Get acquainted (gain, obtain) with present-day techniques that came from Robotic Fleet Management Systems
Several different companies around the world have started to use the potential of mobile robots. The Fleet Management System (FMS) is implemented to manage and control several active robots in the units. The use of this system enables complete and centralized management of the robotic fleet and allows operators to control mobile robotic systems through standard communication protocols. These robots will be accessible from a variety of locations, including home, office, warehouse, and through various devices such as laptops, tablets, cell phones, and more.
Fleet management system includes the following:
- Scheduling system for designing missions
- Manage and assign tasks
- route planning
- Fleet monitoring (location of each robot, status, battery size, mission status and )
- Monitor events and alerts
MIR Fleet Management Software Programming and monitoring robots using the interface Has provided the web. This software identifies and assigns the priorities and tasks of several robots to them. The tasks are divided between the robots and the logic of the work is very simple: the robot will do the job that will take the least time to do it. The system also ensures that the robots are in the charging position at a specified time to minimize the possibility of errors. To control and coordinate the fleet of robots with each other in critical situations. Doing so depends on installing cameras that act as integrated sensors. Advanced machine learning algorithms then come to the aid of robots, which, by processing what the cameras have recorded, can identify high-traffic areas, places and routes where vehicles, transporters of goods and humans are located, so that the robot can travel with a better understanding of environmental conditions. Manage his. In this way, a robot will avoid being in certain areas during busy times, such as unloading and delivery time, and..
OTTO fleet management software can enable 24-hour production 7 days a week. Some of the benefits of this system are:
This function helps the robots to move safely around the environment and all their movements are useful.
Traffic control agents are: From:
- Dynamic Mapping
Continuous mapping allows the operator to have vivid images of the environment, the location of devices and robots in operation.
- Automatic Traffic Commands
This feature allows users and operators to control bots such as speed limits and curbs in high-traffic areas. Lay down and personalize how they move according to their center environment.
This system continuously monitors the fleet to ensure its efficient performance.
- Intelligent work scheduling
Fleet manager constantly processes the received data and monitors the status of each robot including charge amount, position, working conditions Monitors the amount of load, capacity and.. In the next step, the system intelligently assigns tasks such as loading, moving goods, charging the battery, etc. to each robot.
The robotic fleet management system keeps users up to date with important parameters and ensures that important processes continue.
- This system sends notifications about each activity time, robot power, distance traveled, and more.
- For more support, the user connects to an OTTO robot expert with one click.
- This system can connect to applications such as Slack Messenger to allow the user to receive instant messages.
Applications of the platform:
- View: With the help of the obtained images, the operator can easily see the causes of each event.
- Analysis: Analyzes performed on existing data can provide the user with new dimensions of fleet performance and conditions.
- Work: Fleet and robot management is possible remotely.
- Connect Connect to analytics such as looker and cloud data warehouses such as redshift, cloudsight, and..
Fetch robotics strong>
n software Ogan fetch robotics is located on the cloud and enables fast and efficient deployment of the robot fleet. This software has the ability to accurately map the robot work environment and can quickly update the tasks and programs of robots. Instant monitoring of the fleet, providing sufficient visual information to the user, tracking the traffic flow of environments such as warehouses and building property inventory are other capabilities of this system.
As the need for automation increases in various sectors, it is clear that the need for robotic fleet management tools will increase in the future. Companies working in this field should be aware of emerging technologies and trends related to fleet management and try to use the necessary tools at the right time so as not to lag behind in the competitive market.