Founder and Research Lead
Michaël Vaillant’s work combines methodological rigor, explainable models, and pragmatic implementation. He has worked for nearly two decades in connection with the French National Centre for Space Studies (CNES) and contributes to projects at the boundary between research, investigation, and operational decision support.
His research interests include spatial statistics, anomaly characterization, weak-signal analysis, knowledge engineering, cosmology, and foundational physics. Depending on the scope of a project, he works independently or activates ad hoc expert collaborations.
- Data-centric methods for complex observational phenomena
- Knowledge engineering and explainable analytical tools
- Independent research, expert missions, and methodological development
Selected Publications, Preprints and Research Notes
Examples of research outputs associated with Meta-Connexions, from observational analysis and earth-science contributions to cosmology, theoretical physics, and public research notes.
- Courty, Marie-Agnès, R. Benoit, and M. Vaillant. 2012. Possible Interaction of Meteor Explosion with Stratospheric Aerosols on Cloud Nucleation Based on 2011 Observations.
- Laurent, Thibault, Christine Thomas-Agnan, and Michaël Vaillant. 2015. Spatial Point Pattern Analysis of the Unidentified Aerial Phenomena in France.
- Vaillant, Michaël. 2022. Evaluation Methodology for UAP Cases at GEIPAN.
- Knuth, Kevin H., et al. 2025. The New Science of Unidentified Aerospace-Undersea Phenomena (UAP).
- Vaillant, Michaël. 2026. Meta Connective Physics: A Discrete Relational Framework for Spacetime, Matter, and Information.
- Vaillant, Michaël. 2026. A Single-Flow Model Fails to Account for Localized Low-z Anisotropy in the Hubble Residual Field.
- Vaillant, Michaël, and Tony C. Scott. 2026. A Complex Tension Origin for Dilaton Gravity: Jordan Stiffness and Logarithmic Einstein Dynamics.
- Vaillant, Michaël. 2026. Conformal-Depth Routes to the Electron Mass in Meta-Connective Physics.
- Vaillant, Michaël. 2026. Branch-Resolved Derivation of Fine-Structure and Electroweak Readouts from a Finite MCP Grammar.
- Vaillant, Michaël. 2026. A Covariant Relational Tension Quanta–to–Infrared Bridge for Meta-Connective Physics: Emergent Metric/Tetrad Sector, Gauge Connections, Chiral Anomaly Closure, and Effective QFT Matching.
- Vaillant, Michaël. 2026. What if our universe had an exact mathematical address?
Additional conference materials, methodological documents, and repository links can be made available on request or through project-specific references.
Contact
For research collaborations, expert missions, or analytical projects.
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LinkedIn linkedin.com/in/michael-vaillant
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Phone +33 6 26 23 47 46