KIERAN M. SMITH

Robotics Engineer | Defense R&D | Full Stack Developer

Kieran Michael Smith

1st Class MEng Graduate | Innovation Leader

Defense Technology R&D

Implemented state-of-the-art Focal Stable DINO computer vision systems and developed embedded firmware solutions using C++ for defense applications.

Academic Excellence

Achieved 1st Class Honours (4.0 GPA) in Integrated Masters of Robotics and Mechatronics from University of Hull with distinction.

Innovation Leadership

Hult Prize Challenge participant in Boston, MA, collaborating with MBA students on sustainable fashion innovation solutions.

CAREER JOURNEY

Professional Experience & Development

December 2024

Bolt Hackathon - Technical Lead

Fraud Dogs | AI Antifraud Platform | Team of 3

Leading development of an AI-driven antifraud system for B2B transaction protection. Architecting innovative solutions for chargeback rule creation and real-time transaction analysis.

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2024 - Present

Full Stack Developer

Independent Study & Development

Mastering comprehensive web development including backend systems, frontend frameworks, domain architecture, and API integration following defense industry experience.

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2024

Graduate Software Engineer

Defense Industry R&D

Implemented state-of-the-art Focal Stable DINO computer vision systems. Developed embedded firmware devices using C++ and created comprehensive CNN documentation for cross-comparison analysis.

2020 - 2024

Robotics & AI Specialist

University of Hull - Academic Research

Achieved 1st Class Honours developing autonomous AI surveillance drones, vision-enhanced rovers with CNN object recognition, and advanced microprocessor firmware solutions.

January 2023

Innovation Team Lead

Hult Prize Challenge - Boston, MA

Led technical strategy for sustainable fashion solutions, collaborating with MBA students in strategic product development and demonstrating leadership on an international platform.

EDUCATION

Academic Foundation & Continuous Learning

MEng Robotics & Mechatronics

2020 - 2024 | 1st Class Honours

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HNC General Engineering

2020 | Foundation

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2024 - Present

Full Stack Development

Independent Study

Advanced training in modern web technologies, backend systems, frontend frameworks, API development, and comprehensive domain architecture.

July 2023

Crisis Management Course

Stanford University

Specialized course in crisis strategies and management, exhibiting commitment to excellence and pursuing additional business acumen development.

Python | C# | C++

TensorFlow | Keras

ROS | Computer Vision

CAD | SolidWorks

Embedded Systems

Full Stack Web Dev

API Development

Machine Learning

CONTACT

Professional Inquiries & Collaboration

📧

[email protected]

📱

Phone (Click to copy)

+44 7821 513216

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Professional Profile

Availability

Available for full-time opportunities, consulting projects, and strategic collaborations. Response time: 24-48 hours for professional inquiries.

University of Hull

MEng Robotics and Mechatronics | 2020-2024

Academic Excellence

Achieved 1st Class Honours (4.0 GPA) in the integrated Masters program, specializing in advanced robotics, autonomous systems, and AI development. This comprehensive program combined theoretical foundation with hands-on engineering experience, preparing for leadership in robotics and defense technology.

Key Projects & Achievements

Vision-Enhanced Autonomous Rover

Omni-directional rover with Jetson TX2, CNN object recognition, and magnetic gripper control system.

AI Surveillance Drone

Autonomous drone achieving 88% human detection accuracy with gesture control and real-time obstacle avoidance.

Computer Aided Design

Advanced SolidWorks modeling with topology optimization, stress analysis, and photorealistic rendering capabilities.

Robotics Simulation & Testing

Advanced simulation platforms using ROS, Gazebo, and Webots for virtual prototyping and algorithm validation.

Microprocessor Design

Low level embedded systems development with circuit schematics, component integration, and extremely efficient firmware.

Embedded Systems

Wired components, analyzed circuit schematics, coded systems to work together creating flawless and efficient solutions.

Technical Development

Specialized coursework included advanced computer vision, machine learning implementation, embedded systems design, and autonomous navigation algorithms. Developed proficiency in Python, C++, ROS, TensorFlow, and embedded firmware development while working with cutting-edge robotics hardware.

Industry Preparation

The program's emphasis on practical application and industry collaboration provided direct preparation for defense R&D work. Strong foundation in system integration, project management, and technical documentation that proved invaluable in professional engineering roles.

