Alexander Derkatsch

Systems Engineer → AI Orchestrator

Bridging aerospace domain expertise with AI-augmented workflows. NASA Artemis experience meets frontier AI orchestration. Building the future where humans direct AI agents to solve complex problems.

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About

Aerospace systems engineer learning to orchestrate AI. Domain expertise in NASA human-rated spaceflight + demonstrated ability to build products by directing frontier AI models. Published researcher on complexity in high-reliability organizations.

The Shift: Task Automation → AI Orchestration

My career arc mirrors Marc Andreessen's thesis on AI and work: jobs are bundles of tasks, and AI automates tasks, not entire jobs. In aerospace, I learned systems thinking, safety-critical design, and integration under NASA human-rating standards—skills AI can't replicate. The atomic tasks (calculations, simulations, document synthesis) are increasingly automatable. The valuable work is orchestration: defining objectives, selecting/directing AI tools, validating outputs against domain constraints, and iterating.

I'm teaching myself to become an "AI orchestrator" in the Andreessen sense—someone who tells AI how to build products. Not "coder" or "engineer" in the traditional sense, but a hybrid: domain expert + AI workflow designer + product builder.

Current Work: AI-Orchestrated Product Development

bigBespoke LLC (2024-present): Building copapp.ai—an AI-powered platform for improving law enforcement decision-making under pressure. This is AI orchestration in practice: I direct Cursor (AI pair programmer), frontier models (Claude, GPT), and Firebase services to build fullstack architecture I couldn't have coded from scratch two years ago. React frontend, Node backend, OIDC + PKCE auth, rate limiting, multi-tenant data models, Stripe payments. I orchestrate the AI agents, validate outputs, integrate pieces, write domain content (PERF/ICAT guidelines), pilot with real officers, iterate. No customers yet—still learning the orchestration patterns.

This demonstrates the emerging skill: I don't write every line of code, I direct AI to generate it, then apply domain judgment (security, architecture, user experience) to validate and refine. The job is less "write React components" and more "orchestrate AI tools to ship a product that solves a complex human-systems problem."

NASA Artemis Experience

Beyond Gravity (2022-2025): Systems engineer for SLS Block 1B Universal Stage Adapter—the composite structure connecting Orion to the rocket for Artemis 4+. Owned requirements integration, risk management, human systems safety documentation, and compliance with NASA human-rating standards. Spent 12 weeks in Sweden resolving NASA-standard compliance for the Payload Separation System with the Leidos-Dynetics prime. Navigated DoD and NASA projects spanning Army/Space Force requirements, DOORS traceability, and MIL specifications.

Background

Cal Poly Aerospace Engineering (2014-2021): Conducted research on complexity management in high-reliability organizations under faculty guidance (2020-2022). Published at AIAA SciTech 2022 and INCOSE Detroit. Led spacecraft C&DH and ground systems for senior capstone (interstellar object intercept mission). Competed with Cal Poly Hyperloop team at SpaceX—top 22 worldwide, authored test manuals and ran braking system experiments.

Princeton Airport (2016-2017): Flight Coordinator managing schedules for 60+ student pilots and 100 renters. Earned Private Pilot License in 2017.

What I Offer

Domain expertise in safety-critical systems: Requirements integration, verification/validation, human systems safety, NASA human-rating standards, DOORS traceability, risk management, compliance navigation (MIL specs, DoD/Army/Space Force requirements). This knowledge is hard for general AI to replicate and increasingly valuable as AI handles routine engineering tasks.

AI orchestration capability: Demonstrated ability to direct frontier AI models (Cursor, Claude, GPT) to build production systems. Not just prompting—full workflow orchestration: planning, task decomposition, tool selection, output validation, integration, iteration. Built CopApp fullstack using AI-augmented development from zero knowledge.

Hybrid mindset: I go wide (aerospace, software, research, human factors) but can dive deep when needed. Comfortable working alone (building products end-to-end) or in large teams (NASA/prime contractor environments). The through-line: understanding and building systems that improve human decision-making in complex, high-pressure environments.

