The Autonomous Robotics Management System (A.R.M.S) is a software system developed by our R&D team and is able to manage a fleet of autonomous robots with the following capabilities (not limited to): a) Fleet overview: provide a central view of the entire fleet of robots, including their location, status, and battery levels. b) Mission setting: able to schedule tasks for robots, taking into account factors such as the robots' availability, the urgency of the tasks, and the robots' capabilities. c) Path planning: able to plan paths for robots, taking into account the robots' environment and the obstacles in their way. d) Fault detection and diagnosis: able to understand and inform faults in robots, allowing for timely intervention to prevent further problems. e) Data collection and analysis: able to collect data from robots, such as task data, robot performance data and reporting. It provides the tools and capabilities necessary to manage a fleet of robots efficiently and effectively.
Any autonomous mobile robot in the market for manufacturing, services and hospitality
Has the hardware and software necessary to connect to the internet, exchange data and integration with other devices and system
A powerful tool that can be used to control the behavior of autonomous robots. By using this function, users can specify the tasks that a robot should perform, the order in which the tasks should be performed, and the starting and ending locations of the robot.
Allows users to specify the tasks that a robot should perform in a flexible way. This means that you can adapt the mission to the specific needs of your application
Help to reduce the complexity of managing a fleet of robots by providing a centralized way to specify the tasks that each robot should perform
Provides a centralized view of the entire fleet of robots, including their location, status, and battery levels. This makes it easy to track the status of the robots and to intervene if necessary
Could be integrated with other systems, such as warehouse management systems or manufacturing execution systems. This would allow the ARMS to coordinate the activities of the robots with other systems, improving efficiency and productivity