An algorithm for real-time estimation of 3-D orientation of an aircraft, given its monocular, binary image from an arbitrary viewing direction is presented. This being an inverse problem, we attempt to provide an approximate but a fast solution using the artificial neural network technique. A set of spatial moments (scale, translation, and planar rotation invariant) is used as features to characterize different views of the aircraft, which corresponds to the feature space representation of the aircraft. A new neural network topology is suggested in order to solve the resulting functional approximation problem for the input (feature vector)-output (viewing direction) relationship. The feature space is partitioned into a number of subsets usi...
Abstract. A novel approach to the computation of an approximate estimate of spatial object pose from...
The main way to determine the location of an aircraft is to use a GPS signal. However, this method w...
The aim of this thesis is to design a Virtual Sensor to estimate the aerodynamic angles of an aircra...
An algorithm for real-time estimation of 3-D orientation of an aircraft, given its monocular, binary...
The paper investigates the applicability of the convolutional neural network "U-Net" to a problem of...
This thesis is about the application of Neural Networks in the sensing of an object position relati...
The thesis is about Neural Networks as applied to Vision Systems in recognizing three dimensional ob...
Untersuchung neuronaler Aktivitäten innerhalb künstlicher neuronaler Netze, welche mittels kontinuie...
Rae R, Ritter H. Recognition of Human Head Orientation Based on Artificial Neural Networks. IEEE Tra...
This paper presents a vision system that measures the position of an aircraft relative to the runway...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
This paper addresses linear system identification for aircraft using artificial neural net-works. Th...
The human visual system is one of the most important components of the nervous system, responsible f...
International audienceIn this paper we propose a pose regression method employing a convolutional ne...
<p> With the development of computer vision and image processing technology, vision measurement has...
Abstract. A novel approach to the computation of an approximate estimate of spatial object pose from...
The main way to determine the location of an aircraft is to use a GPS signal. However, this method w...
The aim of this thesis is to design a Virtual Sensor to estimate the aerodynamic angles of an aircra...
An algorithm for real-time estimation of 3-D orientation of an aircraft, given its monocular, binary...
The paper investigates the applicability of the convolutional neural network "U-Net" to a problem of...
This thesis is about the application of Neural Networks in the sensing of an object position relati...
The thesis is about Neural Networks as applied to Vision Systems in recognizing three dimensional ob...
Untersuchung neuronaler Aktivitäten innerhalb künstlicher neuronaler Netze, welche mittels kontinuie...
Rae R, Ritter H. Recognition of Human Head Orientation Based on Artificial Neural Networks. IEEE Tra...
This paper presents a vision system that measures the position of an aircraft relative to the runway...
Tight unmanned aerial vehicle (UAV) autonomous missions such as formation flight (FF) and aerial ref...
This paper addresses linear system identification for aircraft using artificial neural net-works. Th...
The human visual system is one of the most important components of the nervous system, responsible f...
International audienceIn this paper we propose a pose regression method employing a convolutional ne...
<p> With the development of computer vision and image processing technology, vision measurement has...
Abstract. A novel approach to the computation of an approximate estimate of spatial object pose from...
The main way to determine the location of an aircraft is to use a GPS signal. However, this method w...
The aim of this thesis is to design a Virtual Sensor to estimate the aerodynamic angles of an aircra...