In this paper, the Relative Pose based Redundancy Removal (RPRR) scheme is presented, which has been designed for mobile RGB-D sensor networks operating under bandwidth-constrained operational scenarios. The scheme considers a multiview scenario in which pairs of sensors observe the same scene from different viewpoints, and detect the redundant visual and depth information to prevent their transmission leading to a significant improvement in wireless channel usage efficiency and power savings. We envisage applications in which the environment is static, and rapid 3D mapping of an enclosed area of interest is required, such as disaster recovery and support operations after earthquakes or industrial accidents. Experimental results show that w...
Also has ISBN 9781613501542This chapter focuses on the energy efficiency and reliability issues when...
The recent advances in camera sensors and development of new distributed processing algorithms have ...
This paper presents a fast and robust multiple object tracking algorithm based on an RGB-D version o...
In this paper, the Relative Pose based Redundancy Removal (RPRR) scheme is presented, which has been...
International audienceWe present a scheme for multi-sensor data fusion applications, called Relative...
Low cost RGB-D cameras (or sensors) have significant potential for enhancing the performance of visu...
Wireless sensor networks are under active research for tracking systems, where camera nodes are inst...
This work addresses the problem of enabling resource-constrained sensor nodes to perform visual anal...
In a tracking system, an object of interest is monitored continuously in a sensor network. Informati...
Abstract — Life time of wireless sensor networks is limited due to battery constraint. In camera equ...
Cameras have become ubiquitous in our society. Not only are they built into things of everyday life ...
While providing a variety of intriguing application op-portunities, a vision sensor network poses th...
Using image stitching technology to find out overlap areas in the camera node capture image, inform ...
Visual and wireless sensing, two popular sensing modalities in multi-modal systems, have complementa...
We consider the self-calibration problem (estimation of location and orientation of multiple camera ...
Also has ISBN 9781613501542This chapter focuses on the energy efficiency and reliability issues when...
The recent advances in camera sensors and development of new distributed processing algorithms have ...
This paper presents a fast and robust multiple object tracking algorithm based on an RGB-D version o...
In this paper, the Relative Pose based Redundancy Removal (RPRR) scheme is presented, which has been...
International audienceWe present a scheme for multi-sensor data fusion applications, called Relative...
Low cost RGB-D cameras (or sensors) have significant potential for enhancing the performance of visu...
Wireless sensor networks are under active research for tracking systems, where camera nodes are inst...
This work addresses the problem of enabling resource-constrained sensor nodes to perform visual anal...
In a tracking system, an object of interest is monitored continuously in a sensor network. Informati...
Abstract — Life time of wireless sensor networks is limited due to battery constraint. In camera equ...
Cameras have become ubiquitous in our society. Not only are they built into things of everyday life ...
While providing a variety of intriguing application op-portunities, a vision sensor network poses th...
Using image stitching technology to find out overlap areas in the camera node capture image, inform ...
Visual and wireless sensing, two popular sensing modalities in multi-modal systems, have complementa...
We consider the self-calibration problem (estimation of location and orientation of multiple camera ...
Also has ISBN 9781613501542This chapter focuses on the energy efficiency and reliability issues when...
The recent advances in camera sensors and development of new distributed processing algorithms have ...
This paper presents a fast and robust multiple object tracking algorithm based on an RGB-D version o...