ISO 27875:2019/Amd 1:2020
(Amendment)Space systems - Re-entry risk management for unmanned spacecraft and launch vehicle orbital stages - Amendment 1: Formula to obtain Ec by the product of the probability of impact on a specific latitude band, and the population within the band, which is integrated over the latitude range covered by the orbital inclination
Space systems - Re-entry risk management for unmanned spacecraft and launch vehicle orbital stages - Amendment 1: Formula to obtain Ec by the product of the probability of impact on a specific latitude band, and the population within the band, which is integrated over the latitude range covered by the orbital inclination
Systèmes spatiaux — Gestion du risque de la rentrée pour les étapes orbitales des véhicules spatiaux non habités et des lanceurs spatiaux — Amendement 1: Formule pour calculer les pertes humaines attendues (Ec) via le produit de la probabilité d'impact sur une bande de latitude spécifique et de la population de cette bande, qui est intégrée dans la plage de latitude couverte par l'inclinaison orbitale
General Information
- Status
- Published
- Publication Date
- 07-Sep-2020
- Technical Committee
- ISO/TC 20/SC 14 - Space systems and operations
- Drafting Committee
- ISO/TC 20/SC 14/WG 3 - Operations and support systems
- Current Stage
- 6060 - International Standard published
- Start Date
- 08-Sep-2020
- Due Date
- 06-Sep-2021
- Completion Date
- 08-Sep-2020
Relations
- Effective Date
- 31-Jul-2021
Overview
ISO 27875:2019/Amd 1:2020 is an important amendment to the international standard governing re-entry risk management for unmanned spacecraft and launch vehicle orbital stages. Developed by ISO Technical Committee ISO/TC 20, Subcommittee SC 14, this amendment introduces a refined formula for calculating the casualty expectation (Ec) during spacecraft re-entry events. The method integrates the probability of impact on specific latitude bands with the population density within those bands, considering the orbital inclination’s latitude range. This precise approach enhances safety assessments and risk mitigation for space missions.
Key Topics
Re-entry Risk Management
Focuses on evaluating and minimizing potential risks when unmanned spacecraft and orbital vehicle stages re-enter Earth's atmosphere.Casualty Expectation Formula (Ec)
Ec is calculated as the product of:- The probability of impact on discrete latitude bands (Pi)
- The population within those latitude bands (Ni)
The summation integrates this product over the range of latitudes defined by the spacecraft’s orbital inclination.
Latitude-based Probability Integration
The amendment replaces previous approximations with a more exact calculation by dividing Earth's surface into latitude bands, allowing for a nuanced risk evaluation.Population Exposure Assessment
Incorporates the spatial distribution of human populations across latitude bands to assess potential casualty impact more realistically.Orbital Inclination Consideration
Recognizes how different orbital paths affect the latitude bands over which risk calculations must be integrated.
Applications
Space Mission Safety Analysis
Enables aerospace engineers and mission planners to better predict casualty risks from uncontrolled re-entries by factoring in geographic and demographic variations.Launch Vehicle and Spacecraft Design
Supports designers in incorporating safety margins related to possible debris fallout zones, aiding compliance with international safety standards.Regulatory Compliance and Risk Reporting
Facilitates adherence to international regulations on space debris mitigation and re-entry risk disclosure by providing a standardized risk evaluation method.Disaster Preparedness and Emergency Response Planning
Improves authorities’ ability to anticipate and mitigate the humanitarian impact of spacecraft debris re-entry incidents on affected populations.
Related Standards
- ISO 27874 - Space systems - Debris mitigation planning for spacecraft
- UL 4600 - Safety analysis of autonomous and unmanned space systems
- NASA-STD-8719 - NASA safety requirements for flight operations and re-entry risk management
- ISO 24113 - Space debris mitigation requirements
These related standards complement ISO 27875 by addressing broader aspects of space system safety, debris mitigation, and operational risk management.
By adopting ISO 27875:2019/Amd 1:2020, aerospace organizations gain a scientifically rigorous framework to quantify and manage re-entry risks geographically and demographically. This helps reduce hazards from unmanned re-entries, promoting safer space operations worldwide.
ISO 27875:2019/Amd 1:2020 - Space systems — Re-entry risk management for unmanned spacecraft and launch vehicle orbital stages — Amendment 1: Formula to obtain Ec by the product of the probability of impact on a specific latitude band, and the population within the band, which is integrated over the latitude range covered by the orbital inclination Released:9/8/2020
Frequently Asked Questions
ISO 27875:2019/Amd 1:2020 is a standard published by the International Organization for Standardization (ISO). Its full title is "Space systems - Re-entry risk management for unmanned spacecraft and launch vehicle orbital stages - Amendment 1: Formula to obtain Ec by the product of the probability of impact on a specific latitude band, and the population within the band, which is integrated over the latitude range covered by the orbital inclination". This standard covers: Space systems - Re-entry risk management for unmanned spacecraft and launch vehicle orbital stages - Amendment 1: Formula to obtain Ec by the product of the probability of impact on a specific latitude band, and the population within the band, which is integrated over the latitude range covered by the orbital inclination
Space systems - Re-entry risk management for unmanned spacecraft and launch vehicle orbital stages - Amendment 1: Formula to obtain Ec by the product of the probability of impact on a specific latitude band, and the population within the band, which is integrated over the latitude range covered by the orbital inclination
ISO 27875:2019/Amd 1:2020 is classified under the following ICS (International Classification for Standards) categories: 49.140 - Space systems and operations. The ICS classification helps identify the subject area and facilitates finding related standards.
ISO 27875:2019/Amd 1:2020 has the following relationships with other standards: It is inter standard links to ISO 27875:2019. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.
ISO 27875:2019/Amd 1:2020 is available in PDF format for immediate download after purchase. The document can be added to your cart and obtained through the secure checkout process. Digital delivery ensures instant access to the complete standard document.
Standards Content (Sample)
INTERNATIONAL ISO
STANDARD 27875
Second edition
2019-02
AMENDMENT 1
2020-09
Space systems — Re-entry risk
management for unmanned spacecraft
and launch vehicle orbital stages
AMENDMENT 1: Formula to obtain
Ec by the product of the probability of
impact on a specific latitude band, and
the population within the band, which
is integrated over the latitude range
covered by the orbital inclination
Systèmes spatiaux — Gestion du risque de la rentrée pour les étapes
orbitales des véhicules spatiaux non habités et des lanceurs spatiaux
AMENDEMENT 1
Reference number
ISO 27875:2019/Amd.1:2020(E)
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ISO 2020
ISO 27875:2019/Amd.1:2020(E)
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ISO 27875:2019/Amd.1:2020(E)
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