EKOSAT/DIAMANT - The Earth Observation Programme at OHB- System
Abstract
This paper covers the EKOSAT / DIAMANT programme heading for superspectral geo-information products. The EKOSAT / DIAMANT programme is based on a commercial strategy just before the realization of the first step - the EKOSAT launch in 2004. Further, we give an overview on OHB-System earth observation prime activities especially for infrared and radar. The EKOSAT/ DIAMANT is based on the MSRS sensor featuring 12 user dedicated spectral bands in the VIS/NIR with 5m spatial resolution and 26 km swath at an orbit of 670 km. The operational demonstrator mission EKOSAT is a Korean-Israelean-German-Russian initiative that aims in utilizing the existing proto-flight model of the KOMPSAT-1 spacecraft for the MSRS sensor, which development is finished. The EKOSAT pointing capability will allow a revisit time of 3 days. DIAMANT stands for the future full operational system based on dedicated small satellites. The basic constellation relying on 2-3 satellites with about one day revisit is extendend on market demand. EKOSAT/ DIAMANT is designed to fill the gap between modern high spatial resolution multispectral (MS) systems and hyperspectral systems with moderate spatial resolution. On European level, there is currently no remote sensing system operational with comparable features and capabilities concerning applications especially in the field of environmental issues, vegetation, agriculture and water bodies. The Space Segment has been designed to satisfy the user requirements based on a balance between commercial aspects and scientific approaches. For example eight spectral bands have been identified to cover almost the entire product range for the current market. Additional four bands have been implemented to be prepared for future applications as for example the improved red edge detection, which give better results regarding environmental conditions. The spacecraft design and its subsystems are still reasonable small in order to keep the mass below 200 kg. This is an important cost saving approach that surely offers higher viability of the system. The Intelligent Infrared Sensor System - FOCUS - aims at the reliable autonomous on-board detection of High Temperature Events (HTE) on Earth surface. The key to this task is the simultaneous co-registration of a combination of infrared (IR) and visible (VIS) channels. Furthermore there are ecology-oriented objectives mainly related to the sophisticated data fusion of spectrometric &imaging remote inspection and parameter extraction of selected HTEs, and to the assessment of ecological consequences of HTEs, such as aerosol and gas emission. The FOCUS Multi Sensor consists of two sensor systems: The Fore Field Sensor (FFS) will perform the wide-angle hot spot detection and mapping. For the on-board detected and selected hot spots, the Main Sensor (MS) will be targeted with a tiltable mirror and deliver detailed spatial high resolution observation. The MS is composed of an imaging system and a Fourier Spectrometer. The SAR-Lupe satellite system - under development by OHB-System - will generate high resolution SAR- (Synthetic Aperture Radar) images for military reconnaissance purposes. SAR-Lupe relies on a constellation of small satellites in low earth orbit, 1 control and 1 user ground segment.
- Publication:
-
IAF abstracts, 34th COSPAR Scientific Assembly
- Pub Date:
- 2002
- Bibcode:
- 2002iaf..confE..81P