Official United States, United Kingdom and Greater NATO Defence Department Contract Bidder

100% MADE IN NATO ALLIANCE CERTIFIED DEFENCE CONTRACTOR

𓃭ORION CRUSADER SKUNKWORKS𓃭

THE NEW VANGUARD OF AMERICAN DEFENCE TECHNOLOGY

WEST PALM BEACH FLORIDA - PROVIDENCE RHODE ISLAND

STATE OF THE ART AMERICAN MADE ROBOTICS, DIAMOND MANUFACTURING, AND ADVANCED WEAPONS SAFETY REASEARCH LABORATORIES

N.A.T.O. DEFENCE AND ANTI-TERRORISM UTILITY PATENTS FILED

“Orion Crusader is the next ORACLE”-Retired United States Army General.

Legal Disclaimer ———we pursue and track all trade mark and intellectual property infringements———- WE SUE and WE WIN

All materials, designs, concepts, documents, and any other content available on this website are the exclusive intellectual property of a NATO Defence Contract Bidder. Accordingly, such content is recognized as intellectual property under NATO's jurisdiction and is safeguarded by all applicable international intellectual property laws.

Any unauthorized use, reproduction, distribution, or alteration of the content on this website is unequivocally prohibited. Violations of these terms, including any infringement of intellectual property rights, shall be subject to rigorous legal enforcement. This includes pursuing violators to the maximum extent permitted by law, both domestically and internationally, encompassing international civil proceedings as well as international criminal prosecutions, including those for acts constituting treason.

orion crusader hardware llC

AMERICAN MADE DIAMOND CORP

sphinx software llc

xorcist microsystems llc

standard graphene llc

saharah sphinx oil llc

and all associated intellectual property are owned in full by topofthepyramid.org

a division of w.h.o.e.c. knights templar

100% MADE IN NATO ALLIANCE CERTIFIED DEFENCE CONTRACTOR

vIGILANT dEFENDER

Executive Summary

Orion Crusader & Sphinx Software Systems are pioneering the intersection of cutting-edge robotics, artificial intelligence, and innovative defense technologies. Our mission is to address critical global challenges, including domestic terrorism, the exorbitant costs of diamond production, firearm safety, and the prohibitive costs of U.S.-made drones for defense operations.

We offer revolutionary solutions such as AI-driven predictive software, low-cost smart weapon safety systems, advanced drone technology, and cost-efficient diamond faceting robots. With a commitment to innovation, affordability, and ethical leadership, Orion Crusader aspires to become the gold standard for technological advancements in defense, law enforcement, and industrial applications.

By 2030, we aim to establish Orion Crusader as the foremost name in robotics and defense innovation, securing a dominant position in key markets and generating annual revenues exceeding $500 million.

Robert Caldwell Robertson III

One of the most innovative Americans according to Peter Thiel

“The Next Larry Ellison“- Retired US Army General

&

Ryan Barbrick

One of the Best Robotics Engineers in the Country

Are

Developing the next generation of life saving technology for N.A.T.O. and U.S. Military

MERLIN -ROBOTIC DIAMOND CUTTING ASSEMBLY LINES

Orion Crusader's Merlin Robotic Diamond Cutting Assembly Lines represent the pinnacle of precision and innovation, seamlessly blending advanced robotics with diamond craftsmanship. These state-of-the-art systems ensure unparalleled accuracy, efficiency, and consistency in diamond cutting, eliminating human error while maximizing output. Proudly based in the USA, the assembly lines uphold the highest standards of quality and security, producing diamonds that reflect both technological excellence and artisanal beauty. With a commitment to innovation and sustainability, Orion Crusader is redefining the diamond industry for a brighter, more brilliant future.

SHOP FOR DIAMONDS NOW

ORION CRUSADER

ADVANCED WEAPON SAFETY REASEARCH LABORATORIES

THE WORLDS MOST ADVANCED WEAPON-SAFETY

At Orion Crusader, we understand the critical importance of gun safety in today's world. Our advanced gun safety Technology is decades ahead of the rest of the industry and provides the highest level of protection for U.S. Citizens

Our cutting-edge technologies incorporate state-of-the-art biometric access controls, and WIFI and Satellite Geofenced Trigger Limitation ensuring that only authorized individuals can operate the firearms in authorized locations. In addition, our advanced safety features include WIFI activated automatic trigger locks and tamper-resistant mechanisms to prevent unauthorized use.
We believe in promoting responsible gun ownership through advanced safety solutions that are easy to use and reliable. Our commitment to innovation and quality sets us apart in the industry, providing peace of mind for gun owners and their communities.

