Filters and Topics
Search Results
High-Precision Attitude Estimation Based on Differential ...
IEEE
https://ieeexplore.ieee.org
› document
IEEE
https://ieeexplore.ieee.org
› document
by H Yi
2024
Cited by 13
—
This article proposes a
high
-
precision attitude
estimation system based on differential inertial
measurement
unit (
IMU
) array.
Read more
Scholarly articles for high precision attitude determination using imu |
|
|
Accurate attitude
estimation of a moving land vehicle …
-
Ahmed
- Cited by 217
… -frequency GPS/MEMS-
IMU attitude determination
of …
-
Eling
- Cited by 142
Attitude measurement
for
high
-spinning projectile
with
…
-
Liu
- Cited by 35
|
|
How to achieve high-precision attitude perception and ...
Ericco Inertial Technology
https://www.ericcointernational.com
› info › how-to-ac...
Ericco Inertial Technology
https://www.ericcointernational.com
› info › how-to-ac...
Jul 11, 2025
—
The
IMU
built-in sensor data is integrated in real time to output
high
-
precision
heading, pitch and roll angle information.
Read more
(820)
Attitude Estimation |
GitHub
https://armanasq.github.io
› attitude-estimation › attitud...
GitHub
https://armanasq.github.io
› attitude-estimation › attitud...
Sep 25, 2022
—
A moving object's position, velocity, and
attitude
can be
determined using
numerical integration of
IMU
measurements.
Read more
Developing a practical, high accuracy attitude ...
Aerospace Research Central
https://arc.aiaa.org
› doi › pdf
Aerospace Research Central
https://arc.aiaa.org
› doi › pdf
by B Harp
2025
—
To achieve the required
precision
, this project will develop an
attitude determination
system
using
an Inertial Measurement Unit. (
IMU
) paired
with
an array of ...
Read more
Robust Inertial Measurement Unit-Based Attitude ... - PMC - NIH
National Institutes of Health (NIH) | (.gov)
https://pmc.ncbi.nlm.nih.gov
› articles › PMC6412196
National Institutes of Health (NIH) | (.gov)
https://pmc.ncbi.nlm.nih.gov
› articles › PMC6412196
by JK Lee
2019
Cited by 28
—
The external acceleration of a fast-moving body induces uncertainty in attitude determination
based on inertial measurement unit (IMU
) signals ...
Read more
Inertial sensors for attitude determination in space - Blog
Satsearch
https://blog.satsearch.co
› 2025-02-05-inertial-sensors-f...
Satsearch
https://blog.satsearch.co
› 2025-02-05-inertial-sensors-f...
Feb 5, 2025
—
Inertial sensors are
used on-board satellites and spacecraft
to provide measurements of the attitude of the system with respect to inertial baselines.
Read more
19.1 Attitude Determination and Control Systems
NASA (.gov)
https://ntrs.nasa.gov
› api › citations › downloads
NASA (.gov)
https://ntrs.nasa.gov
› api › citations › downloads
PDF
by SR Starin
2011
Cited by 55
—
We
use
gyros in spacecraft for
precision attitude determination
when combined
with
external references such as star or Sun sensors, or, for brief periods ...
Read more
33 pages
High-accuracy attitude determination of Earth observation ...
Norwegian University of Science and Technology - NTNU
https://www.ntnu.edu
› smallsat › high-accuracy-attitud...
Norwegian University of Science and Technology - NTNU
https://www.ntnu.edu
› smallsat › high-accuracy-attitud...
For attitude estimation one can use several sensors to demine attitude. These can be
IMU
, magnetometer, star tracker, sun sensor, GNSS and potentially ...
Read more
Inertial Measurement Unit (IMU) – An Introduction
Advanced Navigation
https://www.advancednavigation.com
› Tech Articles
Advanced Navigation
https://www.advancednavigation.com
› Tech Articles
Feb 13, 2023
—
A guide to inertial
measurement
unit (
IMU
) sensors, capabilities, uses, and inertial sensor technologies from Advanced Navigation.
Most accurate attitude determination system in spacecraft?
Space Exploration Stack Exchange
https://space.stackexchange.com
› questions › most-acc...
Space Exploration Stack Exchange
https://space.stackexchange.com
› questions › most-acc...
Mar 18, 2021
—
Star trackers are
by
far the most
precise
. Sun sensors are used for coarse knowledge and IMUs only for estimating the
attitude
during a maneuver.
Read more