Future-positioned: Not "aerospace engineer" or "software developer" in traditional silos—more like "AI-augmented systems architect" or "AI orchestrator for complex domains." I'm learning to be the person who defines what needs to be built, orchestrates AI agents to build it, and validates it against domain constraints that matter (safety, reliability, human factors).

Featured Projects

bigBespoke LLC · In Development

CopApp.ai

AI-Powered Training Platform for Law Enforcement Decision-Making

A demonstration of AI orchestration in practice: Built a production fullstack application by directing AI agents rather than hand-coding every component. Used Cursor (AI pair programmer), Claude/GPT for architecture decisions, and frontier models for content generation. I define objectives, decompose into tasks, select tools, validate outputs against domain requirements (security, auth, performance, UX), and iterate. This is what Andreessen calls "telling the AI how to build products"—orchestrating multiple AI capabilities to ship something real.

The product improves law enforcement decision-making under pressure. Piloted with badged officers. No customers yet—still refining the orchestration patterns and domain content (PERF/ICAT frameworks).

Fullstack JavaScript

React frontend with hooks, context providers, dynamic routing. Node backend with 30+ Cloud Functions endpoints. Firebase suite: Auth, Firestore (multi-tenant data model), Storage, Hosting. Also worked with Vercel, Supabase, Clerk alternatives.

Security & Auth

Implemented OIDC Authorization Code + PKCE: JWKS signature validation, strict token checks, secure cookie sessions (HttpOnly, Secure, SameSite), refresh-token rotation with reuse detection. RBAC with privilege-escalation checks. Granular Firestore security rules.

Performance & Scale

Per-tenant token-bucket rate limiting with hot-key sharding. Moved heavy LLM/media jobs to queues (Pub/Sub) with circuit breakers and jitter retries. Caching and index tuning reduced p95 latency. HMAC + timestamp/nonce replay protection for webhooks. Idempotency keys for safe retries.

AI Integration

Custom prompt engineering, multi-step reasoning chains, generative image and text, conversation context management, sentiment extraction. Real-time chat interface with video/animation performance tuning.

Content & Testing

Wrote thousands of words of scenario-based training content using PERF and ICAT guidelines. Designed game-like exercises. Piloted with badged officers, gathered feedback, iterated on both content and technical implementation.

Business Operations

End-to-end Stripe Checkout + Webhooks for subscription lifecycle. Departmental dashboards with aggregation and analytics. Tailwind-based responsive UI for solo and enterprise accounts.

The Problem

How do people in positions of power make better decisions under pressure when asymmetric power dynamics are at play? CopApp tackles this through law enforcement, but the core challenge—cognitive performance under stress in power-imbalanced roles—applies to any high-stakes decision environment. The goal: find patterns in how people think under pressure and build systems that improve outcomes.

Tech Stack

React + Node.js Firebase Suite OpenAI / Claude OIDC + PKCE Stripe Payments Cloud Functions Firestore Tailwind CSS Git + NPM Python (analytics)

Aerospace & Research Work

NASA Artemis

SLS Block 1B Universal Stage Adapter

Systems engineer at Beyond Gravity (2022-2025) for the composite structure connecting Orion to the rocket for Artemis 4+. Owned requirements integration, verification, human systems safety, and compliance with NASA human-rating standards. Managed risks, navigated DoD/NASA specifications (DOORS, MIL standards), coordinated hazard closure through test artifacts. Heavy use of Python for engineering analysis.

Human-Rated Spaceflight Systems Engineering Safety & Risk CFRP
International

Payload Separation System (Sweden)

Spent 12 weeks in Linköping, Sweden working on NASA Exploration Upper Stage subsystem. Resolved NASA-standard compliance deadlock between Beyond Gravity and Leidos-Dynetics prime. Identified production lifecycle improvements (material selection, fastener methodology). Reviewed incident data, determined risk levels, coordinated mitigations, and closed hazard records.

