![]() ![]() System is set up by the customer and is done so with a point and click interface.Implementation includes mapping facility once with a robot then setting up zones and points of interest on the map in the fleet manager. Changes to the system require facility infrastructure updates and additional staff training.AGVs require trained expertise by certified personnel or engineers.AMRs offer integrated lights and sounds that resemble outdoor automobiles to intuitively indicate behaviors to plant personnel.ĪGVs are designed to do simple tasks, yet setup and operation is cumbersome, complex, and costly.Plant personnel can safely and collaboratively interact with AMRs.AMRs learn which routes are the fastest and take optimal paths, even within unpredictable environments.Machine learning collects data and updates the fleet’s shared map with learned parameters. Onboard intelligence enables AMRs to adapt to changing environments and easily integrate with other solutions (including ERPs). AGVs cannot easily integrate with other solutions.AGVs are unable to back up or take alternate routes.Standard stack lights and sounds are unchanging, despite changes in environment.Due to lack of data collection, plant operators do not have insight into real-time KPIs or vehicle performance.AMRs can become a shared resource therefore, less units are required for purchaseĪGVs are not intelligent machines and do not facilitate industry’s vision of the ‘smart factory' 4. Due to infrastructure, intelligence is not required.Underutilized assets from other facilities or zones that experience a downturn. Throughput is increased in facilities or zones, that would otherwise be.Units can be shared among multiple facilities to alleviate seasonal demands.With a centrally controlled fleet manager, setup time is minimal and can be completed by the customer. Multiple systems are required in total, despite low/high seasonal periods.ĪMRs can be redeployed from one plant to another, or to a different zone within the same plant.Moving an AGV is equivalent to installing an AGV system for the first time - significant resources are required. AMR customers do not need to outsource work to 3rd party vendors for changes or additional implementation.Infrastructure renovations, facility planning, or additional training are not required.Facility layout must be designed to accommodate equipment.Īdditional AMRs can be operational in Resources are required for facility planning, infrastructure innovations, maintenance and line training.Parameters can be customized to navigate through aisleways, personnel zones, and narrow corridors.ĪGVs can be added to facility if layout adheres to AGV infrastructure requirements.AMRs detect, avoid, and dynamically move around obstacles to continue to destination, reducing downtime.Encourages 5S standards for clean aisleways throughout entire facility.One AMR unit can be used in multiple applications.Minor debris in the laser’s field of view prevents the vehicle from moving until obstacle is manually removed by human personnel.ĪMRs do not require external infrastructure for navigation, making implementation hassle-free and highly scalable.Ongoing infrastructure maintenance is required.Multiple AGV units are required for different applications.They follow predefined paths using lasers, beacons, barcodes or magnetic tape. Flexible and Versatile AGVĪGVs are fixed. Autonomous next-generation solutions are disrupting conventional AGV technologies with 5 core advantages: 1. The AMR: An Evolution of the AGVĪutomated material transport has experienced an evolution due to rapid advancement in sensors and big data capability. ![]() Machine learning capabilities enable the robot to become more efficient and accurate as it encounters new situations. Within an industrial environment, an AMR utilizes laser-based perception and navigation algorithms to dynamically move through facilities, infrastructure-free. Lasers and sensors detect obstacles in its path and trigger the vehicle to stop automatically 2.Īutonomous Mobile Robot (AMR): An AMR is a robot in which operation occurs without direct driver input or pre-configured scripts to control the steering, acceleration, and braking 3. AGVs 1rely on guidance devices such as magnetic tape, beacons, barcodes or predefined laser paths that allow the AGV to travel on fixed paths in a controlled space. ![]() Automated Guided Vehicle (AGV): An AGV is an unmanned electric vehicle that is controlled by pre-programmed software to move materials around a facility. ![]()
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