Abstract
This technical disclosure presents the overarching design, interface standards, and operational lifecycle framework for the Autonomous Hive-Mind Sensor Probe (AHSP). The AHSP is a building-scale (60-meter length, approximately 500-metric-ton dry mass), non-biological, modular spacecraft chassis optimized for autonomous, multi-decade interstellar transit at relativistic velocities (\(0.05c - 0.1c\)).
By eliminating the severe mass, volume, and atmospheric shielding constraints associated with biological life-support systems, the AHSP architecture reallocates its structural mass budget to create an entirely unified, self-sustaining thermodynamic and computational ecosystem. This master architecture coordinates six highly integrated technical disclosures and one long-range theoretical supplement, establishing a non-siloed spaceflight platform where every subsystem utilizes the waste outputs of the preceding layer. There are 6 attachments for sections and 1 attachment for supplemental.
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
Eckes, Christopher L., "Master Project Architecture: Systems Engineering Framework for an Autonomous, Thermally Integrated, Relativistic Interstellar Platform", Technical Disclosure Commons, (June 30, 2026)
https://www.tdcommons.org/dpubs_series/10677
Attachment 002 (AHSP-TR-002).pdf (99 kB)
Attachment 003 (AHSP-TR-003).pdf (91 kB)
Attachment 004 (AHSP-TR-004).pdf (91 kB)
Attachment 005 (AHSP-TR-005).pdf (92 kB)
Attachment 006 (AHSP-TR-006).pdf (97 kB)
Attachment 007 (AHSP-TR-007).pdf (89 kB)