Vision-Enhanced Autonomous Rover

Masters project developing an advanced omni-directional autonomous rover platform equipped with computer vision capabilities and precision manipulation systems. This project demonstrated integration of multiple cutting-edge technologies in robotics and AI.

Technical Specifications

Computing Platform

NVIDIA Jetson TX2

Vision System

CNN Object Recognition

Mobility

Omni-directional Drive

Manipulation

Magnetic Gripper Control

Programming

Python, C++, ROS

AI Framework

TensorFlow, OpenCV

Key Achievements

Successfully implemented real-time object detection and classification with 92% accuracy rate. Developed autonomous navigation algorithms enabling precise movement in complex environments. Integrated mechanical, electrical, and software systems resulting in a fully functional prototype.

Technical Challenges Solved

Overcame computational limitations through optimized neural network architectures. Solved precision control challenges in omni-directional movement systems. Developed robust sensor fusion algorithms for reliable environmental perception.

AI Surveillance Drone

Honours project creating an autonomous surveillance drone with advanced human detection capabilities and gesture-based control systems. This project showcased expertise in aerial robotics, computer vision, and real-time AI processing.

Technical Specifications

Detection Accuracy

88% Human Detection

Control Interface

Gesture Recognition

Navigation

Autonomous Flight

Safety Systems

Obstacle Avoidance

Processing

Real-time AI

Development

Solo Project

Innovation Highlights

Pioneered gesture-based drone control using computer vision algorithms. Implemented advanced machine learning models for reliable human detection in various environmental conditions. Developed comprehensive safety protocols for autonomous operation.

Applications & Impact

Project demonstrated practical applications in security, search and rescue, and surveillance operations. The autonomous capabilities and human detection accuracy positioned this work at the forefront of civilian and defense drone technology.

Computer Aided Design

Advanced mechanical design and analysis using industry-standard CAD software. Extensive experience in complex 3D modeling, engineering analysis, and photorealistic visualization for professional engineering documentation and presentations.

Technical Capabilities

CAD Platform

SolidWorks Professional

Analysis

FEA Stress Analysis

Optimization

Topology Studies

Visualization

Photorealistic Rendering

Documentation

Technical Drawings

Validation

Design Studies

Design Excellence

Developed expertise in complex mechanical assemblies, parametric modeling, and design optimization. Created detailed engineering drawings with precise dimensioning, tolerancing, and manufacturing specifications for production-ready designs.

Engineering Analysis

Performed comprehensive finite element analysis (FEA) for stress distribution, thermal analysis, and modal studies. Utilized topology optimization to achieve optimal material distribution while maintaining structural integrity and minimizing weight.

Professional Visualization

Created high-quality photorealistic renderings and technical animations for design presentations and client communications. Mastered advanced material properties, lighting, and environmental settings for professional-grade visualizations.

Robotics Simulation & Testing

Advanced robotics simulation and virtual prototyping using industry-standard platforms. Extensive experience in creating realistic robotic environments, implementing control algorithms, and validating system performance before physical deployment.

Simulation Platforms

Framework

ROS (Robot OS)

Physics Engine

Gazebo Simulator

Development

Webots Platform

Modeling

URDF/SDF

Programming

Python, C++

Integration

RViz Visualization

Virtual Prototyping

Developed complex robotic systems in virtual environments, allowing rapid iteration and testing without hardware constraints. Created accurate physics models, sensor simulations, and environmental conditions for realistic system validation.

Algorithm Development

Implemented and tested navigation algorithms, path planning, and autonomous behaviors in simulated environments. Validated control systems, sensor fusion, and decision-making algorithms before hardware implementation, significantly reducing development time and costs.

System Integration

Mastered ROS ecosystem including node communication, topic publishing/subscribing, and service calls. Integrated multiple robotic subsystems and created comprehensive testing scenarios for complex multi-robot coordination and collaboration.

Microprocessor Design

Low level embedded systems development with circuit schematics, component integration, and extremely efficient firmware.

Technical Implementation

Development Level

Low-level Embedded

Circuit Design

Custom Schematics

Integration

Component Integration

Firmware

Optimized Efficiency

Programming

Assembly & C++

Performance

Real-time Processing

Circuit Design & Schematics

Developed comprehensive circuit schematics for embedded microprocessor systems, including power management, signal routing, and component integration. Designed custom PCB layouts optimized for performance and electromagnetic compatibility.

