Fleet Management System
The Fleet Management System (FMS) performs the complete and centralized management of the robot fleet, allowing the operator to manage the different mobile robotics systems from several kind of devices through standard communication protocols. In this way, the access to the robots can be done from any location (office, warehouse, home, …) and through any device (PDA, mobile phone, tablet, laptop,…).
The Fleet Management System (FMS) includes:
✓ Graphical User Interface
✓ A scheduler to plan missions
✓ Management and assignment of tasks
✓ Route planning
✓ Fleet monitoring (location of each robot, status, battery level, mission in progress, etc.)
Monitoring of events and alarms: both the robots and the controllers that manage the communication with elevators, doors and loading / unloading docks
✓ Monitoring of events and alarms
Both the robots and the controllers that manage the communication with elevators, doors and loading / unloading docks
The standard operation of a robot fleet in logistic environments requires the periodic execution of transport operations. These are defined within the FMS as “missions” and are managed within a dynamic database remotely accessible.
The FMS offers a superior layer of abstraction that allows interacting with the entire fleet of robots as if it were a single system. Different levels of access can be defined so that it is possible to specify typologies of users, each of which will have certain privileges to interact with the system. It is possible for example to select a specific robot for a mission, as well as if it is going to perform a loading or transport operation, etc., just as it is possible to require any robot for a mission and let the intelligent system decide which robot of the fleet will assign to this mission.
control your robot easily!
Robotnik’s robots for logistics include an interface that allows the client to control the operations of mapping, localization and navigation directly from any device connected to the robot network.
The main features are:
Web interface accessible from any operating system (Windows, Mac, Linux, …) and from any type of device (computer, tablet, mobile, …)
Interactive 3D visualization of the models of the robots as well as the 2D environment through which they navigate in real time
Easy mapping of real environments, simple storage and recovery of previously generated maps
Control and real-time visualization (streaming) of the images captured by the robot cameras
Operation of localization and autonomous navigation commands, besides the possibility of performing a manual control of the robot
Definition, selection and edition of waypoints or navigation coordinates that the robot will reach autonomously
Real-time monitoring of the state of robot resources: Independent use of each processor, temperature, disk usage,…
Status of on-board sensors (temperature, inertial measurement unit or odometry, among others)
Real-time health monitoring (battery level, motor status or component status, among others)