U.S. Utility Patent Application Draft – EntangleBeat™
Title: Quantum Biometric Authentication and Pilot Monitoring System Using Entangled Heartbeat Electromagnetic Signatures (EntangleBeat™)
Inventor: Chokri Ouali
Filed with the United States Patent and Trademark Office (USPTO)
Abstract:
The invention provides a quantum biometric authentication and pilot monitoring system based on real-time detection and encoding of a human's cardiac electromagnetic field (EMF). The system converts heartbeat EM signals into a quantum-coherent wavefunction, encodes it into qubit states, and establishes biometric entanglement for identity verification and hijack prevention. A panic-triggered quantum collapse mechanism enables real-time security override of cockpit systems.
Field of the Invention:
This invention relates to biometric authentication, quantum sensing, and avionics security. More particularly, it pertains to a system for biometric identity verification and real-time pilot distress detection using quantum-measured cardiac signals.
Background of the Invention:
Current cockpit security measures rely heavily on physical authentication tokens or camera-based biometrics. These approaches lack continuous validation and are vulnerable to spoofing or unconscious misuse. Quantum sensing allows for real-time biometric coherence validation, offering a robust solution to hijack prevention.
Summary of the Invention:
The invention uses an embedded quantum-sensing seat module that captures the pilot’s electromagnetic heartbeat field and encodes it into a Schrödinger-modeled waveform Ψ(x,t). This waveform is encoded into a quantum key using time-bin or polarization entanglement. The system compares the real-time biometric quantum pulse with stored entangled baselines and triggers system overrides in the event of incoherence or panic collapse.
Brief Description of the Drawings:
Figure 1 – Block diagram of the EntangleBeat™ Quantum Biometric Loop showing:
- EM Wave Sensor Array (seat-integrated)
- Schrödinger Engine
- Qubit Encoder
- Entanglement Generator (SPDC)
- Pilot-Cabin QKD Handshake Module
- Panic Override Logic Layer
Detailed Description of the Invention:
The system comprises:
1. Electromagnetic Sensor Layer – A quantum-compatible sensor (e.g., cryo-cooled APD) embedded in the cockpit seat captures the pilot’s EM cardiac field.
2. Wavefunction Modeling Unit – Processes Ψ(x,t) using numerical Schrödinger equation solvers with live V(x,t) modulation from stress signals.
3. Quantum Encoder – Extracts phase, coherence, and interval timing to produce a quantum biometric signature using qubit-based time-bin encoding.
4. Entanglement Unit – Combines live pilot signal with entangled photon pairs from a SPDC process for real-time validation.
5. Comparison Engine – Validates incoming pulse against entangled baseline.
6. Panic Detection Layer – Detects collapse of coherence (sudden decoherence spike) as a hijack or health-risk trigger.
7. Override Module – On validation failure or panic trigger, it disables avionics interface and signals secure ground link via PQC fallback.
Claims:
1. A method for biometric identity verification using entangled heartbeat signals.
2. A cockpit seat-embedded quantum biometric system configured to detect pilot EM signals and encode them as qubit pulses.
3. A Schrödinger-based engine that maps pilot EM waves into quantum wavefunctions Ψ(x,t).
4. A quantum encoder that converts biometric waveform to a qubit-based time-bin or polarization representation.
5. A panic-triggered override system based on coherence collapse.
6. A method for entangling biometric pilot data with SPDC-generated photons.
7. A system for continuous QKD-based cockpit access control using quantum biometric identity.
8. A fallback mechanism to PQC algorithms (ML-KEM) when entanglement fidelity degrades.
9. A biometric trust threshold algorithm with programmable waveform integrity scores.
10. A multi-layered cockpit security protocol combining quantum sensing, AI analysis, and pilot identity entanglement.
Annex 14 – Quantum Synchronization & QKD Handshake for Nx Aircraft Networks
Quantum Aircraft Position Signature (QPS) and Flight Synchronization System:
This system introduces a six-dimensional (6DoF) Quantum Position Signature (QPS) that encodes each aircraft's position (X, Y, Z) and orientation (Roll, Pitch, Yaw) into a qubit state vector. This vector is securely transmitted via DWDM + 6G mmWave beam to ground control entities such as SKYES and EUROCONTROL.
Each aircraft's onboard quantum synchronization node (QSN) encodes:
- Unique Qubit Digital Identity
- QPS entanglement pulse at fixed intervals
- Time-bin or polarization state matching for QKD
GNOC servers integrated at aviation OEMs and Eurocontrol nodes receive the transmitted qubit vector and perform:
- Entanglement integrity verification
- Synchronization logging with quantum-hashed timestamps
- Black box co-logging for full traceability
This system guarantees that:
- Aircraft positioning is spoof-proof
- Hijack or trajectory deviations break entanglement and trigger alerts
- QKD handshake maintains a zero-trust channel for cockpit-ground exchange
High-Speed Quantum Airborne Handover Protocol:
Aircraft cruising at 14 km altitude and 1,000 km/h must manage secure handovers between ground stations while maintaining quantum coherence. The system uses DWDM QKD at 1550 nm (Free Space Optics) for line-of-sight transmission and optionally, quantum microwave signaling for cloud-penetrating coverage.
Handover involves:
- Beam steering and auto-tracking of QKD laser to next ground station
- Overlapping coverage zones for session continuity
- Session authentication merge using QSN node or GNOC relay
- Failover to microwave QKD when atmospheric obstruction occurs
This allows quantum key exchange and biometric validation to persist through regional controller zones (e.g., SKYSES Belgium to Eurocontrol Frankfurt), even as the aircraft travels at 278 m/s.
All quantum events are co-logged with classical telemetry in the EntangleBeat™ Black Box.
End of Draft – Prepared for USPTO Filing
Prepared by: Dido Quantum Pulse
Contact: info@didoquantumpulse.com
A system and method for real-time transformation of biological electromagnetic signals into frequency-domain spectra using a Fourier Transform engine, wherein the resulting biometric spectrum is hashed and used to generate or bind session keys to quantum key distribution (QKD) exchanges.
What is claimed:
1. A biometric acquisition module comprising a quantum sensor that detects human electromagnetic signals (e.g. from a heart).
2. A real-time signal processor configured to apply a Fourier Transform (FFT or DFT) to extract spectral features.
3. A biometric hash function that computes a secure signature (H(BIO)) from the spectral features.
4. A cryptographic binding module that combines H(BIO) with a QKD-derived quantum key (K_QKD) using HMAC or XOR operation to form K_final.
5. A validation engine that confirms real-time physiological coherence and allows decryption or authentication only upon match.
This claim bridges quantum sensing, spectral signal analysis, and secure key handling—enhancing the EntangleBeat™ IP with cross-domain applicability.
