Design of robust sensor suite by fusing 3D LiDAR, RGB camera, thermal camera and IMU
Nowadays, more and more robots are mounted with multiple heterogeneous sensors to ensure robust perception in all weathers. Each sensor has advantages and disadvantages. For example, LiDAR can perceive the depth information of the environment, whereas RGB camera can perceive the color information...
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| 格式: | Thesis-Master by Coursework |
| 語言: | English |
| 出版: |
Nanyang Technological University
2022
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| 主題: | |
| 在線閱讀: | https://hdl.handle.net/10356/156986 |
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| 總結: | Nowadays, more and more robots are mounted with multiple heterogeneous
sensors to ensure robust perception in all weathers. Each sensor has advantages and
disadvantages. For example, LiDAR can perceive the depth information of the
environment, whereas RGB camera can perceive the color information. Likewise, the
RGB camera cannot work in darkness, whereas the Thermal camera can work even in
darkness. Similarly, IMU operates at a higher frequency while other sensors operate at
a lower frequency. Hence, by combining the multiple sensors perception can be
improved. However, currently, the sensors are mounted independently one by one, and
the calibration between the sensors is laborious and time-consuming. It is expected to
make an all-in-one and compact sensor suite, which already includes accurate intrinsic
and extrinsic calibration parameters. Such an all-in-one sensor suite can save time for
related applications.
This dissertation is focused on designing such a sensor suite. It mainly consists of three
parts:
1) Sensor suite design. A compact sensor suite is designed and fabricated. It consists
of a 3D LiDAR, an RGB camera, a thermal camera, and an IMU. Two versions are
designed. Autodesk Fusion360 is used to design the hardware. 3D printing is utilized
to fabricate the hardware.
2) Intrinsic and extrinsic calibration of and between the four sensors. Intrinsic
calibration is performed for RGB camera, Thermal camera, and IMU. Extrinsic
calibration is performed for 3D LiDAR-RGB camera, RGB-Thermal camera, 3D
LiDAR-Thermal camera, IMU–RGB camera. Both quantitative and qualitative
analyses are performed to analyze the calibration error in the experiments.
3) One application of the sensor suite – color 3D mapping. With the sensor suite and
calibration parameters, a color 3D map is constructed by fusing multi-source
information from the sensors. Experiments demonstrate the effectiveness of color 3D
mapping. |
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