The Device Can Be Chemically Welded to Retrofit existing Gun Models, and with an ultra sleek profile it does not hinder gun performance or ergonomics.

The OC project aurora Smart weapons safety Stands out for its superior design and unparalleled Civilian protection and will soon be required on all new legal firearms.

This technology will prove to be an indispensable part of US Defense Strategy.

ORION CRUSADER IS A PRIVATE NON GOVERNMENTAL ENTITY..

DOING WHAT NEEDS TO BE DONE TO PROTECT AMERICA’S CHILDREN

INNOVATION FOR THE INTELLEGENCE SECTOR

WHILE POLITICIANS ON BOTH SIDES KEEP TALKING

WE ARE

DOING WHAT NEEDS TO BE DONE TO PROTECT AMERICA’S CHILDREN

The year is 2025, and the unthinkable has become our devastating reality: your child is more likely to fall victim to a mass shooting than a car accident. In these desperate times, where chaos looms over a fragile society, Orion Crusader Advanced Weapon Systems emerges as the beacon of hope.

With our cutting-edge, retrofittable firearm safety technology, and our state-of-the-art AI satellite and 6G domestic defense networks, we stand as the vanguard of national security.

𓃭

SPHINX

𓃭 𓃭 𓃭

ANtI TERRORISM AI THAT DOESNT BLINK

𓃭

SPHINX-SOFT BETA VERSION IV

VIGILANT AND HARDENED AI DEFENCE SOFTWARE

Owl Eye Sphinx Version 4: The Sentinel of Digital Vigilance

In the realm of advanced artificial intelligence, Owl Eye Sphinx Version 4 emerges as a marvel, designed to safeguard society by proactively identifying and mitigating potential domestic threats. This cutting-edge program operates as a digital sentinel, scanning the vast expanse of social media to detect and flag activities indicative of extremist behavior or potential acts of violence.

Core Features and Functionality:

Advanced Natural Language Processing (NLP):
- The program employs state-of-the-art NLP algorithms to analyze text, images, and videos across social media platforms.
- It identifies patterns, keywords, and sentiment shifts that align with known indicators of radicalization or violent intent.
Behavioral Pattern Recognition:
- Utilizing machine learning models trained on historical data, Owl Eye Sphinx Version 3 discerns behavioral anomalies and escalating rhetoric.
- It adapts dynamically, learning from new data to refine its detection capabilities.
Real-Time Threat Assessment:
- The system assigns risk scores to flagged content, prioritizing threats based on severity and immediacy.
- It integrates contextual analysis to differentiate between genuine threats and benign expressions, minimizing false positives.
Collaborative Intervention Framework:
- Owl Eye Sphinx Version 3 interfaces with local law enforcement and intelligence agencies through secure communication channels.
- It provides actionable insights, including geolocation data and behavioral profiles, enabling timely intervention.
Ethical Safeguards and Privacy Compliance:
- The program is designed with robust ethical guidelines to ensure compliance with privacy laws and civil liberties.
- It incorporates transparency mechanisms, allowing for oversight and accountability in its operations.

Technical Architecture:

Distributed Cloud Infrastructure: Ensures scalability and resilience, enabling the program to process vast amounts of data in real-time.
Deep Learning Models: Power the program's ability to analyze multimedia content and detect nuanced threats.
Secure API Integration: Facilitates seamless collaboration with law enforcement databases and social media platforms.
Adaptive Algorithms: Continuously evolve to counter emerging threats and adapt to changes in online behavior.

Vision and Impact:

Owl Eye Sphinx Version 3 represents a paradigm shift in public safety, blending technological innovation with ethical responsibility. By acting as an early warning system, it empowers communities and law enforcement to prevent tragedies before they unfold, fostering a safer and more secure society.

Technical Explanation of Sphinx System for Radicalization Detection

1. Data Ingestion & Preprocessing

To detect radicalization, the system would collect and normalize vast amounts of structured and unstructured data, including:

Public Social Media Posts: Twitter, Facebook, Instagram, Reddit, Telegram, and alternative platforms.
Semi-Public Data: Forum activity, dark web discussions, metadata from encrypted communications, and scraped web content.
Law Enforcement & Government Databases: Arrest records, visa applications, travel history, financial transactions (via Suspicious Activity Reports or SARs), and FOIA-exempt internal government records.
IoT & Sensor Data: Geolocation from mobile devices, smart home assistants, and CCTV facial recognition feeds.

