Title :
Real-time attitude estimation based on Gradient Descent algorithm
Author :
Cheguini, M. ; Ruiz, F.
Author_Institution :
Dept. de Electron., Pontificia Univ. Javeriana, Bogota, Colombia
Abstract :
Estimating orientation of a rigid body plays a critical role in a large part of applications like motion research, virtual reality, training and simulation. This works describes the development and evaluation of a sensor fusion filter for attitude estimation based on Gradient Descent algorithm, implemented inside an embedded system. The filter runs at 100[Hz] sampling frequency on 32 [bits] ALU, employing Quaternion algebra. The digital system waranties syncronized data acquisition and transmission. For doing this, first, tri-axial angular rate, acceleration, and magnetic field are measured in strapdown system. Then, the sensor fusion algorithm obtains an estimate of body orientation based on kinamatic model and solving an optimization problem, minimizing the error between expected and the measured fields. The system shows static accuracy lower than 0.7[degree] in 3 axis.
Keywords :
algebra; attitude measurement; filtering theory; gradient methods; real-time systems; sensor fusion; ALU; acceleration; data acquisition; data transmission; digital system; embedded system; frequency 100 Hz; gradient descent algorithm; inertial measurement unit; kinematic model; magnetic field; motion research; optimization problem; quaternion algebra; real-time attitude estimation; rigid body; sensor fusion filter; strapdown system; training; triaxial angular rate; virtual reality; word length 32 bit; Accelerometers; Accuracy; Earth; Estimation error; Magnetometers; Quaternions; Vectors; Gradient Descent Filter; Hybrid IMU; Inertial Measurement Unit; Sensor Fusion;
Conference_Titel :
Circuits and Systems (CWCAS), 2012 IEEE 4th Colombian Workshop on
Conference_Location :
Barranquilla
Print_ISBN :
978-1-4673-4612-2
DOI :
10.1109/CWCAS.2012.6404076
