Universal Communication Lab

Cross-domain signal discovery and cryptographic integrity.

Build hypotheses, model gravitational computation, and test resilient protocols with a strict audit trail.

Start a hypothesis BCI Lab

Research-only

No autonomous transmission.

All decoding stays reviewable.

Mission Stack

Universal connection

Resilient encoding, redundancy, and error-corrected payloads across unknown channels.

Gravitational computation

Model periodicity, phase drift, and persistence as observational-only features.

Cryptography & authenticity

Integrity checks, simulated key exchange, and provenance tracking for every decode.

Discovery Pipeline

Capture signals with modality tags and source metadata.
Normalize + extract features (entropy, variance, spectral hints).
Create falsifiable hypotheses and confidence bands.
Run experiments, log observations, score decodes.
Export datasets for peer review.

Focus on interpretability and auditable results.

Reference Stack

Pinned resources to support hypothesis design, decoding, and verification.

Quantum Computing

Quantum Information Processing (QIP/APS talks) · All levels · YouTube Quantum Complexity Theory · All levels · YouTube NISQ Era Quantum Computing · All levels · YouTube Quantum Error Correction · All levels · YouTube

Neuroscience

NeuroTechX (YouTube) · All levels · NeuroTechX Huberman Lab (YouTube) · All levels · Huberman Lab BCI Guys (YouTube) · All levels · BCI Guys Neural Data Science · Intermediate · Neuromatch

Machine Learning

Sentdex (YouTube) · All levels · Sentdex Andrej Karpathy (YouTube) · All levels · Andrej Karpathy DeepLearning.AI (YouTube) · All levels · DeepLearning.AI The Elements of Statistical Learning (free PDF) · Advanced · Hastie/Tibshirani/Friedman

Computer Vision

Sentdex (YouTube) · All levels · Sentdex Andrej Karpathy (YouTube) · All levels · Andrej Karpathy DeepLearning.AI (YouTube) · All levels · DeepLearning.AI CS231n: Convolutional Neural Networks for Visual Recognition · Intermediate · Stanford

Bioinformatics

NeuroTechX (YouTube) · All levels · NeuroTechX Huberman Lab (YouTube) · All levels · Huberman Lab BCI Guys (YouTube) · All levels · BCI Guys WGLab (GitHub Organization) · Intermediate · GitHub

Hypothesis Builder

Modality Hypothesis title Expected structure

Confidence (0-1) Status

Description

Experiment Builder

Hypothesis ID Experiment name

Setup

Dataset ref Decoding protocols

Metrics (JSON)

Model Controls

Embed: -- · Vision: --

Embedding model Custom embed model

Vision model Custom vision model

Model selections are stored locally for Comms Lab workflows.

Retrieval + Search

Query

Max results Include local files Include Resource Vault Include lab records

Templates + Integrity

Hypothesis template Experiment template

Observation Scoring

Metrics (JSON)

Universal Communication Constraints

Noise floor Bandwidth SNR target Redundancy

Use these constraints when designing hypotheses and experiments.

Observation Log

Experiment ID Raw summary

Feature summary

Anomalies Analyst notes

Observation data (JSON)

Protocol Designer

Encode or decode candidate messages for interoperability testing.

Protocol

Message

Encoded

Technical Notes: Gravitational Computation + Communication

In this lab, “gravitational computation” is treated as observational signal processing, not controllable gravity gates. The goal is to model and decode faint channels under extreme noise and weak coupling.

Signal model

Use strain time series; track periodicity, phase drift, coherence, and cross-correlation between sensors.

Information limits

Estimate bandwidth, SNR, and channel capacity; compare to EM links to define feasible payload rates.

Detection pipeline

Apply matched filters, spectral whitening, and windowed FFT; retain full provenance of transforms.

Protocol resilience

Design redundancy (LDPC/Reed-Solomon), sync beacons, and repetition codes for sparse, noisy channels.

Cryptographic integrity

Use signatures and timestamps to validate candidate decodes; avoid claims without reproducibility.

Relativity constraints

Entanglement does not enable faster-than-light signaling; treat all channels as causal and bounded.

Minimum Viable Experiment

Define a hypothesis with a falsifiable structure (periodic pulse, phase-coded burst).
Generate a simulated dataset with known parameters and noise floor.
Decode via protocol designer, then measure recall and false positives.
Log metrics + anomalies; iterate only after independent review.

Treat every claim as a testable signal-processing exercise, not proof of contact.

Safety + Governance

No autonomous transmission

All outbound signaling requires explicit human review.

Audit trails

Every hypothesis, experiment, and observation should be exportable and reviewable.

Interpretability-first

Prefer conservative decoding with confidence scores and clear falsifiability.