Trujillo-Priego, I.A.; Lane, C.J.; Vanderbilt, D.L.; Deng, W.; Loeb, G.E.; Shida, J.; Smith, B.A.
Development of a Wearable Sensor Algorithm to Detect the Quantity and Kinematic Characteristics of Infant Arm Movement Bouts Produced across a Full Day in the Natural Environment. Technologies 2017, 5, 39.
https://doi.org/10.3390/technologies5030039
AMA Style
Trujillo-Priego IA, Lane CJ, Vanderbilt DL, Deng W, Loeb GE, Shida J, Smith BA.
Development of a Wearable Sensor Algorithm to Detect the Quantity and Kinematic Characteristics of Infant Arm Movement Bouts Produced across a Full Day in the Natural Environment. Technologies. 2017; 5(3):39.
https://doi.org/10.3390/technologies5030039
Chicago/Turabian Style
Trujillo-Priego, Ivan A., Christianne J. Lane, Douglas L. Vanderbilt, Weiyang Deng, Gerald E. Loeb, Joanne Shida, and Beth A. Smith.
2017. "Development of a Wearable Sensor Algorithm to Detect the Quantity and Kinematic Characteristics of Infant Arm Movement Bouts Produced across a Full Day in the Natural Environment" Technologies 5, no. 3: 39.
https://doi.org/10.3390/technologies5030039
APA Style
Trujillo-Priego, I. A., Lane, C. J., Vanderbilt, D. L., Deng, W., Loeb, G. E., Shida, J., & Smith, B. A.
(2017). Development of a Wearable Sensor Algorithm to Detect the Quantity and Kinematic Characteristics of Infant Arm Movement Bouts Produced across a Full Day in the Natural Environment. Technologies, 5(3), 39.
https://doi.org/10.3390/technologies5030039