To process this data, Natural Language Processing (NLP) pipelines powered by transformer-based models (such as OpenAI’s GPT, Google's BERT, or DeepMind’s Gopher) would extract context, sentiment, and intent from text, speech, and video transcripts. Graph Neural Networks (GNNs) could be employed to map connections between individuals, identifying radicalization clusters.

2. Behavioral & Pattern Recognition Model

The system would use deep learning models trained on historical radicalization cases to detect:

Lexical & Semantic Indicators: Linguistic shifts toward extremist ideologies, coded language, and radical rhetoric.
Engagement Patterns: Increasing interaction with extremist figures, consumption of radicalizing content, and participation in ideological discussions.
Temporal Activity Sequences: Changes in daily habits, unusual travel patterns, or spikes in encrypted communication usage.
Financial Transactions: Purchasing materials commonly used for attacks (e.g., chemicals, weapons, burner phones).

The DeepMind-inspired pattern recognition system could employ Transformer-based architectures (like GPT-4 or Google’s Gemini) that detect subtle cognitive shifts in an individual’s communication—before explicit radicalized intent is expressed. These models would operate within a multi-modal AI framework, fusing text, audio, video, and network metadata for enhanced accuracy.

3. Anomaly Detection & Threat Scoring

Once Sphinx identifies an individual exhibiting radicalization indicators, it would assign a threat probability score using a multi-tier system:

Baseline Monitoring: Low-risk individuals with minor radicalization markers.
Escalation Watchlist: Individuals showing progressive radicalization, flagged for additional AI scrutiny.
Preemptive Intervention: High-risk individuals showing imminent attack indicators (e.g., finalizing logistics, acquiring weapons, posting martyrdom messages).

Advanced Generative Adversarial Networks (GANs) could simulate future behavior scenarios, estimating an individual’s likelihood of escalating to violence. This risk scoring could then trigger human-in-the-loop intervention, where analysts from intelligence agencies review flagged cases.

4. Preemptive Disruption & Law Enforcement Action

Once an individual is flagged as high-risk, Sphinx could autonomously:

Alert Fusion Centers (DHS-backed intelligence-sharing hubs) to coordinate local and federal intervention.
Activate predictive policing algorithms, allowing law enforcement to deploy resources to high-risk areas.
Recommend preemptive engagement tactics, such as placing the individual under surveillance, freezing financial assets, or conducting soft interventions (e.g., community-based de-radicalization programs).

If an attack is deemed imminent, authorities could trigger direct intervention, such as FISA-authorized arrests or counterterrorism raids.

OUR PROGRAMMING TEAM IS CURRENTLY WORKING OVERTIME AND LEVERGING DEEP THINK AI PROGRAMMING TOOLS TO CREATE THE MOST ROBUST VERSION OF THIS SOFTWARE.

SCARRAB

graphene

ARMORIES

WE ARE DEVELOPING THE WORLDS MOST AFFORDABLE GRAPHENE 3D PRINTERS

Project Objective:

To design, develop, and implement groundbreaking manufacturing processes for graphene-based composites, tailored specifically for creating state-of-the-art, lightweight, and highly durable armor solutions for NATO defense forces.

Background:

Graphene, renowned for its extraordinary strength, flexibility, and thermal conductivity, offers immense potential in defense applications. Despite its remarkable properties, current graphene production methods pose challenges in scalability, cost-efficiency, and uniformity. By advancing graphene manufacturing technologies, this project aims to produce high-grade armor capable of withstanding extreme conditions while enhancing operational mobility and protection for NATO personnel and equipment.

Key Goals:

Process Innovation: Develop cutting-edge methods for the scalable, cost-effective, and rapid production of graphene and graphene-enhanced composites.
Armor Design: Engineer next-generation armor incorporating graphene for superior ballistic resistance, durability, and lightweight performance.
Defense Readiness: Align technological outputs with NATO’s specific operational requirements, ensuring compatibility with existing systems.

