Studying the solar system and especially the Sun relies on the data gathered daily from space missions. These missions are data-intensive and compressing this data to make them efficiently transferable to the ground station is a twofold decision to make. Stronger compression methods, by distorting the data, can increase data throughput at the cost of accuracy which could affect scientific analysis of the data. On the other hand, preserving subtle details in the compressed data requires a high amount of data to be transferred, reducing the desired gains from compression. In this work, we propose a neural network-based lossy compression method to be used in NASA's data-intensive imagery missions. We chose NASA's SDO mission which transmits 1....
Computing at the edge offers intriguing possibilities for the development of autonomy and artificial...
The volume of data being collected in solar physics has exponentially increased over the past decade...
With the cost of launch plummeting, it is now easier than ever to get a satellite to orbit. This has...
International audienceWe describe an end-to-end trainable neural network for satellite image compres...
Abstract The Solar Dynamics Observatory (SDO), a NASA multispectral decade-long mission tha...
For space applications, communications bandwidth is often contested and limited. Limited communicati...
We have classified four different images, under various levels of JPEG compression, using the follow...
Context. Solar activity plays a quintessential role in affecting the interplanetary medium and space...
The growing amount of data collected by Earth Observation (EO) satellites requires new processing pr...
This paper describes the lossless and lossy image compression algorithms to be used on board the Sol...
Earth observation through satellite images is crucial to help economic activities as well as to mon...
The problem of storing, transmitting, and manipulating digital images is considered. Because of the ...
Efficient compression techniques are required to deploy deep neural networks (DNNs) on edge devices ...
Lossy compression has become an important technique to reduce data size in many domains. This type o...
Extreme UV (EUV) radiation from the Sun's transition region and corona is an important driver for th...
Computing at the edge offers intriguing possibilities for the development of autonomy and artificial...
The volume of data being collected in solar physics has exponentially increased over the past decade...
With the cost of launch plummeting, it is now easier than ever to get a satellite to orbit. This has...
International audienceWe describe an end-to-end trainable neural network for satellite image compres...
Abstract The Solar Dynamics Observatory (SDO), a NASA multispectral decade-long mission tha...
For space applications, communications bandwidth is often contested and limited. Limited communicati...
We have classified four different images, under various levels of JPEG compression, using the follow...
Context. Solar activity plays a quintessential role in affecting the interplanetary medium and space...
The growing amount of data collected by Earth Observation (EO) satellites requires new processing pr...
This paper describes the lossless and lossy image compression algorithms to be used on board the Sol...
Earth observation through satellite images is crucial to help economic activities as well as to mon...
The problem of storing, transmitting, and manipulating digital images is considered. Because of the ...
Efficient compression techniques are required to deploy deep neural networks (DNNs) on edge devices ...
Lossy compression has become an important technique to reduce data size in many domains. This type o...
Extreme UV (EUV) radiation from the Sun's transition region and corona is an important driver for th...
Computing at the edge offers intriguing possibilities for the development of autonomy and artificial...
The volume of data being collected in solar physics has exponentially increased over the past decade...
With the cost of launch plummeting, it is now easier than ever to get a satellite to orbit. This has...