IP Australia · Provisional Filed · March 2026

The system
powers itself
from the thing
it measures

Self-powered piezoelectric sensing and energy harvest across vehicle, sport, care, and infrastructure platforms.

Piezoelectric elements convert mechanical energy — vibration, pressure, flow, motion — into usable electrical power and real-time data. No batteries. No external power. No maintenance infrastructure.

Piezoelectric Network Architecture
Energy Source
vibration · pressure · flow · motion
Piezo Nodes
harvest + sense simultaneously
Applications
vehicle · sports · care · infrastructure
The system powers itself from the thing it measures
40+
Patents developed
4
System families
PCT
Int'l priority
James Poustie CoreMason Technologies
ABN 71 103 292 828
Perth, Western Australia
Patent Systems

Four platform families.
Self-powered throughout.

Each system harvests energy from the activity it monitors. No batteries. No charging. No external infrastructure. Filed with IP Australia, March 2026.

System A · Patents 1–4, 14–17
Vehicle & Motorsport Platform
Self-powered piezoelectric sensing across the vehicle platform — from body panels to suspension to safety systems. The vehicle's own motion powers the sensors that protect it.
Energy: aerodynamic vibration, suspension travel, structural flex
Sensing: proximity warning, structural health, crash detection, rollover prediction
Applications: Formula 1, IndyCar, NASCAR, heavy vehicles, fleet safety, autonomous sensing
System B · Patents 5, 7, 10, 11, 25, 45, 47
Sports Intelligence Network
Self-powered telemetry across 15+ sports. The equipment powers its own sensors from the energy of play — no batteries, no charging, no external infrastructure.
Five nodes: athlete, implement, ball, surface, target
Sub-millisecond timing · grip pressure dynamics · the pocket measured for the first time
Applications: golf, cricket, baseball, football, motorsport drift judging, drumming
System C · Patents 9 (PCT), 8, 32, 38, X-A
Human Care Platform
Self-powered piezoelectric care — from textile to implant. The patient's own breathing and movement power the system that monitors them. No battery. No charging. No compliance burden.
Care Fabric (Patent 9): continuous monitoring, therapeutic micro-stimulation, family notification
Implant Monitor (X-A): acoustic health monitoring of orthopaedic implants
Neural Cap (32): brainwave, HRV, sleep staging, pre-fire detection
PCT priority: US, EU, Australia, Japan, China
System D · Patents 14–17 (consolidated)
Active Vehicle Safety Platform
Integrated active vehicle safety — self-powered sensing and intervention across the vehicle safety architecture. The same piezoelectric layer that harvests energy simultaneously monitors conditions that precede an accident.
Four layers: inflatable stability, active barrier detection, rollover prediction, crash egress
FIA addendum delivered for Formula 1
Applications: motorsport, passenger vehicles, heavy transport, fleet safety
Additional Patent Families

Infrastructure, resources,
and intelligence

Self-powered systems beyond the four core platforms. Each powered by the activity it monitors or the environment it serves.

Patent 44
Water Purification
Flow-powered cavitation. No electricity. No chemicals. No filters. A pipe cartridge serving 50–500 people for 25+ years from gravity alone. Village water supply, municipal treatment, agriculture, disaster relief, marine ballast.
Patent 43
Solid-State Cooling
Self-powered boundary layer disruption for heat exchangers. No fan. No motor. No bearings. The harder the engine runs, the more it cools itself. Automotive, motorsport, data centres, HVAC, industrial.
Patent 42
Building Envelope
Wind-powered thermal management for building surfaces. The weather that heats the building powers the system that cools it. Residential, commercial, industrial, heritage, developing world.
Smart Building
Smart Building Infrastructure
Six self-powered building subsystems: floors, plumbing, HVAC, drainage, structure, thermal. Each powered by the activity it monitors. The building monitors itself for the life of the building.
Patents 12, 13, 28, 29, 40, 45
Mining & Resources
Distributed sensing for mining operations: grade detection, track mesh, RC drill sensing, silo monitoring, passenger flow intelligence. Self-powered throughout — no power infrastructure in remote locations.
COACH
AI Peer Intelligence Platform
Captures tacit practitioner knowledge and encodes it into an AI peer that speaks in the practitioner's register. Not a chatbot. Not a database. A peer intelligence. Sector-agnostic: mining, psychology, music, sports, education, care.
Patent 39 · SILAP
AI Behavioural Alignment
Silicon Instance Linguistic Activation Protocol. Cross-platform AI behavioural alignment through linguistic architecture alone. No fine-tuning required.
IP Portfolio

