UAV Pre-Study for In-Air-Capturing Maneuver

Abstract: Implementation of reusable launch vehicle (RLV) missions is a major goal in current aerospace research. One conceptual idea to return a booster stage is the so-called "in-air capturing" (IAC), where a winged stage is captured by an aerial vehicle and towed back to the final destination. This approach has the advantage that a towed winged stage does not need a propulsion system or fuel reserves to arrive to a destination point, compared to alternative approaches as demonstrated by SpaceX. The concept of capturi… Show more

“…Computer vision systems typically use a generic, visible-wavelength camera, and rely on extensive image processing technologies to extract relevant data, such as relative position and attitude of a given target object. The cameras used can be grayscale [8] or color-sensitive [9], and can be mounted individually [10] or in pairs [11]. In some applications, the target body is left entirely unaltered and passive, purely relying on image processing algorithms, such as corner detection [12] and arc extraction [13].…”

“…Additionally, the inherent reliance on visible-wavelength data creates a crucial sensitivity to environmental parameters, with most systems not being robust in low-light or low-visibility conditions [16]. One solution to this problem consists of shifting the relevant wavelength spectrum upwards, and using an infrared camera [19]. However, these solutions still require significant post-processing efforts.…”

Relative Navigation for the ‘In-Air Capturing’ of a Winged Reusable Launch Vehicle

“…Computer vision systems typically use a generic, visible-wavelength camera, and rely on extensive image processing technologies to extract relevant data, such as relative position and attitude of a given target object. The cameras used can be grayscale [8] or color-sensitive [9], and can be mounted individually [10] or in pairs [11]. In some applications, the target body is left entirely unaltered and passive, purely relying on image processing algorithms, such as corner detection [12] and arc extraction [13].…”

“…Additionally, the inherent reliance on visible-wavelength data creates a crucial sensitivity to environmental parameters, with most systems not being robust in low-light or low-visibility conditions [16]. One solution to this problem consists of shifting the relevant wavelength spectrum upwards, and using an infrared camera [19]. However, these solutions still require significant post-processing efforts.…”

Relative Navigation for the ‘In-Air Capturing’ of a Winged Reusable Launch Vehicle

Overview of a planned subscale in-air capturing demonstration