NASA Standards Prime Integration Process Improvement
Research

Complexity in High-Reliability Organizations

Published research at AIAA SciTech 2022 ("Managing Complexity through Quantifying Communication in HROs") and INCOSE Detroit 2021 ("Managing Complexity through Collaborative Intelligence"). Developed frameworks to quantify communication patterns and collaborative intelligence in aerospace teams. Goal: find deep patterns in language and behavior that enable positive control of emergent properties in complex systems.

HRO Theory Communication Analysis Systems Thinking
Cal Poly

Spacecraft Design & Hyperloop

Senior Capstone (2020-2021): Led C&DH and ground systems for interstellar object intercept mission. Designed ground comms strategy for 7 AU range, 100 kbps downlink. Hyperloop (2018-2019): Top 22 worldwide at SpaceX competition. Authored test manuals, ran braking experiments (MATLAB), heat transfer analysis for 80mph→0 in under 8 seconds.

Mission Design Test Engineering Team Leadership

Publications

Research on complexity management and high-reliability organizations in aerospace contexts.

View Google Scholar Profile
2022 Conference Paper

Managing Complexity through Quantifying Communication in High Reliability Organizations

AIAA SciTech Forum, January 2022 (Paper #2022-0994)

Presents a quantitative framework for analyzing communication patterns in high-reliability organizations. Explores how measuring communication structure and flow enables teams to identify failure modes before they manifest, improving operational safety in aerospace and other complex technical environments.

Read Paper
2021 Conference Paper

Managing Complexity through Collaborative Intelligence

INCOSE International Symposium, Detroit, November 2021 (Paper #129)

Examines how collaborative intelligence frameworks enable organizations to navigate complex system challenges through distributed cognition and coordinated action. Proposes novel approaches to enhancing operational efficiency in aerospace by understanding and leveraging emergent team properties.

Read Paper

Areas of Expertise

Aerospace Systems Engineering

Requirements integration, verification, and lifecycle management for NASA human-rated spaceflight hardware. DOORS traceability, MIL/NASA specifications, composite structures (CFRP), test campaigns, and production flow optimization.

Fullstack Development

React + Node.js, Firebase suite (Auth, Firestore, Functions, Storage), OIDC + PKCE authentication, rate limiting, multi-tenant architectures, serverless design, Stripe payments, AI/LLM integration, and cloud deployment (Firebase, Vercel, Supabase).

Safety & Risk Management

Human systems safety for NASA missions. Hazard analysis, risk assessment, mitigation coordination, DoD/Army/Space Force requirements navigation, and verification through test artifacts. Privilege escalation and security hardening for web applications.

Complexity & HRO Research

Published frameworks for quantifying communication and collaborative intelligence in high-reliability organizations. Finding deep patterns in language and behavior that enable positive control of emergent properties in complex systems.

Technical Integration

Python for engineering analysis and automation. MATLAB for modeling and data analysis. Git workflow, CI/CD pipelines, npm package management, Firebase emulators, and DevOps tooling for rapid iteration.

Cross-Domain Collaboration

Experience working across organizational boundaries: prime contractors (Leidos-Dynetics), international teams (Sweden), NASA customers, DoD requirements authorities, and diverse stakeholder groups. Technical lead, IPT lead, and deputy program manager roles.

Resume

Comprehensive overview of experience, education, and technical capabilities.

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Get In Touch

Exploring opportunities at the intersection of domain expertise and AI orchestration. Open to conversations about:

AI-augmented aerospace roles: Orchestrating AI for simulation, design optimization, requirements analysis, or safety-critical systems in aerospace/defense
Hybrid AI product roles: "AI orchestrator," "AI systems architect," or emerging titles combining domain expertise + AI workflow design + product building
CopApp partnership/investment: AI-powered training platform for high-stakes decision-making in power-imbalanced contexts (law enforcement, emergency response)
Complex systems + AI: Roles bridging HRO theory, safety-critical design, and AI/ML integration for organizations managing high-consequence operations
ai.derkatsch@gmail.com alexi@copapp.ai +1 (609) 815-0257 @AlexiDerkatsch