Each initiative operates independently under a shared methodological standard — pre-registered, open infrastructure, null-result parity. Together they form a convergent research architecture designed to detect signal where science has rarely looked.
The Synexis Project follows the process and honors the results. We build the infrastructure to find out what is actually there.
Each initiative targets a different domain: geophysical hazard detection, coherence monitoring, anomalous cognition correspondence, and collaborative research. All four share the same foundational commitment: hypotheses locked before data is examined, infrastructure that can be audited by anyone, and results published regardless of outcome.
Individual initiative pages will expand as the science develops, capturing methodology, results, visualizations, and filed reports in full.
A translational research initiative investigating whether a broad spectrum of environmental data, advanced pattern analysis, signal convergence detection, and anomalous cognition can enhance risk awareness and provide deeper insight into potential early indicators of major geophysical hazards.
Spanning geophysical, environmental, and human anomalous cognition domains across six hazard types: earthquake, flood, volcanic, avalanche, landslide, and tsunami. H1–H4 complete and filed. H4 walk-forward analysis pending re-run with high-fidelity ionospheric data.
A distributed observation network designed to measure, visualize, and analyze coherence across human, field, and Earth systems simultaneously. Integrating six complementary data streams into a common analytical framework to detect patterns that no single stream could reveal alone.
Six integrated streams: human HRV coherence, RNG network data, Earth magnetometer readings, solar and geomagnetic indices, atmospheric electrical data, and global event markers — all flowing into a unified analysis layer.
View initiative (coming soon)A structured research program studying whether anomalous cognition shows statistically meaningful correspondence with high-consequence real-world events across transportation, geophysical, and societal domains.
Three active correspondence streams: Stream A covering geophysical and environmental events, Stream B targeting transportation modes including aviation, maritime, and rail, and Stream C addressing large-scale societal disruption. All streams operate under pre-registered blind protocol.
View initiative (coming soon)Collaborative research programs conducted in partnership with IRVA, the Institute of Noetic Sciences, and affiliated institutions, combining methodological rigor with deep domain expertise in anomalous cognition research.
Current active work includes the MMNRS study, applying Remote Viewing, Map Dowsing, and Dream Analysis protocols under pre-registered blind methodology. Three-participant convergence threshold, Bonferroni correction applied, submit-first disclose-second sequencing enforced throughout.
View initiative (coming soon)