This portal addresses the user community of ESA's Space Debris Software. It serves as entry gate for software license applications and for the retrieval of the software. Registered users may retrieve updated data and software patches and may raise support requests.


The following ESA Space Debris Tools can be requested:



MASTER (Meteoroid and Space Debris Terrestrial Environment Reference) allows to assess the debris or meteoroid flux imparted on a spacecraft on an arbitrary earth orbit.  MASTER also provides the necessary computational and data reference for DRAMA and needs to be installed before DRAMA is installed.




DRAMA logo

DRAMA (Debris Risk Assessment and Mitigation Analysis) is a comprehensive tool for the compliance analysis of a space mission with space debris mitigation standards. For a given space mission, DRAMA allows analysis of:

  • Debris and meteoroid impact flux levels (at user-defined size regimes)
  • Collision avoidance manoeuvre frequencies for a given spacecraft and a project-specific accepted risk level
  • Re-orbit and de-orbit fuel requirements for a given initial orbit and disposal scenario
  • Geometric cross-section computations
  • Re-entry survival predictions for a given object of user-defined components
  • The associated risk on ground for at the resulting impact ground swath

Please beware that the installation of MASTER is a necessary pre-condition for the successful operation of the DRAMA suite. MASTER provides the necessary computational and data reference for DRAMA and needs to be installed before DRAMA is installed.



DISCOSweb logo

DISCOS (Database and Information System Characterising Objects in Space) serves as a single-source reference for launch information, object registration details, launch vehicle descriptions, spacecraft information (e.g. size, mass, shape, mission objectives, owner), as well as orbital data histories for all trackable, unclassified objects which sum up to more than 40000 objects. Today, DISCOS not only plays an essential role in the various daily activities at the ESA's Space Debris Office, and it is the basis for operational processes in collision avoidance, re-entry analyses, and for contingency support. DISCOS also provids input to numerous and very differently scoped engineering activities, within ESA and throughout academia and industry. DISCOS-based routine activities also comprise the maintenance of a Re-entry Events Database to support internationally coordinated re-entry prediction campaigns of risk objects. Users with a  demonstrated need-to-know can apply for an account for on-line use (specified quotas apply) of DISCOS through a dedicated web-interface, if they belong to a research institute, to a government organisation, or to an industrial company of an ESA Member State (e.g., not as an individual).



DISCOSweb logo

Oriundo (On-ground RIsk estimation for UNcontrolleD re-entries tOol) is a model maintained by the ESA Space Debris Office. As the name suggests, it is targeted at estimating the on-ground risk of uncontrolled re-entries. The core comprises a population density prediction model based on the the Gridded Population of the World scaled with the UN World Population Prospect. The variable input and functionallity makes it a very agile tool.