Improved Dead Reckoning Localization using IMU Sensor
Author:
Affiliation:
1. MPG Machinery Production Group Inc. Co.,Research and Development,Konya,Turkey
2. Konya Technical University,Robotics Automation Control Laboratory (RAC-LAB),Department of Electrical and Electronics Engineering,Konya,Turkey
Publisher
IEEE
Link
http://xplorestaging.ieee.org/ielx7/10009907/10009039/10010239.pdf?arnumber=10010239
Reference13 articles.
1. Visual Odometry [Tutorial]
2. HVIOnet: A deep learning based hybrid visual–inertial odometry approach for unmanned aerial system position estimation
3. LSTM and Filter Based Comparison Analysis for Indoor Global Localization in UAVs
4. A90 GNSS receiver;A90 GNSS Receiver,0
5. A comparison of Pedestrian Dead-Reckoning algorithms using a low-cost MEMS IMU
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