EDGE DATA PROCESSING

Organization Name

international business machines corporation

Inventor(s)

Charan Acharya Chandrashekar of Bangalore (IN)

Sudhakar T. Seshagiri of Bangalore (IN)

Shwetha Gopalakrishna of Bangalore (IN)

Prasanna Alur Mathada of Bangalore (IN)

EDGE DATA PROCESSING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240330065 titled 'EDGE DATA PROCESSING

The abstract of this patent application describes methods, computer program products, and systems for examining and logging data received from multiple mobile multi-access computing unmanned aerial vehicles capable of flying between a base location and various IoT edge computer environments. The system also schedules data upload and processing sessions for the UAVs based on the examination of the data received.

• The system involves an orchestrator examining and logging data from multiple mobile multi-access computing unmanned aerial vehicles.
• Each UAV can fly between a base location and different IoT edge computer environments.
• The system schedules data upload and processing sessions for the UAVs based on the data examination.
• The UAVs receive and process IoT sensor data from the IoT edge computer environments during these sessions.

Potential Applications: - Surveillance and monitoring in remote or hard-to-reach areas. - Data collection and analysis for environmental monitoring. - Disaster response and emergency management.

Problems Solved: - Efficient data collection and processing in remote locations. - Real-time monitoring and analysis of IoT sensor data. - Improved coordination and scheduling of UAV operations.

Benefits: - Enhanced data collection capabilities. - Increased efficiency in data processing. - Improved situational awareness and decision-making.

Commercial Applications: "Enhanced UAV Data Collection and Processing System for IoT Edge Environments"

Frequently Updated Research: Ongoing research in UAV technology, IoT integration, and edge computing advancements may impact the development and implementation of this system.

Questions about the technology: 1. How does this system improve data collection and processing efficiency compared to traditional methods? 2. What are the potential challenges in implementing this system in real-world scenarios?

Original Abstract Submitted

methods, computer program products, and systems are presented. the method computer program products, and systems can include, for instance: examining, by an orchestrator, logging data received from a plurality of mobile multi-access computing unmanned aerial vehicles, wherein each mobile multi-access unmanned aerial vehicle of the plurality of mobile multi-access unmanned aerial vehicles is capable of being flown between a base location in connection range of the orchestrator and at least one computer environment location of a set of iot computer environment locations, wherein respective computer environment locations of the set of computer environment locations are associated respectively to different iot edge computer environments defining a set of iot edge computer environments; and scheduling, in dependence on the examining, a data upload and processing session in which a mobile multi-access computing unmanned aerial vehicle of the plurality of mobile multi-access computing unmanned aerial vehicles receives and processes iot sensor data from an iot edge computer environment of the set of iot edge computer environments.