Methodology:

Material Research & Development:
- Explore new methods of graphene synthesis, such as plasma-enhanced chemical vapor deposition (PECVD), liquid-phase exfoliation, and flash graphene production.
- Investigate composite material configurations that optimize graphene’s properties for defense applications.
Prototyping & Testing:
- Collaborate with NATO research labs to fabricate and test graphene-based armor prototypes under real-world conditions.
- Evaluate prototypes against key performance metrics, including ballistic impact resistance, weight, and thermal resilience.
Manufacturing & Scaling:
- Design and implement scalable production systems, incorporating automation and advanced robotics to maximize efficiency.
- Establish a supply chain network for raw materials, ensuring cost-effective and sustainable production.
Collaboration & Compliance:
- Partner with defense contractors, NATO engineering teams, and research institutions to ensure compliance with defense industry standards and regulations.

Anticipated Challenges:

Achieving uniform graphene quality at scale.
Balancing material cost with performance demands.
Navigating intellectual property and export control regulations specific to NATO defense technologies.

Expected Outcomes:

Deployment of ultra-light, graphene-enhanced body armor for NATO personnel.
Reinforcement of vehicles, aircraft, and critical infrastructure with graphene-based protective coatings.
Establishment of a robust, scalable graphene manufacturing ecosystem with NATO as a strategic beneficiary.

Timeline:

Phase 1 (Year 1): Material R&D and process feasibility studies.
Phase 2 (Year 2): Prototype development and preliminary testing.
Phase 3 (Year 3): Scale-up production and field deployment.

Budget:

Estimated total investment: $50M USD.

Material Research: $15M.
Prototyping: $20M.
Manufacturing Infrastructure: $10M.
Collaboration & Compliance: $5M.

Conclusion:

This project will position NATO at the forefront of defense technology by leveraging the unparalleled potential of graphene. The proposed advancements in manufacturing processes will not only revolutionize defense capabilities but also establish a competitive edge in global security.

standard

GRAPHENE

THE FUTURE OF AEROSPACE

ORION CRUSADER IS WORKING ON PRODUCTION SCALABILITY, AND PATENTING GRAPHENE INDUSTRY SPECIFIC ROBOTICS TO MAKE GRAPHENE AEROSPACE AN AFFORDABLE REALITY

Perfecting graphene-based, robot-assisted production techniques paves the way for an unbreakable future—one where elite Navy SEALs, like the one envisioned here, are outfitted with the pinnacle of innovation: a flexible yet bulletproof armor that redefines both resilience and agility.

standard graphene

Phase 1: Research and Development

Material Sourcing:
- Utilize sustainable sources like carbon fibers or biomass for graphene oxide production2.
- Partner with suppliers specializing in high-quality graphite or graphene precursors.
Process Optimization:
- Implement chemical vapor deposition (CVD) for high-quality graphene sheets.
- Explore exfoliation and plasma treatment for bulk graphene production.
Prototype Testing:
- Develop small-scale prototypes of graphene batteries and armor.
- Test for durability, energy efficiency, and ballistic resistance.

Phase 2: Pilot Production

Facility Setup:
- Establish a pilot production facility with modular equipment for scalability.
- Incorporate automation and robotics for precision and efficiency.
Quality Control:
- Implement rigorous testing protocols to ensure consistency in graphene quality.
- Use advanced imaging and spectroscopy for material analysis.
Market Validation:
- Distribute pilot products to select military and industrial partners for feedback.
- Refine designs based on performance and user input.

Phase 3: Full-Scale Production

Manufacturing Expansion:
- Scale up production facilities to include multiple CVD reactors and exfoliation units.
- Invest in energy-efficient and eco-friendly production technologies.
Supply Chain Integration:
- Build a robust supply chain for raw materials and components.
- Establish partnerships with logistics providers for global distribution.
Workforce Development:
- Train a specialized workforce in graphene production and quality assurance.
- Collaborate with universities and research institutions for talent acquisition.

Phase 4: Commercialization and Innovation

Product Diversification:
- Expand applications to include consumer electronics, aerospace, and automotive industries.
- Develop customizable graphene solutions for specific client needs.
Marketing and Outreach:
- Highlight the unique properties of graphene batteries and armor, such as lightweight durability and high energy density.
- Engage in public-private partnerships to promote adoption in defense and civilian sectors.
Continuous Improvement:
- Invest in ongoing R&D to enhance production efficiency and product performance.
- Monitor market trends and adapt to emerging technologies.

