Artificial General-Internet of Things (AG-IOT) for Robotics of Automation

Abstract

The idea of the Internet of Things (IoT) is quickly developing and influencing new advancements in a variety of application domains, including the Internet of Mobile Things (IoMT), Autonomous Internet of Things (A-IoT), and the Internet of Robotic Things (IoRT), among others. The IoT influence presents new design and implementation challenges in various fields, including seamless platform integration, context-based cognitive network integration, new mobile sensor/actuator network paradigms, and architectural domains for smart farming, infrastructure, healthcare, agriculture, business, and commerce. Applications for automation in the IoRT are numerous and are developing quickly. IoRT blends the strength of robots and the IoT, resulting in creative solutions for a range of sectors. As we ensure the authenticity of the content in this introduction, we shall investigate the wide range of IoRT automation applications. IoRT automation refers to a broad range of endeavors that use connected gadgets, sensors, and autonomous machinery to improve production, efficiency, and safety across various industries. These regions are general categories into which these programs can be placed; Industry 4.0 and manufacturing, IoRT enables automated manufacturing where robots and IoT gadgets work together without issues.

While sensors keep an eye on the condition of the equipment and improve manufacturing processes, robots can carry out activities like assembly, quality checking, and material handling. Medical field: IoRT automates procedures, including surgery, patient surveillance, and drug delivery, increasing accuracy and lowering human error. Robotic prostheses and exoskeletons improve rehabilitation and mobility. Agriculture: IoRT supports precision farming by using robots and drones that can operate autonomously to check crop health, administer pesticides, and harvest crops. Decisions are made more accessible by real-time sensor data on weather and soil conditions. Logistics and warehousing: By autonomously moving items and improving inventory management, Automated Guided Vehicles (AGVs) and robots optimize warehouse operations. IoRT helps to manage traffic, monitor air quality, and enhance public safety in smart cities by utilizing autonomous cars and advanced infrastructure. Retail: IoRT improves customer experiences in the retail industry with autonomous grocery carts, robotic inventory managers, and data-driven targeted marketing. Environmental Tracking: IoRT devices gather information in hazardous or remote locations, such as monitoring ocean pollution levels or harshly weathering infrastructure inspections. Power and utilities: IoRT uses robotic inspections and proactive maintenance to help maintain electric grids, pipelines, and projects involving renewable energy. Education and Exploration: IoRT is helpful for research and education since it enables scientists and students to experiment remotely with robotic systems and learn more about automation technology. Home automation: IoRT equipment is increasingly integrated into smart homes to provide security and convenience through linked appliances, security cameras, and personal assistants. As technology develops, the range of IoRT automated applications also keeps growing. It can transform industries, enhance the standard of life, and tackle challenging problems. This overview offers a glimpse into the intriguing and diverse world of IoRT automation.