Purpose: Previous studies have reported an excellent effect of estimating exercise intensity by acceleration. Due to the breakthrough of technology, accelerometer is commonly included by the wearable devices in nowadays. Does the effectiveness still consistent with previous studies? Further clarification is needed. The aim was to explore the feasibility of a commercially available wearable devices serve as a monitoring instruments. And quantified the thresholds of different exercise intensities by motion accelerations. Methods: The preliminary experiment recruited 9 healthy college students from the department of physical education in which to test the reliability and validity of the devices. Formal experiments recruited 18 healthy males of college students from the department of physical education (age: 20.89 ± 0.83 years, height: 172.13 ± 5.17 cm, weight: 70.93 ± 12.14 kg; HR_(max): 192.38 ± 0.58 beats/min). Subjects performed the 5 mins seated resting heart rates measurement at the beginning of the formal experiments and followed by incremental continuous exercise. The speeds of continuous exercise phase were set at 3.2, 4.0, 4.8, 5.6 km/h in walking, 6.4, 9.6, 11.3, 12.9 km/h in running. Each phase lasts for 5 mins. The X, Y, Z axes accelerations and heart rates were recorded during entire experiment. The acceleration counts per min (ACC counts / min) were converted by triaxial acceleration values by (The equation is abbreviated). The analyzing data were derived from the last minute's (4-5 min) steady-state %HRR and ACC of each speed phase. Data were analyzed by Pearson's r coefficient and ROC curves. Significant level was set at α = .05. Results: The reliability and validity of the device criterion-related validity were ICC = .89 - .99, p＜.05 and test-retest reliability coefficient were ICC = .58 - .98, p＜.05, respectively. However, the correlation between ACC and %HRR was r = .69, p ＜.05. The best ACC cut-off point of different exercise intensities thresholds were light 31,149 counts/min, moderate 32,451 counts/min, vigorous 34,819 counts/min, respectively. Conclusions: The commercially available wearable device could be served as an effective and stable monitoring instrument. Reducing the cost and the technical access level for obtaining three-axis acceleration parameters. The definitions of light to vigorous exercise ACC provides an easy and effective quantifying tool for the evaluation of physical activity and long-term exercise intensity in daily life.