Firmware Optimization

Created highly efficient firmware solutions using low-level programming techniques to maximize processor utilization and minimize power consumption. Implemented real-time operating systems and interrupt-driven architectures for responsive embedded applications.

Embedded Systems

Comprehensive embedded systems development from circuit design to system integration. Wired components, analyzed circuit schematics, and coded systems to work together creating flawless and efficient solutions.

Technical Capabilities

Circuit Design

Schematic analysis

Prototyping

PCB development

Integration

Component wiring

Programming

Hardware drivers

Testing

System validation

Efficiency

Resource optimization

Hardware Integration

Expert in reading and implementing complex circuit schematics. Developed skills in component selection, wiring, and system integration to create robust embedded solutions.

System Excellence

Created flawless embedded systems through meticulous attention to detail and comprehensive testing. Achieved extremely efficient operation through optimized code and hardware design.

East Riding College

HNC General Engineering | 2020

Engineering Foundation

Comprehensive Higher National Certificate program that provided essential engineering principles and technical groundwork. This foundational course covered mechanical engineering, electrical systems, materials science, and mathematical modeling - establishing the core knowledge base for advanced robotics specialization.

Technical Skills Development

Hands-On Engineering

Learned to use milling machines, pillar drills, lathes, chop saws, and other tools. Developed skills in reading datums and accurately crafting from them.

Design & Modeling

2D CAD for datum work and technical drawing fundamentals.

ISO Standards & Workplace Management

Studied Kaizen and other workplace management methodologies and standards.

Materials Science

Calculating stress beams and understanding material properties for engineering applications.

Academic Transition

This program served as the perfect stepping stone to university-level engineering study. The comprehensive curriculum and practical approach provided confidence and competence to excel in the demanding MEng Robotics program at Hull University.

Professional Preparation

Developed essential engineering fundamentals, problem-solving methodologies, and technical communication skills. The program's emphasis on practical application and industry-standard practices established a solid foundation for advanced robotics and defense technology work.

Hands-On Engineering

Comprehensive workshop training that provided hands-on experience with industrial machinery and precision tools. This practical foundation was essential for understanding manufacturing processes and engineering principles.

Equipment & Skills

Milling Machines

3-axis operation

Lathes

Precision turning

Pillar Drills

Accurate drilling

Chop Saws

Material cutting

Datum Reading

Technical drawings

Precision Crafting

Tolerance work

Practical Application

Developed proficiency in reading technical drawings and datums, translating 2D specifications into precise 3D components. Learned to work within tight tolerances and understand the relationship between design intent and manufacturing capability.

Design & Modeling

Focused on 2D Computer-Aided Design for creating precise technical drawings and datum work. This foundational skill in CAD became the basis for more advanced 3D modeling and engineering design work in later studies.

Technical Capabilities

Software

2D CAD Systems

Drawing Types

Technical & Datum

Standards

BS 8888

Precision

0.01mm accuracy

Design Fundamentals

Mastered the creation of detailed technical drawings including orthographic projections, sectional views, and assembly drawings. Developed understanding of geometric dimensioning and tolerancing (GD&T) principles essential for manufacturing communication.

ISO Standards & Workplace Management

Comprehensive study of international standards and workplace management methodologies. Focused on continuous improvement principles and quality management systems essential for modern engineering environments.

Key Methodologies

Kaizen

Continuous Improvement

5S System

Workplace Organization

ISO 9001

Quality Management

Lean Principles

Waste Reduction

Implementation Skills

Learned to implement workplace efficiency improvements through systematic approaches. Developed understanding of how standardized processes and continuous improvement culture contribute to engineering excellence and operational efficiency.

Materials Science

In-depth study of material properties and structural analysis, focusing on stress calculations and beam theory. This knowledge became fundamental for later work in robotics design and structural optimization.

Technical Analysis

Stress Analysis

Beam Calculations

Material Testing

Tensile & Compression

Failure Analysis

Safety Factors

Properties Study

Metals & Polymers

Engineering Applications

Applied theoretical knowledge to practical engineering problems, calculating load distributions, safety factors, and material selection for specific applications. This foundation proved invaluable for designing robust robotic systems and understanding structural limitations in mechanical design.

Full Stack Development Journey

Independent Study & Development | 2024 - Present

Comprehensive Web Development Mastery

Following my defense industry experience, I embarked on an intensive self-directed journey to master full stack development. This comprehensive learning path encompasses everything from database architecture to distributed systems, server infrastructure, and modern web technologies.

