DOI: 10.14704/nq.2018.16.5.1251

A New Aerobics Training Method Based on Electroencephalogram

Xuehong Sun


Aerobics is a sport that can show continuous, complex and high-intensity complete movements under the accompaniment of music. It is a popular sport popular with the masses. At present, our country has made certain achievements in the aerobics competition project, and all the aerobics competitions both at home and abroad have made certain progress. In this process, the daily training work of the Aerobics athletes is very important, it is the basic way to improve the comprehensive quality of the athletes. In view of the current development of aerobics training, the brain wave technology is applied in this research to achieve the visualization, real-time detection and real-time feedback of aerobics training results. Combined with traditional research methods to improve aerobics training skills, an experiment is designed to verify that the aerobics training system based on EEG can improve athletes' concentration degree of aerobics training more effectively. The experimental results of this study provide some reference and reference for the research and development of the related fields in the future.


Electroencephalogram (EEG), Aerobics Training System, Bluetooth Communication Module, EEG Aerobic Data Processing

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Arakawa T, Kobayashi M, Matsuo N. Development of aromatic image map and evaluation of aromatic oil based on brain wave. Journal of Biosciences & Medicines 2015; 3(5): 36-48.

Bowden D, Gaudry C, Gruzelier J. A comparative randomised controlled trial of the effects of brain wave vibration yoga, iyengar yoga and mindfulness training on mood and well-being. Neuroscience Letters 2011; 500(1–4): e24-e25.

Castellano CA, Paquet N, Dionne IJ, Imbeault H, Langlois F, Croteau E. A 3-month aerobic training program improves brain energy metabolism in mild alzheimer's disease: preliminary results from a neuroimaging study. Journal of Alzheimers Disease 2017; 56(4): 1459-68.

Chin LM, Chan L, Woolstenhulme JG, Christensen EJ, Shenouda CN, Keyser RE. Improved cardiorespiratory fitness with aerobic exercise training in individuals with traumatic brain injury. Journal of Head Trauma Rehabilitation 2014; 30(6): 382-90.

Devine JM, Wong B, Gervino E, Pascual-Leone A, Alexander MP. Independent, community-based aerobic exercise training for people with moderate-to-severe traumatic brain injury. Archives of Physical Medicine & Rehabilitation 2016; 97(8): 1392-97.

Li X, Yuan QJ, Wang L. Effects of Free Radical Mediator NF-κB Expression Change on Brain in Aging Mice after Various Load Aerobic Training. In Advanced Materials Research Trans Tech Publications, 2013; 749: 215-20.

Henrique de Gobbi Porto F, Martins Novaes Coutinho A, Lucia de Sá Pinto A, Gualano B, Luís de Souza Duran F, Prando S, Rachel Ono C, Spíndola L, Okada de Oliveira M, Helena Figuerêdo do Vale P, Nitrini R. Effects of aerobic training on cognition and brain glucose metabolism in subjects with mild cognitive impairment. Journal of Alzheimer's Disease 2015;46(3):747-60.

Schmolesky MT, Webb DL, Hansen RA. The effects of aerobic exercise intensity and duration on levels of brain-derived neurotrophic factor in healthy men. Journal of Sports Science & Medicine 2013; 12(3): 502-11.

Smart NA, Steele M. Systematic review of the effect of aerobic and resistance exercise training on systemic brain natriuretic peptide (bnp) and n-terminal bnp expression in heart failure patients. International Journal of Cardiology 2010; 140(3): 260-65.

Su YC, Roh HT. Effects of aerobic exercise training on peripheral brain-derived neurotrophicfactor and eotaxin-1 levels in obese young men. Journal of Physical Therapy Science 2016; 28(4): 1355-58.

Weinstein AA, Chin LM, Collins J, Goel D, Keyser RE, Chan L. Effect of aerobic exercise training on mood in people with traumatic brain injury: a pilot study. Journal of Head Trauma Rehabilitation 2016; 32(3): E49-56.

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