An autonomous mobile robot (AMR) is a new technology that aims to replace human operators in dangerous and hazardous areas such as nuclear power plants, airports, chemical plants, etc. These robots can save a lot of lives and comfort. AMR can reduce the damage cost by avoiding injuries or even stopping a disaster by itself. In this article, we will discuss its advantages.
1. Flexible to Scale Up and Down
The main advantage of this robot is that it can be scaled up and down. The robots are also flexible and can quickly adapt to the environment. For example, in a factory, there is a need for large-scale robots with long working hours, but in a home or office, people may only need small robots for individual tasks. Through this flexibility, these robots can meet the needs of different users according to their requirements.
They can also work in environments where humans cannot work safely because they are too dangerous or difficult to reach. For example, some industrial sites have no access to electricity or water supply. In contrast, others are difficult and dangerous because they are located in mountains or deep inside caves. In such cases, these robots can help humans do their jobs more efficiently by working autonomously without human intervention at all times.
2. Higher Storage Capacity
They can store large amounts of data and be used for different purposes. They can be used in many situations, such as collecting data from various sources, scanning items for quality control, and performing tasks that require high accuracy.
The increased storage capacity of these mobile robots is an advantage that makes them more valuable than fixed robots in many situations. For example, an Autonomous Mobile Robot can collect information about a specific area and then return to its base station for analysis. The robot can then return to the field with new information to update its database.
3. Improve the Working Environment
Autonomous mobile robots are designed to work in hazardous working environments. These mobile robots are equipped with safety systems such as anti-collision and anti-fall, etc., to ensure the safety of human workers. In addition, these Autonomous Mobile robots can be used in dangerous places because they are equipped with infrared sensors, laser emitters, etc., so they can avoid obstacles on the way. As a result, the working environment will be improved significantly. They are also helpful for transportation tasks such as moving materials from one location to another. This allows companies to save money on costly labor costs for manual handling tasks, ultimately leading to increased business efficiency and profitability.
4. More Accurate Operations
Autonomous Mobile robots are used to perform tasks that are hazardous or sensitive to human error. They are often deployed in dangerous areas with a significant risk of injury or death. It can help in situations like these by performing more accurate operations.
For example, a robotic bulldozer may be needed to clear away rubble following an earthquake or other natural disaster. In this scenario, the robot must be able to get close and clear away large amounts of debris without causing any damage or harm to people and other objects in the area.
If the robot were controlled by someone who was not experienced, they could accidentally cause harm by knocking over trees or damaging buildings. This would result in more damage than if the robot were left alone to complete its job. With this kind of robot, there is no need for human control because it will carry out its mission without causing harm or damage.
5. Lower Labor Costs
Another advantage of this autonomous mobile robot is to lower labor costs. The robot can perform the same work as humans and need not be paid for it. The robot will do the job without any human intervention, thus making it cost-effective.
In manufacturing industries, an autonomous mobile robot can perform repetitive tasks which require little skill or intelligence. Such tasks are straightforward to automate using a computer program that controls the robot’s movements. This makes it possible for companies to reduce working hours and increase their daily output.
It is clear from the above discussion that this kind of robot has many benefits over conventional mobile robots. It can perform maneuver tasks based on wall following, range mapping, and waypoint navigation considering its structure.