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Open Topic for Historical Radiation Data Analysis for Enhanced Ballistic Missile Defense System (BMDS) Modeling and Prediction

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MDA26TZ04-NP002SBIR / STTR

Contract Overview

Solicitation details, issuing organization, response deadlines, documents, and interested companies for this government contract opportunity.

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The Missile Defense Agency is seeking innovative analytical approaches to examine long-term historical radiation data in order to reduce the burden and cost of radiation testing for ballistic missile defense systems and related space-based electronics. The focus is on understanding how microelectronics and critical components degrade over time under various radiation environments—including neutron, proton, heavy ion, displacement damage, and total ionizing dose—by leveraging archived data from satellite missions, ground-based testing facilities, historical component performance records, and past test failures. The goal is to develop data-driven insights that either justify the current testing requirements or enable a reduction in testing rigor through improved predictive capability, without relying on proprietary or restricted data provided by the agency. Proposals must emphasize trend identification across device types and manufacturing technologies, correlation between measured radiation exposure and observed system failures, and the development of predictive models that account for evolving semiconductor processes and space environment variability. Advanced techniques such as machine learning are encouraged to uncover complex, non-linear relationships between radiation exposure and component degradation. Equally critical is the quantification of uncertainty inherent in historical datasets and modeled predictions, ensuring that risk assessments and design margins remain robust and defensible. This solicitation is a total small business set-aside, restricted to entities with fewer than 500 employees, and responses are due by July 22, 2026, with the aim of enhancing the accuracy, efficiency, and resilience of next-generation missile defense systems operating in high-radiation space environments.

General Info

Use historical radiation data to predict microelectronics degradation and reduce testing costs for missile defense systems.

Agency

Department of Defense → Missile Defense AgencyView Agency

NAICS

541715 - Research and Development in the Physical, Engineering, and Life Sciences (except Nanotechnology and Biotechnology) View NAICS

Place of Performance

Not specified

Set-Aside

SBA

Documents

(0)

No documents available

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Timeline

PhaseSolicitation
Posted

Solicitation

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Submission deadline

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Organization & Contact Information

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AgencyDepartment of Defense → Missile Defense Agency
ContactsNo contacts available
OfficeUS
Organization / Agency
Department of Defense → Missile Defense Agency
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Office AddressUS
ContactsNo contact information available

Full Description

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The performance and survivability of Department of War (DoW) and space systems, especially those operating in space environments, are critically affected by radiation. Radiation testing of parts are major cost and schedule drivers for DoW and space systems. This topic seeks to conduct a rigorous statistical analysis of long-term radiation trends and their impact with the goal of either reducing or justifying the need for rigorous and costly radiation testing. DoW systems must determine a part’s susceptibility to many forms of radiation including but not limited to: neutron, proton, heavy ion, displacement damage, total ionizing dose. Successful proposals may focus on all or some subset of these radiation environments and would seek innovative approaches to analyze historical radiation data from various sources in the open literature, including but not limited to: Archived space-based radiation measurements (e.g., from past and current satellite missions). Data from ground-based radiation testing facilities and simulation environments. Historical performance data of space components and subsystems exposed to radiation. Legacy data of previous test failures to analyze and attribute the event to the natural space environments. Proposers should be able to conduct their analysis without data provided by the Missile Defense Agency. The analysis should focus on: Trend Identification: Identifying long-term trends and patterns in radiation effects of microelectronics. For example, the development of a-priori expectations based on part type, node size and process technology, and trends in lot-to-lot variation of radiation performance for particular devices. Correlation Studies: Correlating historical radiation data with observed performance degradation of sensors, electronics, and other critical spacecraft components. This includes exploring the relationships between radiation dose, single event effects (SEUs), total ionizing dose (TID), and other radiation-induced phenomena, with failures or degradation of space systems. Predictive Modeling: Developing predictive models that use historical radiation data to forecast the radiation environment impact on future and current microelectronics devices and process technologies. This may involve incorporating machine learning techniques to identify complex relationships and improve prediction accuracy. Uncertainty Quantification: Quantifying the uncertainties associated with historical data and predictive models and assessing their implications for risk management, decision-making and design margin.

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