I.S.P.A. Industries (also known as ISPA Industries) runs nine frontier R&D projects across energy systems, healthcare technology, social infrastructure, subterranean engineering, atomic science, and applied software. Each project is designed to solve a real problem that institutions won't touch — and to sustain itself long after the initial work is done.
Most home heating depends on burning fossil fuels or fighting the grid's peak-hour pricing — both expensive, both fragile. The Firebrick system takes a different approach: store energy as heat in specially engineered firebrick modules, then release that heat on your schedule at a fraction of the cost. Charge when electricity is cheap. Use heat when you need it.
Electrically heated firebrick modules store energy at up to 70–80% round-trip efficiency. No moving parts, no combustion, no emissions.
Charges during off-peak hours when electricity is cheapest — or directly from solar/wind when available. Reduces strain on the grid during peak demand periods.
Thermostat-connected release of stored heat on demand. Steady warmth even when the grid is stressed or during extended off-grid scenarios.
Residential single-family units, small commercial buildings, off-grid installations, low-income housing retrofits, and micro-grid support infrastructure.
Modular, scalable system that cuts heating costs and emissions while increasing grid resilience. A foundation for distributed thermal infrastructure.
Engineering and prototype phase. Design iteration in progress with initial thermal modeling complete.
Every major social platform today uses opaque algorithms to determine what you see — optimizing for engagement metrics that serve the platform, not the user. TagedIn was built as the direct alternative: real-time, chronologically ordered, hashtag-driven information flow that is genuinely hard to censor or algorithmically distort. If the feed is chronological, what you see is what your community is actually talking about, not what an algorithm decided you're likely to engage with.
No opaque "relevance" algorithms. Posts appear in the order they were published. User-controlled hashtag filters let you build your own information environment.
Hashtags are first-class navigation. No penalty for adding multiple hashtags — use as many as accurately describe your post. Hashtag searches are the primary discovery path.
Multiple videos, images, and embedded documents in a single post — not limited to short clips. True creative expression, not just attention-optimized fragments.
#/topic communities similar to Reddit subreddits. Create or join communities around subjects, organized around the hashtags that define them.
Three sub-roles: Creator, Investor, Crowdfunder. Built-in monetization pathways tied to community contribution, not engagement manipulation.
Investor-tier feature with voting power tied to contribution badges. Real governance structures for communities that want them.
Geographic + hashtag + account tag targeting for creator reach. Precise targeting, not mass manipulation — reach the people who actually care about your subject.
Snapchat-style quick post UX on mobile. Open the camera, capture what you're doing, post it in under a minute — friction-free creation.
Recommendation logic focused on user wellbeing and informational integrity. What we recommend and why — explained, not hidden.
Surface infrastructure is vulnerable to climate disruption, geopolitical instability, and natural disasters. What if the most critical infrastructure lived underground — self-sustaining, climate-independent, and capable of operating semi-independently of the surface world? The Subterranean Complex project explores the engineering, legal, and logistical frameworks needed to build deep subterranean infrastructure at population scale.
Infrastructure capable of housing populations, manufacturing, agriculture, and energy systems underground. Not bunkers — actual cities, built to last.
Integrated manufacturing lines, logistics tunnels, life-support systems (air, water, food cycling, waste processing). Full loop, not resupply-dependent.
Design language and engineering standards that make the approach replicable across regions. A blueprint for national or private infrastructure, not a one-off.
Engineering and legal playbooks, concept-level structural and geotechnical designs. Public whitepapers and 3D visualizations being developed.
The science of changing one element into another — nuclear transmutation — sits at the intersection of high-energy physics and speculative engineering. Our program develops a structured, college-textbook-quality framework covering both high-energy nuclear methods and speculative low-energy approaches. Transparent methodologies, rigorous safety protocols, and peer-review standards throughout.
Multi-chapter curriculum already drafted: mechanisms, methods, analytics, applications, ethics. Structured for accessibility without sacrificing rigor.
Documented approaches to atomic transmutation using established high-energy physics. Accelerators, bombardment methods, and reactor-based processes.
Exploration of speculative low-energy, resonance-based methods. Controversial territory handled with appropriate scientific rigor and explicit safety framing.
Pathways to nuclear waste conversion into stable isotopes; production of medical isotopes and strategic metals. Real-world impact, not pure abstraction.
Explicit, documented safety frameworks for every experimental design. Non-negotiable standards before any physical experimentation.
All curriculum materials and experimental designs released as open-access educational resources. Science that belongs to everyone.
Not every project needs a decade-long horizon. Applied Software Platforms are the near-term work that generates revenue, validates technical execution, and funds the long-horizon research. We build consumer-grade mobile products and financial tools — and we ship them.
Completed backend, frontend, and UI architecture. Demonstrates our ability to build and ship consumer-grade mobile products at scale. Live and functional.
Live options data overlays, watchlists, transparent retail investing tools. Built for people who want real information, not gamified engagement.