Key Engineering Components

1. Airframe and Structural Design

Material: The airframe would be constructed using graphene-reinforced composites. These materials are incredibly lightweight yet stronger than traditional aluminum or carbon fiber, reducing the overall weight of the aircraft.
Benefits: A lighter airframe decreases energy consumption, allowing for longer flight ranges and higher payload capacities.

2. Energy Storage System

Graphene Batteries: The jet would utilize graphene-based supercapacitors or hybrid batteries. These energy storage systems offer:
- High Energy Density: Enables longer flight durations.
- Rapid Charging: Reduces turnaround time between flights.
- Thermal Stability: Ensures safety under extreme conditions.
Integration: Batteries would be embedded within the aircraft's structure to optimize space and weight distribution.

3. Propulsion System

Electric Motors: High-efficiency electric motors powered by graphene-enhanced conductors. These motors would deliver exceptional power-to-weight ratios.
Fan Design: Graphene-coated fan blades in the engines would improve durability and reduce drag, enhancing overall efficiency.
Cooling System: Graphene's thermal conductivity would be utilized to dissipate heat from the motors and batteries, maintaining optimal performance.

4. Power Management

Graphene Conductors: Electrical systems would use graphene-based wiring for minimal energy loss and maximum conductivity.
Smart Grid: An advanced power management system would distribute energy efficiently across the aircraft, prioritizing critical systems during peak demand.

5. Aerodynamics

Surface Coating: A graphene-based coating on the aircraft's surface would reduce drag and protect against environmental factors like UV radiation and corrosion.
Wing Design: Adaptive wings with graphene actuators could adjust their shape mid-flight for optimal aerodynamic performance.

6. Avionics and Sensors

Graphene Sensors: Lightweight and highly sensitive sensors for real-time monitoring of structural integrity, weather conditions, and system performance.
AI Integration: Advanced AI algorithms would optimize flight paths and energy usage, ensuring maximum efficiency.

7. Environmental Impact

Zero Emissions: Fully electric propulsion eliminates greenhouse gas emissions.
Recyclable Materials: Graphene composites are more sustainable compared to traditional materials.

Challenges and Considerations

Production Scale: Manufacturing high-quality graphene at scale remains a challenge.
Energy Density: While graphene batteries are promising, achieving the required energy density for long-haul flights is still under development.
Cost: Initial costs for graphene materials and technology integration would be high but could decrease with advancements in production techniques.

InovEngine

BY XORCIST MICROSYSTEMS

IS an advanced AI platform designed to revolutionize the process of innovation and patent writing by leveraging cutting-edge science and logical problem-solving across all industries. Here's how it works:

Knowledge Integration: InovEngine would continuously analyze and integrate the latest developments in fields like nanotechnology, quantum computing, bioengineering, and clean energy, ensuring it stays at the forefront of scientific advancements.
Idea Generation: Using an unparalleled reasoning engine, the AI would identify gaps in existing technologies and propose groundbreaking solutions tailored to those needs. It could brainstorm novel inventions by analyzing industry challenges and predicting future trends.
Patent Drafting: Equipped with a deep understanding of legal frameworks and patent requirements, InovEngine would draft comprehensive patent applications with clarity and precision, ensuring compliance with local and international regulations.
Industry Adaptability: This AI would be versatile, serving sectors ranging from aerospace and pharmaceuticals to renewable energy and consumer electronics, adapting its approach based on the unique challenges of each field.
Efficiency and Collaboration: InovEngine could collaborate with human inventors and researchers, providing them with detailed blueprints, prototypes, and technical documentation while enhancing the speed and efficiency of the innovation cycle.
Intellectual Property Protection: The program would incorporate robust tools to assess and defend intellectual property, using AI-driven analysis to evaluate potential infringements or overlaps with existing patents.

In essence, InovEngine would act as a bridge between imagination and implementation, enabling innovators to harness its immense computing power and strategic reasoning to bring visionary ideas to life. What do you think? Does this align with your vision for this program?

XORCIST

MICROSYSTEMS

Framework: Xorcist Microsystems

Core Objectives

Monitor: Aggregate publicly available and authorized data from multiple information-sharing apps and platforms.
Analyze: Identify patterns linked to extremist or harmful activities through machine learning.
Visualize: Generate dynamic, broad-scope activity maps for actionable insights.
Collaborate: Enable secure communication between stakeholders like law enforcement and intelligence agencies.

