The vestibular nervous system is a strong integration center that influences the efficacy of other sensory nerves, such as visual-spatial perception, auditory-verbal function, neural alertness, and concentration, thus affecting the learning process and learning effectiveness. The vestibular nervous system also affects the overall motor development of the individual, including the development of large and small muscles and the coordination of eye muscles, which in turn affects the quality and efficiency of movement. The vestibular nervous system also affects children’s mood and sleep, which is important for their overall quality of life. I. Influence on vision, spatial perception and directional awareness 90% of the nerve cells of the visual nervous system are related to the vestibular nerve. The vestibular nerve system is like a compass, allowing us to identify up and down, left and right, front and back, east and west, north and south, and other sense of orientation, so our sense of direction depends on the support of the vestibular nerve system. Children can recognize their way home, find their classroom at school, and remember their locker in a row of lockers because they rely on this sense of direction and visual perception. When learning to read and write, the vestibular nervous system influences children’s learning performance in the following ways: 1. 2. The ability to write with proper spacing between words. 3. The ability to write in a grid or align on a horizontal line. 4.The proportions of the characters’ radicals and parts are appropriate. 5. The parts of a character are not reversed or arranged in the opposite order. 6. The presentation of mathematics is not skewed. Sound is a sound wave produced by the vibration of matter and its transmission through a medium. The vestibular nerve and the auditory nerve share the inner ear as sensory receptors and are jointly conducted by the eighth pair of brain nerves. Vestibular nerve function promotes auditory processing. Through vestibular stimulation of activities such as running, jumping, and swinging, children can promote a more mature and efficient processing of information by the auditory nerve, and at the same time enhance the ability to express language and increase the frequency of language use. Vestibular nerve stimulation enters the reticular nerve system, which is the brain’s alert center and makes people awake. Vestibular stimulation activates the reticular nervous system, creating a stabilizing and inhibitory function that allows children to exclude other stimuli and focus on what they should be concentrating on. Studies have shown that children with concentration deficits can learn by sitting on a large ball to promote concentration, or by placing an air cushion on a chair or sitting on a T-shaped chair to provide children with more vestibular stimulation and improve their concentration. The vestibular nervous system affects muscle tone and is directly related to the development of large and small muscles throughout the body. The precise timing, sequence, and sense of direction and speed required for highly skilled movements also depend on the vestibular nerve, such as circus trapeze, bicycle riding, and ice skating. The ability to perform all movement challenges in the third dimension with ease and comfort is dependent on a highly mature vestibular nervous system. A child’s self-esteem and self-confidence are related to his or her play, physical ability, and satisfaction with success during activities. A child’s ability to move his or her body often brings a great deal of joy, so take him or her to the park to play on swings, slides, and boards, all of which are activities that make children happy. If children have not developed a mature vestibular nervous system, they will be full of anxiety, fear of falling, and often show insecurity or withdrawal from such games. Studies have shown that vestibular nerve stimulation affects sleep quality, sleep and wake cycles, and rapid eye movement sleep.