Multi-camera systems are widely used in the fields of airborne remote sensing and unmanned aerial vehicle imaging. The measurement precision of these systems depends on the accuracy of the extrinsic parameters. Therefore, it is important to accurately calibrate the extrinsic parameters between the onboard cameras. Unlike conventional multi-camera calibration methods with a common field of view (FOV), multi-camera calibration without overlapping FOVs has certain difficulties. In this paper, we propose a calibration method for a multi-camera system without common FOVs, which is used on aero photogrammetry. First, the extrinsic parameters of any two cameras in a multi-camera system is calibrated, and the extrinsic matrix is optimized by the re...
Unmanned Aerial Vehicle (UAV) with adequate sensors enable new applications in the scope between exp...
Accuracy is a key factor in high-resolution remote sensing and photogrammetry.The factors that affec...
This paper adresses the issue of calibrating multiple cameras on a mobile platform. Due to decreasin...
Multi-camera systems are widely used in the fields of airborne remote sensing and unmanned aerial ve...
Abstract Multi-camera vision systems are often needed to achieve large-scale and high-precision meas...
The use of multiple cameras in vehicles becomes more and more attractive as hardware prices decrease...
International audienceThe extrinsic calibration refers to determining the relative pose of cameras. ...
Cameras are getting smaller and cheaper. So a cost-effective usage of multi-camera systems in vehicl...
Multi-camera vision systems (MVS) have a larger field of view than a single camera and are often app...
The calibration of the relative pose between rigidly connected cameras with non-overlapping fields o...
An increasing number of robots and autonomous vehicles are equipped with multiple cameras to achieve...
In order to estimate extrinsic parameters for multiple cameras, we use chessboard patterns. However,...
Numerous unmanned aerial systems (UAS) are currently flooding the market. For the most diverse appli...
Unmanned Aerial Vehicle (UAV) with adequate sensors enable new applications in the scope between exp...
Accuracy is a key factor in high-resolution remote sensing and photogrammetry.The factors that affec...
This paper adresses the issue of calibrating multiple cameras on a mobile platform. Due to decreasin...
Multi-camera systems are widely used in the fields of airborne remote sensing and unmanned aerial ve...
Abstract Multi-camera vision systems are often needed to achieve large-scale and high-precision meas...
The use of multiple cameras in vehicles becomes more and more attractive as hardware prices decrease...
International audienceThe extrinsic calibration refers to determining the relative pose of cameras. ...
Cameras are getting smaller and cheaper. So a cost-effective usage of multi-camera systems in vehicl...
Multi-camera vision systems (MVS) have a larger field of view than a single camera and are often app...
The calibration of the relative pose between rigidly connected cameras with non-overlapping fields o...
An increasing number of robots and autonomous vehicles are equipped with multiple cameras to achieve...
In order to estimate extrinsic parameters for multiple cameras, we use chessboard patterns. However,...
Numerous unmanned aerial systems (UAS) are currently flooding the market. For the most diverse appli...
Unmanned Aerial Vehicle (UAV) with adequate sensors enable new applications in the scope between exp...
Accuracy is a key factor in high-resolution remote sensing and photogrammetry.The factors that affec...
This paper adresses the issue of calibrating multiple cameras on a mobile platform. Due to decreasin...