What are navigation technologies? What do they do for house cleaning?
With the advancements in technology, it's no surprise that our daily chores, including cleaning, have become much easier. Thanks to robot vacuum cleaners, the days of pushing a bulky vacuum cleaner around the house are long gone. These intelligent machines can move around the house autonomously and clean up dirt and debris without any human intervention. One of the key features that enable these robots to navigate through your home is their navigation technology. In this article, we will discuss what navigation technologies are, how they work, and their role in house cleaning.
What are Navigation Technologies?
Navigation technology is the term used to describe the techniques and methods that robots use to move and locate themselves within an environment. Navigation technology is critical for robots that are designed to operate autonomously, such as robot vacuum cleaners. There are several types of navigation technologies available, including gyroscopic navigation, laser navigation, and vision-based navigation.
1. Gyroscope Navigation
Gyroscope navigation uses an internal sensor to detect changes in the robot's orientation as it moves around a room. This sensor allows the robot to detect when it has turned or changed direction, which helps it to build a map of the room it is cleaning. This type of navigation is often used in entry-level robot vacuums because it is relatively inexpensive.
One of the advantages of gyroscope navigation is its simplicity. Since it does not require external sensors or cameras, it is easy to implement and does not add significantly to the cost of the robot. Additionally, gyroscope navigation is highly accurate when it comes to tracking the robot's position and orientation, which helps to prevent collisions with objects in the room.
However, there are also some limitations to gyroscope navigation. For example, it may struggle to navigate around complex or cluttered rooms, as it relies solely on the robot's movement and orientation to build a map of the environment. This can lead to missed areas or repeated cleaning of the same area. Additionally, gyroscope navigation may struggle to detect and avoid obstacles that are not in its direct path, which can result in collisions or damage to the robot.
2. Laser Navigation
Laser navigation, on the other hand, uses lasers to scan the environment and build a map of the room. This technology is more advanced than gyroscope navigation and is typically found in higher-end robot vacuums.
The lasers used in laser navigation emit a beam of light that bounces off objects in the room and is then detected by the robot's sensors. This information is used to build a detailed map of the room, including the location of walls, furniture, and other obstacles. This allows the robot to navigate around the room more efficiently and avoid collisions.
One of the advantages of laser navigation is its ability to map complex or cluttered environments accurately. Since it uses external sensors to detect obstacles, it can build a more detailed map of the room and navigate around objects more easily. Additionally, laser navigation can detect and avoid obstacles that are not in its direct path, which helps to prevent collisions and damage to the robot.
However, laser navigation also has some limitations. For example, it may struggle to navigate in low light conditions or detect transparent objects, such as glass or mirrors. Additionally, laser navigation can be more expensive to implement than gyroscope navigation, which can add to the cost of the robot.
How does Navigation help with Daily Cleaning？
Regardless of the navigation system used, robot vacuum cleaners offer several benefits when it comes to daily cleaning. One of the biggest advantages is the ability to clean automatically without the need for human intervention. This can save time and effort, allowing us to focus on other tasks while the robot cleans.
Another advantage of robot vacuums is their ability to clean in hard-to-reach areas, such as under furniture or in corners. Since they are typically small and maneuverable, they can navigate around obstacles and clean areas that would be difficult or impossible for a human to reach.
What to Look for When Buying a Robot Vacuum Cleaner?
When buying a robot vacuum cleaner, it is essential to consider the navigation technology used. If you have a small home or apartment with few obstacles, a robot vacuum cleaner with gyroscopic navigation may be a good choice. However, if you have a larger home or one with many obstacles, a robot vacuum cleaner with laser navigation may be a better choice.
It is also essential to consider other factors such as battery life, suction power, and dustbin capacity. A robot vacuum cleaner with a longer battery life and powerful suction can clean your home more efficiently. Additionally, a larger dustbin capacity can help reduce the frequency of emptying the dustbin.
Mamibot Robot Vacuum Cleaners
The LDS 5.0 robot cleaner -Mamibot EXVAC900S EXCEEDER is configured with the latest Lidar navigation system, D-tof sensors and ultrasonic sensors that can improve its cleaning performance. It also features four levels of adjustable suction power, three levels of wet mopping seepage speed, App, voice control, multiple cleaning modes, self-charging, scheduling, Trash Self-emptying, Mapping, Zoning, Room Selecting on APP.
The 6th generation Gyro-Navi robot cleaner supported by Gyroscope and acceleration transducers - Mamibot EXVAC700 Pioneer, which features four levels of adjustable suction power, three levels of wet mopping seepage speed, up to 140 minutes of running time, App/Remote control, voice control, multiple cleaning modes, self-charging, scheduling, and cleaning pattern Mapping on APP.
The new generation Gyro-Navi robot cleaner supported by Gyroscopes and acceleration transducers - Mamibot EXVAC600 Pilot, which features three levels of adjustable suction power, three levels of wet mopping seepage speed, up to 130 minutes of running time, App, voice/smart speaker control, multiple cleaning modes, self-charging, scheduling, cleaning pattern Mapping on APP, etc.
All in all, navigation systems play a critical role in the operation of robot vacuum cleaners. Gyroscope navigation is a simpler and more affordable option, while laser navigation offers more advanced mapping capabilities.