Abstract — We provide a novel hardware and software system for micro air vehicles (MAV) that allows high-speed, low-latency onboard image processing. It uses up to four cameras in parallel on a miniature rotary wing platform. The MAV navigates based on onboard processed computer vision in GPS-denied in- and outdoor environments. It can process in parallel images and inertial measurement information from multiple cameras for multiple purposes (localization, pattern recognition, obstacle avoidance) by distributing the images on a central, low-latency image hub. Furthermore the system can utilize low-bandwith radio links for communication and is designed and optimized to scale to swarm use. Experimental results show successful flight with a ra...
Abstract—This paper describes the development of an Un-manned Aerial Vehicle (UAV) with the aid of a...
To develop a guidance and navigation of a Micro Aerial Vehicle (MAV) system, a high performance auto...
In this paper, we propose a novel inertial-assisted visual odometry system intended for low-cost mic...
Abstract We describe a novel quadrotor micro air vehicle (MAV) system that is designed to use comput...
We describe a novel quadrotor Micro Air Vehicle (MAV) system that is designed to use computer vision...
This chapter discusses recent advances in the use of computer vision for the control of micro aerial...
Abstract — We present a novel stereo-based obstacle avoid-ance system on a vision-guided micro air v...
Autonomous microhelicopters will soon play a major role in tasks like search and rescue, environment...
Autonomous microhelicopters will soon play a major role in tasks like search and rescue, environment...
Results are described of an ongoing project whose goal is to provide advanced Computer Vision for sm...
Micro air vehicles have become very popular in recent years. Autonomous navigation of such systems p...
Abstract — High speed, low latency obstacle avoidance is essential for enabling Micro Aerial Vehicle...
Unmanned aerial vehicles (UAV) and micro air vehicles (MAV) are already intensively used in geodetic...
This article is focused on the real-time detection and recognition of the objects by using acamera l...
Cameras are a natural fit for micro aerial vehicles (MAVs) due to their low weight, low power consum...
Abstract—This paper describes the development of an Un-manned Aerial Vehicle (UAV) with the aid of a...
To develop a guidance and navigation of a Micro Aerial Vehicle (MAV) system, a high performance auto...
In this paper, we propose a novel inertial-assisted visual odometry system intended for low-cost mic...
Abstract We describe a novel quadrotor micro air vehicle (MAV) system that is designed to use comput...
We describe a novel quadrotor Micro Air Vehicle (MAV) system that is designed to use computer vision...
This chapter discusses recent advances in the use of computer vision for the control of micro aerial...
Abstract — We present a novel stereo-based obstacle avoid-ance system on a vision-guided micro air v...
Autonomous microhelicopters will soon play a major role in tasks like search and rescue, environment...
Autonomous microhelicopters will soon play a major role in tasks like search and rescue, environment...
Results are described of an ongoing project whose goal is to provide advanced Computer Vision for sm...
Micro air vehicles have become very popular in recent years. Autonomous navigation of such systems p...
Abstract — High speed, low latency obstacle avoidance is essential for enabling Micro Aerial Vehicle...
Unmanned aerial vehicles (UAV) and micro air vehicles (MAV) are already intensively used in geodetic...
This article is focused on the real-time detection and recognition of the objects by using acamera l...
Cameras are a natural fit for micro aerial vehicles (MAVs) due to their low weight, low power consum...
Abstract—This paper describes the development of an Un-manned Aerial Vehicle (UAV) with the aid of a...
To develop a guidance and navigation of a Micro Aerial Vehicle (MAV) system, a high performance auto...
In this paper, we propose a novel inertial-assisted visual odometry system intended for low-cost mic...