Technical Components

Data Aggregation Layer
- Sources: Public social media APIs, forums, news websites, communication apps (via authorized channels).
- Data Types: Text posts, images, video metadata, geolocation data (if publicly available), and timestamps.
- Technology:
  - Data Crawlers using Python (e.g., Scrapy for web data scraping).
  - Real-time streaming via Apache Kafka for scalable data ingestion.
  - Compliance tools for legal data collection aligned with regional privacy laws (e.g., GDPR).
Processing and Storage
- Data Preprocessing:
  - Natural Language Processing (NLP) to clean, tokenize, and analyze textual content.
  - Image and video content analysis using computer vision (e.g., YOLOv8 or TensorFlow).
- Storage:
  - Distributed storage system (e.g., Apache Hadoop or AWS S3) for handling massive datasets.
  - Database: NoSQL (MongoDB) for unstructured data, and SQL (PostgreSQL) for structured data.
Analysis and Pattern Recognition
- Machine Learning Models:
  - Sentiment Analysis: Detect hate speech, harmful keywords, or propaganda.
  - Graph Analysis: Use tools like NetworkX or Neo4j to map relationships between entities.
  - Predictive Models: Leverage predictive analytics to identify future movement hotspots.
- AI Frameworks:
  - TensorFlow or PyTorch for deep learning.
  - Pretrained language models like BERT for semantic understanding.
- Anomaly Detection:
  - Use clustering algorithms (e.g., DBSCAN) to find unusual patterns in large datasets.
Data Visualization
- Mapping and Dashboards:
  - Interactive maps with heatmapping functionality using Mapbox or Google Maps API.
  - Dashboards built with tools like Tableau or custom web frameworks (e.g., React + D3.js).
- Real-Time Insights:
  - Streamlined alerts using WebSockets for instant updates.
Security and Privacy
- Encryption: End-to-end data encryption using AES-256.
- User Authentication: Multi-factor authentication (MFA) and secure OAuth protocols.
- Anonymization: Ensuring sensitive data is anonymized to avoid misuse.
- Compliance: Adherence to international laws (GDPR, CCPA) for ethical usage.
Collaboration Tools
- Secure Communication:
  - Built-in communication platform (e.g., Signal Protocol) for authorized entities to share findings.
- Automated Reports:
  - Periodic intelligence reports generated via Natural Language Generation (NLG).
Scalability
- Cloud-Based Infrastructure:
  - AWS, Azure, or Google Cloud for scalable compute and storage capabilities.
- Containerization:
  - Docker and Kubernetes for modular deployment.

SpartanBird

spartonbird version ii-arcane interceptor a lightweight cost effective surface to air interceptor is currently in production image classified-

&

SpartanBirdHive Version III software

SpartanBirdHive Version 3 software is currently in development to give the United States Military, the low altitude volume dominance over all adversaries in a wartime scenareo

ULTRA COST EFFICIENT MILITARY SURVAILLANCE AND PAYLOAD DELIVERY DRONE TECHNOLOGY

DESIGNED TO GIVE THE UNITED STATES MILITARY OVERWEALMING LOW ALTITUDE SUPERIORITY BY SHEAR NUMBERS.

Spartanbird: The Vanguard of Tactical And Numerical Superiority

The Spartanbird is a revolutionary unmanned aerial system (UAS) that redefines the battlefield with its unparalleled speed, innovation, and cost-efficiency. Designed to provide the United States with a decisive numerical advantage, this high-performance drone embodies the principles of agility, resilience, and strategic dominance.

Engineered for intelligence gathering, the Spartanbird can be equipped with state-of-the-art sensors and surveillance systems, enabling it to operate seamlessly in diverse environments. Its advanced optics and real-time data transmission capabilities ensure that commanders have access to critical intelligence, empowering swift and informed decision-making.

In addition to its surveillance prowess, the Spartanbird excels in payload delivery. With a robust yet lightweight frame, it can transport essential supplies, equipment, or tactical payloads to remote or contested areas with precision and reliability. Its modular design allows for rapid reconfiguration, adapting to the dynamic demands of modern warfare.

What sets the Spartanbird apart is its ultra-low production cost, achieved through innovative manufacturing techniques and the use of readily available materials. This affordability ensures that the Spartanbird can be deployed in large numbers, overwhelming adversaries with sheer presence while maintaining operational efficiency.

With its sleek design, high-speed capabilities, and mission versatility, the Spartanbird is more than a drone—it is a force multiplier, a symbol of technological ingenuity, and a testament to the United States' commitment to maintaining superiority on the battlefield.

