HYPSO-1 CubeSat: First Images and In-Orbit Characterization

Bakken, Sivert; Henriksen, Marie Boe; Birkeland, Roger; Langer, Dennis D.; Oudijk, Adriënne E.; Berg, Simen; Pursley, Yeshi; Garrett, Joseph L.; Gran-Jansen, Fredrik; Honoré‐Livermore, Evelyn; Grøtte, Mariusz Eivind; Kristiansen, Bjørn Andreas; Orlandić, Milica; Gader, Paul D.; Sørensen, Asgeir J.; Sigernes, F.; Johnsen, Geir; Johansen, Tor Arne

doi:10.3390/rs15030755

Cited by 25 publications

(16 citation statements)

References 42 publications

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“…The Satellite has a nominal Spatial Swath Width of 40 km. The HYPSO mission aims to provide quick and agile oceanographic observations to support marine research [4].…”

Section: Motivationmentioning

confidence: 99%

Sharjah-Sat-2: a low-cost high-resolution earth observation microsatellite

Faroukh

AlKaabi

Alansaari

et al. 2023

Algorithms, Technologies, and Applications for Multispectral and Hyperspectral Imaging XXIX

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Sharjah-Sat-2 is a 6U Earth Observation (EO) CubeSat currently being developed by the Sharjah Academy for Astronomy, Space Sciences, and Technology (SAASST) and The University of Sharjah (UoS). The 6U CubeSat design is currently being Designed and Integrated with two payloads on board: (1) a High-Resolution Hyperspectral Imager with less than 5 Meters of Ground Sampling distance (GSD) and ( 2) an experiential payload consisting of a GNSS receiver. The mission's primary scientific objective is to capture High-Resolution Hyperspectral images of the United Arab Emirates to provide a constant stream of reliable data that will be utilized to improve the country's infrastructure and resource management. The secondary mission objective is to monitor and validate the integrity of GNSS signals. This paper will provide insight into the preliminary mission design of the Sharjah-Sat-2 Microsatellite, highlighting the mission's payload, orbit determination, and coverage study.

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“…The Satellite has a nominal Spatial Swath Width of 40 km. The HYPSO mission aims to provide quick and agile oceanographic observations to support marine research [4].…”

Section: Motivationmentioning

confidence: 99%

Sharjah-Sat-2: a low-cost high-resolution earth observation microsatellite

Faroukh

AlKaabi

Alansaari

et al. 2023

Algorithms, Technologies, and Applications for Multispectral and Hyperspectral Imaging XXIX

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“…This shows that imaging spectrometers built from inexpensive COTS components gain popularity in many fields. It was therefore only a question of time until COTS-based imaging spectrometers were used on Unmanned Aerial Vehicles (UAVs) for a remote sensing purposes as suggested in [10], [11], [12] or universitybuilt small satellites as shown in [13], [14]. The advancements in this field have led to various commercialization initiatives, as demonstrated by projects like [15].…”

Section: Introductionmentioning

confidence: 99%

Lightweight Uav Payload for Imaging Spectroscopy and Atmospheric Irradiance Measurements

Hasler,

Langer,

Winter

et al. 2024

Preprint

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“…This definition has the added benefit of not being limited to spatial imagery, but may be applied to any type of optical imagery. The AEM and its predecessor have been used to analyse aerial imagery [11] and for general-purpose high-resolution image data [12].…”

Section: Introductionmentioning

confidence: 99%

Analysing the Relationship between Spatial Resolution, Sharpness and Signal-to-Noise Ratio of Very High Resolution Satellite Imagery Using an Automatic Edge Method

Pampanoni,

Fascetti,

Cenci

et al. 2024

Remote Sensing

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Assessing the performance of optical imaging systems is crucial to evaluate their capability to satisfy the product requirements for an Earth Observation (EO) mission. In particular, the evaluation of image quality is undoubtedly one of the most important, critical and problematic aspects of remote sensing. It involves not only pre-flight analyses, but also continuous monitoring throughout the operational lifetime of the observing system. The Ground Sampling Distance (GSD) of the imaging system is often the only parameter used to quantify its spatial resolution, i.e., its capability to resolve objects on the ground. In practice, this feature is also heavily influenced by other image quality parameters such as the image sharpness and Signal-to-Noise Ratio (SNR). However, these last two aspects are often analysed separately, using unrelated methodologies, complicating the image quality assessment and posing standardisation issues. To this end, we expanded the features of our Automatic Edge Method (AEM), which was originally developed to simplify and automate the estimate of sharpness metrics, to also extract the image SNR. In this paper we applied the AEM to a wide range of optical satellite images characterised by different GSD and Pixel Size (PS) with the objective to explore the nature of the relationship between the components of overall image quality (image sharpness, SNR) and product geometric resampling (expressed in terms of GSD/PS ratio). Our main objective is to quantify how the sharpness and the radiometric quality of an image product are affected by different product geometric resampling strategies, i.e., by distributing imagery with a PS larger or smaller than the GSD of the imaging system. The AEM allowed us to explore this relationship by relying on a vast amount of data points, which provide a robust statistical significance to the results expressed in terms of sharpness metrics and SNR means. The results indicate the existence of a direct relationship between the product geometric resampling and the overall image quality, and also highlight a good degree of correlation between the image sharpness and SNR.

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HYPSO-1 CubeSat: First Images and In-Orbit Characterization

Cited by 25 publications

References 42 publications

Sharjah-Sat-2: a low-cost high-resolution earth observation microsatellite

Sharjah-Sat-2: a low-cost high-resolution earth observation microsatellite

Lightweight Uav Payload for Imaging Spectroscopy and Atmospheric Irradiance Measurements

Analysing the Relationship between Spatial Resolution, Sharpness and Signal-to-Noise Ratio of Very High Resolution Satellite Imagery Using an Automatic Edge Method

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