Title :
Quaternion based heading estimation with handheld MEMS in indoor environments
Author :
Renaudin, Valerie ; Combettes, Celine ; Peyret, Francois
Author_Institution :
COSYS Dept., GEOLOC Lab., France
Abstract :
Pedestrian Dead-Reckoning (PDR) is the prime candidate for autonomous navigation with self-contained sensors. Nevertheless with noisy sensor signals and high hand dynamics, estimating accurate attitude angles remains a challenge for achieving long term positioning accuracy. A new attitude estimation algorithm based on a quaternion parameterization directly in the state vector and two opportunistic updates, i.e. magnetic angular rate update and acceleration gradient update, is proposed. The benefit of this method is assessed both at the theoretical level and at the experimental level. The error on the heading, estimated only with the PDR navigation algorithms, is found to less than 7° after 1 km of walk.
Keywords :
indoor environment; inertial navigation; microsensors; pedestrians; satellite navigation; PDR navigation algorithms; acceleration gradient update; attitude angle estimation algorithm; autonomous navigation; handheld MEMS; high hand dynamics; indoor environments; magnetic angular rate update; noisy sensor signals; opportunistic updates; pedestrian dead-reckoning; quaternion based heading estimation; quaternion parameterization; self-contained sensors; state vector; Estimation; Magnetic field measurement; Magnetic separation; Magnetometers; Navigation; Quaternions; Acceleration gradient update; Attitude estimation; Indoor navigation; Kalman Filter; Mems; Quaternions; magnetic Angular rate update;
Conference_Titel :
Position, Location and Navigation Symposium - PLANS 2014, 2014 IEEE/ION
Conference_Location :
Monterey, CA
Print_ISBN :
978-1-4799-3319-8
DOI :
10.1109/PLANS.2014.6851427
