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Autonomous Mobile Robots

Driving Efficiency

An AMR (Autonomous Mobile Robot) is a robotic system designed to autonomously transport materials, goods, or products within a warehouse, distribution center, or manufacturing facility.

Benefits of AMR robots include:

Flexibility: AMR robots can adapt to changing layouts and workflows within a facility, making them highly flexible and suitable for dynamic environments.

Efficiency: By automating material handling tasks, AMR robots can improve the efficiency of warehouse operations, reducing the time and labor required to move goods from one location to another.

Scalability: AMR systems can be easily scaled up or down to meet changing demands, allowing businesses to adjust their fleet of robots based on seasonal fluctuations or changes in production volumes.

Safety: AMR robots are equipped with sensors and collision avoidance systems that enable them to navigate safely in crowded environments, minimizing the risk of accidents and injuries.

24/7 Operation: AMR robots can operate continuously, enabling round-the-clock material handling operations without the need for human supervision.

Real-time Monitoring: Many AMR systems include monitoring and reporting capabilities that provide real-time insights into the status and performance of the robot fleet, allowing operators to optimize workflows and address any issues promptly.

Space Optimization: AMR robots can navigate through narrow aisles and tight spaces, making more efficient use of available floor space in warehouses and manufacturing facilities.

5 keys to selecting AMRs for your application

Selecting AMRs for a Palletizing and Intralogistics Solution Example

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Some samples of Solutions with AMRs

Do you need Fleet Management System (FMS) to your AMR applications?

Managing your robotic workforce has never been easier!

A Fleet Management System (FMS) is a centralized software platform that controls and coordinates multiple robots within a fleet. It's essentially the brain behind the operation, enabling efficient management, monitoring and optimization of AMR activities. 

Key functionalities of an FMS typically include:

  • Task Allocation and Scheduling: The FMS assigns tasks to individual robots based on factors like their current location, battery level, and workload. It optimizes task scheduling to minimize idle time and maximize productivity.
  • Path Planning: It calculates the most efficient paths for robots to navigate through the environment, considering obstacles, traffic, and other dynamic factors.
  • Resource Optimization: The FMS monitors the status of each robot in the fleet, including battery levels, maintenance requirements, and performance metrics.
  • Coordination and Collaboration: In scenarios where multiple robots need to work together to accomplish a task (e.g., transporting a heavy load), the FMS coordinates their movements to ensure seamless collaboration and avoid conflicts.
  • Real-time Monitoring and Reporting: It provides real-time visibility into the status and performance of the entire fleet, allowing operators to track progress, identify bottlenecks, and make data-driven decisions to improve efficiency.
  • Fault Detection and Diagnostics: The FMS detects anomalies or malfunctions in individual robots and initiates appropriate responses, such as rerouting tasks to other robots or dispatching maintenance teams for repairs.

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