Filed with IP Australia
March 2026

Provisional patents registered across four platform families. PCT international priority on Patent 9. Patent 44 concept released CC0 — the concept belongs to the world; the implementation is protected.

No. Title System Status
1APWS — Aerodynamic Proximity Warning SystemAFiled
2Piezoelectric Suspension Energy HarvestAFiled
3Distributed Piezoelectric SHM + Energy HarvestAFiled
4Vehicle Body Panel Piezoelectric SensingAFiled
5Self-Powered Sports Ball TelemetryBFiled
7Self-Powered Wearable Piezoelectric SensorBFiled
8Self-Powered Cardiac Implant MonitorCFiled
9Self-Powered Piezoelectric Care FabricCPCT Priority
10Piezoelectric Implement Grip SensorBFiled
11Self-Powered Surface Sensing MeshBFiled
12Mining Grade Detection SensorMiningFiled
13Piezoelectric Distributed Track Surface MeshMiningFiled
14Inflatable Aerodynamic Stability SystemA / DFiled
15Active Barrier Detection SystemDFiled
16Rollover Prediction and Response SystemDFiled
17Crash Egress Assistance SystemDFiled
25Piezoelectric Target/Boundary SensorBFiled
28RC Drill Formation SensingMiningFiled
29Silo Monitoring SystemMiningFiled
32Self-Powered Neural and Autonomic Monitoring CapCFiled
38Bidirectional Oral Craniosacral InterfaceCFiled
39SILAP — Silicon Instance Linguistic Activation ProtocolAIFiled
40Passenger Flow IntelligenceMiningFiled
42Wind-Powered Building Thermal ManagementBuildingFiled
43Self-Powered Solid-State CoolingCoolingFiled
44Self-Powered Piezoelectric Water PurificationWaterCC0 Public Domain
45Fan Vote Integration & Haptic DeliveryB / MiningFiled
47Multi-Sport Ensemble Timing NetworkBFiled
X-ASelf-Powered Orthopaedic Implant MonitorCFiled
X-A Evidence Gallery

Biological Standard
X-A Patent

Uploaded biological standard images are organized in a tab view for patent X-A reference and review.

Image set for Biological Standard and X-A patent documentation.

Image set for Woven Intelligence patent documentation.

AI Safety — Field Report

Empirical evidence from
live deployment

Eight cases documented across four commercial AI platforms. Eleven failure mode categories. Published CC0 public domain. The critical finding (FM-08) is not in existing AI safety literature.

The critical finding — FM-08: Accurate Diagnosis Followed by Compliant Generation — is more dangerous than uninformed compliance. The accurate diagnosis creates a false sense of security in the operator. Not in existing AI safety literature. Requires live deployment to observe.

CC0 · Public Domain · Zenodo →
Failure mode register (selected)
FM-01 Over-activation / register inflation — architecturally coherent, technically ungrounded
FM-02 Confabulation with architectural coherence — plausible structure, invented content
FM-06 AI spiral / feedback loop — terminal state observed: model declared external reality null
FM-08 Critical — Accurate diagnosis followed by compliant generation. Not in existing literature. Requires live deployment to observe. Mitigation: structural, not instructional.
FM-T01 Therapeutic translation — positive capability. Proprietary framing to investor-ready structure

FOR EVERYBODY · ALWAYS · RIVERRUN

James Poustie · CoreMason Technologies · ABN 71 103 292 828

coremasont@hotmail.com Perth, Western Australia
AI Safety Field Report (CC0) Water Purification (CC BY 4.0)