novel approach to depth map calibration by fusing localization data from wireless sensor networks with depth maps obtained through stereopsis is presented. In experiments, “smart ” MICA2 wireless sensors from Crossbow Inc., and a Canon PowerShot SD100 digital camera are used. Sensor locations are determined via an acoustic time-of-flight ranging technique, and the uncalibrated depth map is computed using a binocular stereopsis technique. The fusion is performed (a) by fitting a 3-D surface to a set of apriori known co-planar sensor locations, and (b) by computing the depth map calibration model parameters through minimizing the squared distance between the sensor-defined plane and the corresponding depth map measurements. Algorithms for ste...
Abstract—Low-cost range sensors represent an interesting class of sensors which are increasingly use...
Abstract. In this paper, we examine and present the development of a depth map acquisition system wi...
A precise GNSS (Global Navigation Satellite System) localization is vital for autonomous road vehicl...
International audienceAbstract—Wireless Multimedia Sensor Network (WMSN) is a promising technology c...
Abstract—This paper describes the computation of depth maps for a high-quality reference camera augm...
An important recent development in the visual information acquisition field is the emergence of low ...
This paper describes a novel method to localize the position and the orientation of smart cameras in...
International audienceThe combination of range sensors with color cameras can be very useful for rob...
Real-time mapping and navigation is a challenging task for robotics, which has been significantly mi...
Abstract—The combination of range sensors with color cameras can be very useful for robot navigation...
In this report, we deal with the optimization of the transformation estimate between the coordinate ...
Depth estimation is a necessary task to understand and navigate the environment around us. Over the ...
In the past few years, a growing interest in mobile robot’s applications produce a persistent need t...
Low-cost range sensors represent an interesting class of sensors which are increasingly used for loc...
Stereo-based 3D distributed smart camera networks are useful in a broad range of applications. Knowl...
Abstract—Low-cost range sensors represent an interesting class of sensors which are increasingly use...
Abstract. In this paper, we examine and present the development of a depth map acquisition system wi...
A precise GNSS (Global Navigation Satellite System) localization is vital for autonomous road vehicl...
International audienceAbstract—Wireless Multimedia Sensor Network (WMSN) is a promising technology c...
Abstract—This paper describes the computation of depth maps for a high-quality reference camera augm...
An important recent development in the visual information acquisition field is the emergence of low ...
This paper describes a novel method to localize the position and the orientation of smart cameras in...
International audienceThe combination of range sensors with color cameras can be very useful for rob...
Real-time mapping and navigation is a challenging task for robotics, which has been significantly mi...
Abstract—The combination of range sensors with color cameras can be very useful for robot navigation...
In this report, we deal with the optimization of the transformation estimate between the coordinate ...
Depth estimation is a necessary task to understand and navigate the environment around us. Over the ...
In the past few years, a growing interest in mobile robot’s applications produce a persistent need t...
Low-cost range sensors represent an interesting class of sensors which are increasingly used for loc...
Stereo-based 3D distributed smart camera networks are useful in a broad range of applications. Knowl...
Abstract—Low-cost range sensors represent an interesting class of sensors which are increasingly use...
Abstract. In this paper, we examine and present the development of a depth map acquisition system wi...
A precise GNSS (Global Navigation Satellite System) localization is vital for autonomous road vehicl...