MEET THE EXECUTIVE TEAM

RC Robertson III

FOUNDER-CEO
Robert Caldwell Robertson III – Visionary Innovator, Serial Entrepreneur, and Modern-Day Polymath
Robert Caldwell Robertson III has consistently distinguished himself as a visionary trailblazer, earning accolades for his innovative spirit and exceptional accomplishments at an astonishingly young age. Recognized as one of the most innovative Americans under the age of 20 by Peter Thiel, Robertson’s entrepreneurial journey began with groundbreaking success. At the age of 19, he introduced the world’s first crowdfunding finance platform for the music industry, Tuentap.com, which achieved recognition by placing in a New York State Business Competition. His pioneering achievements have since cemented his reputation as a forward-thinking disruptor in multiple industries.
Described by a retired U.S. Army General as “the next Larry Ellison, but even more eccentric,” Robertson exemplifies the rare fusion of technical brilliance, audacious creativity, and an indomitable entrepreneurial spirit. His dynamic career spans diverse ventures and innovations, showcasing a capacity to excel in seemingly disparate domains. As a patented inventor and angel investor, he has displayed an uncanny ability to identify emerging opportunities and transform visionary ideas into transformative realities.
Robertson’s multifaceted career is further enriched by his experience as a former clandestine operative for the Central Intelligence Agency, where he honed his analytical prowess and strategic thinking under the most demanding circumstances. His ability to navigate complexity and think several moves ahead has been integral to his success in both private and public ventures.
Beyond his professional achievements, Robertson is a Grand Master of the Worldwide Hermetic Order of Elus Coens, a mystical Christian sect of the Knights Templar. In this capacity, he embodies a commitment to preserving and advancing esoteric wisdom and spiritual traditions, seamlessly blending the realms of historical legacy and modern innovation. His role as a thought leader in this sacred order reflects his dedication to the pursuit of higher understanding and purpose.
Today, as a serial entrepreneur, Robertson continues to push the boundaries of what is possible. His diverse portfolio of ventures is united by a singular goal: to make a profound and lasting impact on the world. Whether through technological innovation, groundbreaking business models, or fostering a deeper connection to the wisdom of the past, Robertson’s work is driven by an unwavering commitment to excellence and a vision for a better future.Called the Next Larry Ellison but even more eccentric By A Retired US Army General.
Robertson A Former Clandestine Operative for the Central Intelligence Agency is a Cereal Entrepreneur Angel Investor and Patented Inventor as well as being Grand Master of the Worldwide Hermetic Order of Elus Coens a Mystical Christian sect of the Knights Templar.
Ryan Barbrick

Co-Founder CTO
Ryan Barbrick – Visionary Robotics and AI Engineer, Co-Founder of Orion Crusader Robotics
Ryan Barbrick stands as one of the most innovative and forward-thinking Robotics and Artificial Intelligence engineers in the nation. Renowned for his ability to seamlessly blend technical brilliance with creative ingenuity, Ryan has earned a reputation as a true trailblazer in the fields of robotics, AI software development, and advanced programming.
Ryan’s expertise extends far beyond engineering; he is also an exceptional web developer and programmer, with a mastery of designing intricate systems that integrate functionality, aesthetics, and cutting-edge technology. His approach to innovation reflects a rare combination of analytical precision and artistic creativity, making him an invaluable force in redefining the possibilities of modern robotics and artificial intelligence.
As co-founder and architect behind the merger of Orion Crusader Robotics and Merlin Robotics, Ryan has worked alongside his counterpart, Robert, to create a powerhouse of innovation and strategy. Together, they are forming the Orion Crusader Advanced Weapon Research Safety Division, a venture poised to revolutionize the intersection of AI-driven safety systems and robotics technologies. Ryan's leadership and technical acumen have been critical in ensuring this new entity will lead the charge in addressing both modern defense needs and global safety challenges.
What truly sets Ryan apart is his relentless drive to push boundaries and his unyielding commitment to innovation that serves a greater purpose. With every project, he demonstrates his passion for engineering solutions that not only redefine technological standards but also prioritize the safety and well-being of individuals and communities worldwide. His unparalleled ability to think creatively and strategically has positioned him as a key figure in shaping the future of robotics, AI, and intelligent systems.
Ryan’s contributions are more than technical feats; they are a testament to his dedication to advancing humanity through thoughtful and impactful technological advancements. Whether as an engineer, innovator, or collaborator, Ryan Barbrick continues to inspire those around him and elevate the work of Orion Crusader to extraordinary heights.
Daniel Luis

