incident, a nature of the injuries and damages from the incident; determine if the autonomous vehicle can be safely moved autonomously from a location where the incident occurred to a second location; contact an emergency responder when the vehicle cannot be safely moved autonomously; receive a request to transfer control of the vehicle from an emergency responder user device; and in response, transfer control of the automated vehicle to a trusted emergency responder without requiring approval from an owner of the vehicle using encryption and handshake techniques; and notify an owner or interested party of the vehicle of the incident.