ESA PADRE Analysis Results

Summary - At Risk / RWFW

Test case: Example SAMj Controlled Component-Centric Vehicle Re-entry

Demonstration of the PADRE spacecraft assessment mode. This analysis simulated the destructive re-entry of a 1000kg component-centric vehicle, modelled as a relatively simple structore comprising approximately 40 components. Re-entry is predicted from a circular sun-synchronous orbit of 130km altitude using SAMj. Uncertainties in the initial state vector, atmosphere density, material properties, drag and heating coefficients are considered. A standard Monte-Carlo of between 1000 simulations has been executed.

Status

Analysis started: 2025-08-05 12:18:50
Last updated: 2025-08-05 16:29:41
Elapsed time: 15050 secs
Simulation count: 1000
Batch count: 4
Analysis complete: True

Detailed Results for Component: RWFW, Data Set: At Risk

Overview

Number of samples surviving to ground impact: 845 (84% of simulations)
95% confidence limit of surviving to ground: 0.03
Number of samples impacting as an atomic object: 845 (100% of impacts)
Number of samples impacting as a compound object: 0 (0% of impacts)
Number of samples impacting as a contained child object: 0 (0% of impacts)

The following distributions include results for all components that impact the ground, including those that are atomic components, part of a compound fragment or are unreleased and contained within another component

Impact Location

Gaussian Fit	Beta Fit
Mean: -11 (+/- 1.1 / 1.1) Standard deviation: 17 (+/- 0.84 / 0.77)	Location: -2.5e+07 Scale: 2.5e+07 Beta A: 3.3e+06 Beta B: 4.4

PDF/CDF data (download)
Centile data (download)

Gaussian Fit	Beta Fit
Mean: 18 (+/- 0.78 / 0.78) Standard deviation: 11 (+/- 0.58 / 0.52)	Location: -1.5e+09 Scale: 1.5e+09 Beta A: 4.8e+08 Beta B: 2.5

PDF/CDF data (download)
Centile data (download)

Not enough data for latitude / longitude plot

ESA PADRE 2025