Improving pedestrian navigation system performance through the use of non-orthogonal redundant inertial measurement units

机译：通过使用非正交冗余惯性测量单元来改善行人导航系统的性能

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Employing the redundant number of inertial MEMS sensors is a promising line of pedestrian positioning technologies development offering a great potential in reliability, measurement accuracy and low level of noise. For this reason the article considers the design and realization features of a miniature pedestrian navigation system implementing this principle. Firstly, the model of a non-orthogonal redundant measurement unit measuring channels is presented in the article. Furthermore, details of algorithmic and hardware solutions used in the proposed pedestrian navigation system based on redundant inertial measurement unit are discussed. The results of the developed system's field tests demonstrating higher navigation accuracy for redundant navigation system than for non-redundant are also presented.

机译：采用冗余数量的惯性MEMS传感器是行人定位技术发展的有希望的路线，在可靠性，测量精度和低噪声水平方面具有巨大潜力。因此，本文考虑了实现此原理的微型行人导航系统的设计和实现功能。首先，本文提出了一种非正交冗余测量单元测量通道的模型。此外，还讨论了在拟议的基于冗余惯性测量单元的行人导航系统中使用的算法和硬件解决方案的细节。还介绍了已开发系统的现场测试结果，该结果表明冗余导航系统的导航精度要高于非冗余导航系统。

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《International Siberian Conference on Control and Communications》|2017年|1-5|共5页
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Pavel Marinushkin; Alexey Levitskiy; Fedor Zograf;
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Measurement units; Navigation; Acceleration; Sensor systems; Redundancy; Angular velocity;

机译：测量单位;导航;加速度;传感器系统;冗余度;角速度;

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1. Performance assessment of a low-cost inertial measurement unit based ultra-tight global navigation satellite system/inertial navigation system integration for high dynamic applications [J] . Feng Qin, Xingqun Zhan, Lei Zhan Radar, Sonar & Navigation, IET . 2014,第7期

机译：基于低成本惯性测量单元的超紧密全球导航卫星系统/惯性导航系统集成的性能评估
2. Adaptive Redundant Inertial Measurement Unit/Global Positioning System Integration Filter Structure for Fault Tolerant Navigation [J] . Seong Yun Cho, Hyung Keun Lee, Chan Gook Park Journal of Dynamic Systems, Measurement, and Control . 2014,第2期

机译：容错导航的自适应冗余惯性测量单元/全球定位系统集成滤波器结构
3. Pedestrian navigation system based on the inertial measurement unit sensor for outdoor and indoor environments [J] . Marcin Uradzinski, Hang Guo Journal of Sensors and Sensor Systems . 2020,第1期

机译：基于惯用测量单元传感器的步行导航系统用于户外和室内环境
4. Improving pedestrian navigation system performance through the use of non-orthogonal redundant inertial measurement units [C] . Pavel Marinushkin, Alexey Levitskiy, Fedor Zograf International Siberian Conference on Control and Communications . 2017

机译：通过使用非正交冗余惯性测量单元改善行人导航系统性能
5. Bounding drift in pedestrian navigation with inertial measurement unit and human gait model. [D] . Cui, Yan. 2011

机译：具有惯性测量单元和人体步态模型的行人导航中的边界漂移。
6. Improving low-cost inertial-measurement-unit (IMU)-based motion tracking accuracy for a biomorphic hyper-redundant snake robot [O] . Weixin Yang, Alexandr Bajenov, Yantao Shen -1

机译：提高低成本生物惯性超冗余蛇机器人基于惯性测量单元（IMU）的运动跟踪精度
7. Pedestrian navigation system based on the inertial measurement unit sensor for outdoor and indoor environments [O] . Marcin Uradzinski, Hang Guo 2020

机译：基于惯用测量单元传感器的步行导航系统用于户外和室内环境

Improving pedestrian navigation system performance through the use of non-orthogonal redundant inertial measurement units

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