Book series and guided programs translating complex physics, infrastructure strategy, and entrepreneurship into accessible learning products.
Different platforms, different markets, same engineering standards. Demonstrates that the lab can execute across product categories.
Every dollar from applied software goes back into frontier R&D. These products fund the work that doesn't have an immediate market.
A groundbreaking technology that uses light to monitor and cleanse blood in real-time — targeting viruses, bacteria, and even cancer cells with a precision that pharmaceuticals can't match. By harnessing specific wavelengths, the system can identify and neutralize pathogens without the collateral damage of broad-spectrum drugs. The goal: a non-invasive device that acts as a continuous blood purification layer, reducing systemic infection burden and improving outcomes for chronic conditions.
Optical sensors detect anomalies in blood chemistry in real-time — identifying foreign organisms, cellular irregularities, and chemical imbalances as they pass through the light field.
Specific light wavelengths disrupt the structure of pathogens — viruses, bacteria, fungi — without damaging surrounding blood cells. No drug resistance, no chemical side effects.
Research phase exploring differential light absorption characteristics of malignant cells. Potential for selective destruction without chemotherapy's systemic toll.
Designed as a wearable or semi-implantable stint configuration. Continuous purification without needle access or transfusion cycles.
An advanced hospital bed equipped with live blood sampling, automated medication delivery systems, and cellular regeneration technologies — designed to accelerate patient recovery across a wide range of conditions. Rather than relying on intermittent nursing care, the Med Bed provides continuous monitoring and automated therapeutic response, reducing recovery time and freeing clinical staff for higher-level decision-making.
Continuous, automated blood chemistry monitoring — real-time data on glucose, electrolytes, inflammatory markers, and infection indicators. No manual draws required.
Integrated drug delivery systems calibrated to real-time blood chemistry. Automated dosing adjustments based on patient response, not fixed schedules.
Adjunctive energy field technology designed to support tissue repair and accelerate wound healing. Reduces post-surgical recovery time and improves outcomes for chronic injuries.
Full EMR integration — the Med Bed feeds recovery data directly into patient records, giving clinicians continuous visibility without manual charting.
A cutting-edge industrial tool for creating perfect welds between various materials at the atomic level — no heat, no filler metal, no fusion zone brittleness. Cold welding uses controlled pressure and surface preparation to join dissimilar metals with a bond stronger than the parent material itself. This apparatus brings that capability to industrial fabrication, enabling joints between aluminum, copper, titanium, and composite materials that conventional welding cannot safely produce.
Zero thermal distortion — the cold welding process produces no heat-affected zone, preserving the metallurgical properties of both base materials.
Joins metals that conventional welding cannot safely fuse — aluminum to copper, titanium to stainless, aluminum to composites. Opens new fabrication possibilities.
When surfaces are properly prepared and joined under pressure, the resulting bond is metallurgically continuous — no interface weakness, no galvanic corrosion risk.
Designed for aerospace, marine, and infrastructure fabrication. Reduces manufacturing cost on high-specification joints while improving material longevity.
The A.A.P.S. (Accelerated Agricultural Production System) is a specifically geometrically shaped structure that utilizes geometric technology to concentrate quantum waveforms, providing a highly beneficial field effect to any biological materials contained within and around it — resulting in higher nutrient content in foods grown within, anti-fungal effects, accelerated growth, and more.
The system incorporates aquaculture, horticulture, magnetic, ultrasonic, and electrical stimulation technologies, resulting in an unparalleled level of growth potential and efficiency concentrated under one roof. With the ability to produce potentially two or more crop yields per growing season and continuous growing operations year-round, regardless of the external environment, the A.A.P.S. is positioned to revolutionize the agriculture industry.
The internal systems are highly modular, capable of producing hydrogen, methane, purified geometrically treated ionized drinking water, animal by-products, on-site produced juices and spirits, electrical power, refined nutrients and supplements, and more — depending on the internal configuration of each structure. The Consumer version brings these capabilities to home growers, providing an optimal environment for nutrient-rich produce in any setting.
Specifically shaped structures concentrate quantum waveforms for measurable biological benefit — enhanced nutrient density, anti-fungal properties, accelerated growth cycles.
Combines aquaculture, horticulture, magnetic fields, ultrasonic stimulation, and electrical systems under one roof — synergistic, not just additive.
Climate-independent growing regardless of external conditions. Potential for two or more crop yields per season where conventional growing allows one.
Hydrogen, methane, treated ionized water, animal products, juices, spirits, electrical power, nutrients — configuration-dependent secondary outputs.
Home-scale A.A.P.S. unit for individual consumers — space-efficient design for apartment or residential use. Grow your own food, year-round, in any environment.
The nine projects on this page share one constraint: they're all underfunded relative to the ambition of the work. If you believe in long-horizon R&D — the kind that institutions won't fund because the payoff is too far out — your contribution goes directly into the lab.
Questions about a specific project? ispaos@polsia.app