COO
Senior Robotics Engineer For Titleiest Manufacturing and Chief Operational Officer for Orion Crusader.
Daniel Luis – Chief Operating Officer and Robotics Engineer at Orion Crusader
Daniel Luis serves as the Chief Operating Officer and lead Robotics Engineer at Orion Crusader, bringing unparalleled expertise and strategic vision to the organization. With a background in advanced robotics and system design, Daniel is instrumental in driving the operational excellence and technological innovation that define Orion Crusader's mission to pioneer state-of-the-art defense and safety technologies.
A gifted engineer and visionary leader, Daniel has a proven track record of designing and developing groundbreaking robotics systems tailored for both defense applications and civilian safety initiatives. His relentless pursuit of excellence and commitment to advancing robotics technology have placed him at the forefront of the industry. From conceptual designs to full-scale deployment, his expertise ensures that each Orion Crusader project is both cutting-edge and flawlessly executed.
As COO, Daniel leverages his technical acumen alongside his operational leadership to ensure seamless integration between the company’s engineering breakthroughs and its strategic goals. His ability to align complex technical projects with business objectives makes him a cornerstone of Orion Crusader’s ongoing success.
Beyond his technical prowess, Daniel is celebrated for his collaborative approach and his ability to inspire teams to push the boundaries of innovation. His work is not only shaping the future of robotics but also contributing to a safer, more secure world through advancements in automation, drone technology, and weapon safety systems.
Sir. Alan Belmont QC PHD

Sir Alan Belmont QC, PhDExecutive Legal Councilor and Corporate Attorney
Sir Alan Belmont QC of London holds the esteemed position of Interim Legal Counsel to the Executive Board, where his unparalleled expertise and strategic acumen command both respect and apprehension as a Former Chief Lawyer for the British Intelligence Service
As the organization’s formidable Legal Advisor, Sir Belmont has meticulously designed a comprehensive and nearly unassailable counter-lawsuit strategy, preemptively neutralizing potential adversaries in both the United States and the Commonwealth of the United Kingdom. His readiness to initiate and decisively prosecute litigation extends beyond domestic borders, reaching the highest echelons of international courts.
In a pointed declaration, Sir Alan Belmont QC underscores his alliance with R.C. Robertson III, a close associate of his personal attorney, the illustrious Mr. Black of Providence. Mr. Black, the former Chief of British Petroleum’s Corporate Legal Division, is renowned for his triumphant defense of BP following the catastrophic act of eco-terrorism that targeted an offshore oil rig in the Gulf of Mexico.
This alliance exemplifies the organization's commitment to employing legal excellence and unrelenting resolve in safeguarding its interests against any and all challengers.
JUNIOR Porfirio Garcia

Defensive Operations Director and Chief Security Officer
At just Under 7 feet tall Porfirio Garcia, Chief Security Officer of Orion Crusader, is the embodiment of strength, intelligence, and precision. With the imposing stature and presence of a professional NFL linebacker, he commands attention and respect wherever he goes. Yet, it is not just his formidable physique that sets him apart; it is his unparalleled expertise as a master mechanic and his razor-sharp instincts that make him an invaluable asset to Orion Crusader.
Porfirio's profound grasp of mechanical and engineering principles positions him as a true virtuoso in his field. He has the rare ability to bridge the gap between intricate technical design and the practical demands of security, ensuring that every clandestine engineering development at Orion Crusader is safeguarded to the highest standards. His eye for detail and innate understanding of complex machinery make him not just a guardian of assets but a contributor to their very design and innovation.
With the vigilance of a hawk and the strategic mind of a seasoned tactician, Porfirio oversees high-stakes security operations with an unyielding commitment to excellence. He combines his engineering acumen with a keen ability to anticipate and neutralize potential threats, creating an impenetrable shield around Orion Crusader's most sensitive projects. His leadership and dedication inspire a culture of trust and unrelenting vigilance within his team, making him a cornerstone of Orion Crusader's success.
In short, Porfirio Garcia is not merely a protector; he is a visionary security expert whose blend of strength, intelligence, and mechanical brilliance ensures that Orion Crusader's innovations remain both groundbreaking and impervious to compromise.