论文信息 - Reconfigurable differentiall accelerometer platform for inertial body sensor networks

Reconfigurable differentiall accelerometer platform for inertial body sensor networks

This work presents a design of a reconfigurable differential accelerometer platform for body sensor networks (BSNs) that achieves lower power and lower cost than traditional inertial sensor systems. The proposed reconfigurable platform provides six degree-of-freedom (6DoF) sensing with four tri-axial accelerometers, entirely avoiding gyroscopes, which have become a bottleneck of power and cost optimization for many BSNs. Gryo-free 6DoF sensing has been demonstrated in the past but not under BSN form factor constraints. The proposed platform includes three components: (1) differential accelerometers in a BSN-compatible configuration, (2) a reconfigurable analog circuit for adaptive sensor conditioning given this configuration, and (3) a signal reconstruction algorithm based on prior knowledge about body motions. Simulated results demonstrate accurate angular velocity estimation using the proposed platform.

Jiaqi Gong | John Lach

[1] Otmar Loffeld,et al. Constrained Angular Motion Estimation in a Gyro-Free IMU , 2011, IEEE Transactions on Aerospace and Electronic Systems.

[2] D. K. Arvind,et al. IMUSim: A simulation environment for inertial sensing algorithm design and evaluation , 2011, Proceedings of the 10th ACM/IEEE International Conference on Information Processing in Sensor Networks.

[3] Shanshan Chen,et al. Extracting Spatio-Temporal Information from Inertial Body Sensor Networks for Gait Speed Estimation , 2011, 2011 International Conference on Body Sensor Networks.

[4] Otmar Loffeld,et al. Angular Motion Estimation Using Dynamic Models in a Gyro-Free Inertial Measurement Unit , 2012, Sensors.

[5] Benton H. Calhoun,et al. Body Area Sensor Networks: Challenges and Opportunities , 2009, Computer.

[6] Taeyoung Kim,et al. Characterising and minimising sources of error in inertial body sensor networks , 2013, Int. J. Auton. Adapt. Commun. Syst..

[7] G. Legnani,et al. On the Number and Placement of Accelerometers for Angular Velocity and Acceleration Determination , 2001 .

[8] John Lach,et al. Application-Focused Energy-Fidelity Scalability for Wireless Motion-Based Health Assessment , 2012, TECS.

[9] Garth V. Crosby,et al. Wireless Body Area Networks for Healthcare: A Survey , 2012 .