With the development of technology, more and more intelligent technologies are being applied to our daily lives, bringing smart and convenient experiences. One of these is the intelligent cleaning robot, which has become an essential smart appliance in home life due to its practicality and ease of use.
Understanding Intelligent Cleaning Robots: Although intelligent robot vacuums are convenient to use, many people may not know how they work. Generally speaking, the function of an intelligent robot vacuum is "sweeping + vacuuming", it can only perform cleaning and sanitation work on the floor. After installing artificial intelligence system, it can operate autonomously through navigation and sensors, fully freeing your hands. The disadvantage is that it can easily get stuck by obstacles on the ground, so it's best to use it on the floor without cluttered toys, flowerpots, and other obstacles that may hinder its operation.
Laser Navigation Intelligent Cleaning Robot: Laser navigation is a technology that measures the distance and position between the machine body and environmental objects through a laser emitter. This technology has an early start, fast response, high precision, and stable performance. It is the most mature navigation technology. However, this navigation also has a major flaw, which is that it cannot detect highly reflective objects such as glass mirrors and floor-to-ceiling windows, because when the laser is projected onto these objects, it cannot receive scattered light. However, many intelligent robot vacuum manufacturers have perfectly solved this problem by installing glass detection sensors in the machine body.
Vision Navigation Intelligent Cleaning Robot: Simply put, visual navigation is to obtain position information, direction, and other information by using visual sensors to collect environmental information, thereby simulating human vision. Visual navigation has strong scene recognition capabilities. Visual navigation as a new navigation solution in recent years, will become the mainstream of the next generation of navigation.
Although visual navigation is powerful enough, it also has certain disadvantages. For example, the precision and stability are not as good as laser navigation. In some simple environments, laser navigation is better than visual navigation. However, in complex environments, the advantages of visual navigation can be demonstrated. In summary, the visual navigation of intelligent cleaning robots has advantages in obstacle avoidance and interaction, but still needs improvement in accuracy and stability.
Gyroscope Navigation Intelligent Cleaning Robot: The gyroscope mainly determines the walking direction of the robot, and can accurately position XY coordinates in combination with the indoor navigation positioning system and the operating status of the walking motor. When bypassing obstacles, it records the bypass direction, avoiding repeated cleaning processes by the robot, improving cleaning efficiency. The software calculates the robot's walking route, and can record the journey. Through the floor cleaning path coverage algorithm, it completes and saves the cleaning plan. During the movement, it can detect the horizontal rotation and position adjustment of the robot. When the intelligent cleaning robot needs to be charged, it can quickly return to the charging station through its own coordinates. After charging, through the journey record returning to the cleaning area, it can continue the cleaning process, greatly improving efficiency. For recessed or corner terrain, recording the journey during the cleaning process helps to efficiently complete the cleaning.
Understanding Intelligent Cleaning Robots: Although intelligent robot vacuums are convenient to use, many people may not know how they work. Generally speaking, the function of an intelligent robot vacuum is "sweeping + vacuuming", it can only perform cleaning and sanitation work on the floor. After installing artificial intelligence system, it can operate autonomously through navigation and sensors, fully freeing your hands. The disadvantage is that it can easily get stuck by obstacles on the ground, so it's best to use it on the floor without cluttered toys, flowerpots, and other obstacles that may hinder its operation.
Laser Navigation Intelligent Cleaning Robot: Laser navigation is a technology that measures the distance and position between the machine body and environmental objects through a laser emitter. This technology has an early start, fast response, high precision, and stable performance. It is the most mature navigation technology. However, this navigation also has a major flaw, which is that it cannot detect highly reflective objects such as glass mirrors and floor-to-ceiling windows, because when the laser is projected onto these objects, it cannot receive scattered light. However, many intelligent robot vacuum manufacturers have perfectly solved this problem by installing glass detection sensors in the machine body.
Vision Navigation Intelligent Cleaning Robot: Simply put, visual navigation is to obtain position information, direction, and other information by using visual sensors to collect environmental information, thereby simulating human vision. Visual navigation has strong scene recognition capabilities. Visual navigation as a new navigation solution in recent years, will become the mainstream of the next generation of navigation.
Although visual navigation is powerful enough, it also has certain disadvantages, for example, the precision and stability are not as good as laser navigation. In some simple environments, laser navigation is better than visual navigation. However, in complex environments, the advantages of visual navigation can be demonstrated. In summary, the visual navigation of intelligent cleaning robots has advantages in obstacle avoidance and interaction, but still needs improvement in accuracy and stability.
Gyroscope Navigation Intelligent Cleaning Robot: The gyroscope mainly determines the walking direction of the robot, and can accurately position XY coordinates in combination with the indoor navigation positioning system and the operating status of the walking motor. When bypassing obstacles, it records the bypass direction, avoiding repeated cleaning processes by the robot, improving cleaning efficiency. The software calculates the robot's walking route, and can record the journey. Through the floor cleaning path coverage algorithm, it completes and saves the cleaning plan. During the movement, it can detect the horizontal rotation and position adjustment of the robot. When the intelligent cleaning robot needs to be charged, it can quickly return to the charging station through its own coordinates. After charging, through the journey record returning to the cleaning area, it can continue the cleaning process, greatly improving efficiency. For recessed or corner terrain, recording the journey during the cleaning process helps to efficiently complete the cleaning.