Distributed Systems Architect | Protocol & Platform Engineer
Connecticut, United States

Portfolio

• quantumohi.com
• onegodian.org
• qrv.quantumohi.com

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Professional Summary

Distributed systems architect and protocol engineer focused on verification infrastructure, registry-based platforms, and secure identifier resolution systems.

Designer of the QR-V™ verification architecture, a registry-anchored protocol model that resolves QR-encoded identifiers into structured verification records through resolver services and cryptographic validation.

Experience includes building distributed verification frameworks, registry data models, API platforms, and technical specifications describing protocol architecture and verification workflows.

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Core Engineering Competencies

Distributed Systems

• Distributed registry infrastructure
• Verification node networks
• Resolver services
• Microservices architecture
• Event-driven systems

Protocol Engineering

• Protocol specification design
• Identifier resolution systems
• Registry interoperability models
• Network architecture modeling

Security & Cryptography

• SHA-256 hashing
• Ed25519 digital signatures
• Public-key verification
• Revocation infrastructure
• Secure audit logging

Backend Engineering

• Node.js
• TypeScript
• REST API architecture
• Verification API design

Data Infrastructure

• Registry databases
• Structured verification records
• Immutable audit logs

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Professional Experience

Founder & Lead Architect

Onegodian Technology Systems
Connecticut | Self-Employed

Design and development of distributed verification infrastructure, registry platforms, and protocol specifications for identity, document, asset, and product authentication systems.

Work includes architecture design, protocol modeling, registry schema design, and API specification development.

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QR-V™ Verification Architecture

Designed the QR-V verification model, an architecture that resolves QR-encoded identifiers into registry-anchored records verified through cryptographic validation.

The system architecture includes:

• QR identifier encoding layer
• distributed registry infrastructure
• verification node architecture
• resolver services
• cryptographic validation workflows

Potential verification use cases include:

• identity credentials
• documents and certificates
• supply-chain products
• financial instruments
• physical assets
• property records

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Distributed Verification Network Model

Architected a federated verification framework enabling independent registries to publish authoritative records while remaining interoperable under a shared verification model.

Infrastructure components include:

• registry databases containing canonical records
• verification nodes processing validation requests
• client systems initiating verification queries

Example verification flow:

Scan → Resolver → Registry Lookup → Signature Validation → Verification Response

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Verification Registry Infrastructure

Designed registry systems capable of storing structured verification records containing:

• issuer metadata
• verification status
• timestamps
• cryptographic hashes
• digital signatures

These records serve as authoritative references linked to QR-encoded identifiers used in verification workflows.

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Verification API Platform

Designed API architecture supporting:

• verification requests
• registry record creation
• signature validation
• revocation checks
• verification responses

APIs are structured for public verification services and developer integrations.

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Security Architecture

Designed a security model addressing threats including:

• QR code cloning
• document forgery
• fake registry records
• replay attacks

Security controls include:

• cryptographic signatures
• TLS encryption
• revocation lists
• distributed verification nodes.

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Selected Engineering Achievements

• Designed a QR-identifier resolution model conceptually similar to DNS-style lookup architectures.
• Produced a distributed verification network architecture supporting federated registry infrastructure.
• Developed verification frameworks supporting identity, document, asset, and product authentication.
• Authored developer documentation describing protocol architecture and verification infrastructure.

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Technical Publications

QR-V™ Verification Architecture Specification

Technical documentation describing:

• identifier resolution architecture
• registry infrastructure design
• verification APIs
• cryptographic validation workflows

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Areas of Engineering Focus

• Trust infrastructure
• Verification networks
• Distributed registry systems
• Protocol architecture
• Cryptographic validation frameworks

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Professional Profile

Systems architect focused on designing verification infrastructure and registry-based trust systems through distributed architectures, protocol design, and cryptographic validation.

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Practical Advice

For job applications you should maintain two separate resumes:

1. Tech Industry Resume

Used for:

• software engineering roles
• infrastructure engineering
• platform / backend engineering
• security engineering

(the version above)

2. Local Employment Resume

Used for:

• restaurant
• hospitality
• retail
• general work

This version should be short and non-technical.