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optical flowDisease
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CCDDevice
In this paper, a vision system for autonomous guidance of space probes during close approach to celestial bodies is proposed. The aim is to reconstruct the motion of a spacecraft from the information gathered with a single CCD camera. A minimum requirement during close approach is to have enough information about obstacles position and dimension, time to impact and relative motion transversal to the line of sight. Classical approaches, that derive kinematical quantities by optical flow computation, are too slow and require a remarkable computational effort. In this paper a novel procedure is presented that obtain required information, about the motion of a spacecraft, with a meaningful reduction in computation time and cost
In this paper an autonomous re-targeting algorithm is presented for the terminal descent phase of th...
In this paper we introduce the Differential Image Navigation technique to perform au-tonomous proxim...
The adaptive potential of video guidance technology for earth orbital and interplanetary missions wa...
In this paper, a vision system for autonomous guidance of space probes during close approach to cele...
Space science and solar system exploration are driving NASA to develop an array of small body missio...
Spacecraft landings on small bodies (asteroids and comets) can require target accuracies too stringe...
In this paper, a suite of tools and algorithms devoted to optical navigation for autonomous landing ...
Vision Based algorithms for relative navigation represent nowadays a trending topic in the Computer ...
Autonomous, energy saving and survivable systems are crucial for space related systems in order to a...
Spacecraft landings on small bodies (asteroids and comets) can require target accuracies too stringe...
A feature tracking algorithm is described, which is designed to support optical navigation of autono...
Spacecraft flybys of small solar system bodies provide important science return in the form of image...
This paper deals with the development and the testing of an algorithm for the landing phase of a spa...
This article deals with the situation of a space debris or not working satellite in an unidentified ...
In this work, a tracker spacecraft equipped with a short-range vision system is tasked with visually...
In this paper an autonomous re-targeting algorithm is presented for the terminal descent phase of th...
In this paper we introduce the Differential Image Navigation technique to perform au-tonomous proxim...
The adaptive potential of video guidance technology for earth orbital and interplanetary missions wa...
In this paper, a vision system for autonomous guidance of space probes during close approach to cele...
Space science and solar system exploration are driving NASA to develop an array of small body missio...
Spacecraft landings on small bodies (asteroids and comets) can require target accuracies too stringe...
In this paper, a suite of tools and algorithms devoted to optical navigation for autonomous landing ...
Vision Based algorithms for relative navigation represent nowadays a trending topic in the Computer ...
Autonomous, energy saving and survivable systems are crucial for space related systems in order to a...
Spacecraft landings on small bodies (asteroids and comets) can require target accuracies too stringe...
A feature tracking algorithm is described, which is designed to support optical navigation of autono...
Spacecraft flybys of small solar system bodies provide important science return in the form of image...
This paper deals with the development and the testing of an algorithm for the landing phase of a spa...
This article deals with the situation of a space debris or not working satellite in an unidentified ...
In this work, a tracker spacecraft equipped with a short-range vision system is tasked with visually...
In this paper an autonomous re-targeting algorithm is presented for the terminal descent phase of th...
In this paper we introduce the Differential Image Navigation technique to perform au-tonomous proxim...
The adaptive potential of video guidance technology for earth orbital and interplanetary missions wa...
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