Backend Infrastructure & Databases

Core Technologies

Distributed Database

Apache Cassandra

Relational Database

PostgreSQL

Server Architecture

Node.js Async Design

Infrastructure

Bare Metal Servers

Desktop Apps

Electron Framework

Web Hosting

Cloudflare Services

Server Architecture & Optimization

Mastered the art of reconfiguring standard computers into high-performance full-time servers. Developed deep expertise in Node.js server efficiency by carefully designing asynchronous architectures that maximize throughput and minimize latency. This includes implementing sophisticated event loops, worker threads, and optimized I/O operations for handling thousands of concurrent connections.

Key Technical Achievements

Automated Bot Infrastructure

Developed sophisticated bot systems with Cassandra integration for real-time status monitoring, allowing servers and clients to track operational states.

Complete Web Solutions

Built websites from scratch using Cloudflare, configuring port rules, port forwarding, and creating custom HTML for professional web presence.

API Development & Integration

Leveraged multiple APIs to create sophisticated server systems that aggregate and display real-time information to users efficiently.

Cross-Platform Applications

Learned Electron framework to develop and distribute desktop applications across multiple platforms with native functionality.

Advanced Systems & Algorithms

Engineered highly sophisticated algorithms for automated bot operations, including intelligent scheduling, failure recovery, and distributed task management. These systems utilize Cassandra's distributed architecture to maintain consistency across multiple nodes while providing real-time updates to monitoring dashboards. The implementation includes custom heartbeat protocols, status aggregation algorithms, and efficient data pipelines that ensure sub-second update latency even under heavy load.

Infrastructure & DevOps

Gained practical experience in transforming consumer hardware into enterprise-grade server infrastructure. This includes BIOS optimization, network configuration, implementing redundancy systems, and creating automated deployment pipelines. Mastered the intricacies of port management, firewall configuration, and secure remote access protocols to maintain production systems with 99.9% uptime.

Automated Bot Infrastructure

Technical Implementation

Database

Apache Cassandra

Architecture

Distributed Systems

Monitoring

Real-time Status

Scale

1000+ instances

Scheduling

Intelligent Task Management

Recovery

Automated Failure Handling

Advanced Algorithm Implementation

The implementation includes custom heartbeat protocols, status aggregation algorithms, and efficient data pipelines that ensure sub-second update latency even under heavy load. Built scalable architecture supporting thousands of concurrent bot instances with intelligent load balancing and resource optimization.

Distributed Task Management

Developed sophisticated scheduling algorithms that dynamically allocate resources based on system load and priority queues. The failure recovery system automatically detects and restarts failed processes while maintaining data integrity across the distributed network.

Complete Web Solutions

Built comprehensive web infrastructure from domain acquisition to secure deployment using Cloudflare services. Implemented enterprise-grade security with proper DNS configuration, port forwarding, and secure HTTP connections for professional web applications.

Infrastructure Components

CDN & Security

Cloudflare

Domain Management

DNS Configuration

Network Security

Port Forwarding

Protocol

Secure HTTP/HTTPS

Analytics

Traffic Analysis

Performance

99.9% uptime

Domain & DNS Management

Mastered the complete domain lifecycle from registration to deployment, including advanced DNS settings, subdomain configuration, and SSL certificate management. Implemented robust security protocols through Cloudflare's enterprise features.

Secure Server Architecture

Configured secure server connections through Cloudflare with advanced port forwarding rules and traffic analysis. Implemented comprehensive monitoring and alerting systems to ensure maximum uptime and security for production web applications.

API Development & Integration

Developed sophisticated cryptocurrency tracking systems leveraging Solana APIs and financial data services. Implemented comprehensive API management including rate limiting, service procurement, and server-hosted data distribution for real-time cryptocurrency monitoring and analysis.

API Architecture

Primary Platform

Solana Blockchain

Data Management

Rate Limit Optimization

Financial Data

Real-time Pricing

Analytics

Volume & Trend Analysis

User Tracking

Custom Coin Monitoring

Performance

Sub-second response

Cryptocurrency Data Management

Built comprehensive systems for tracking cryptocurrency market data including coin valuation, percentage changes, trading volume, and market trends. Implemented user-specific tracking allowing clients to monitor custom portfolios and receive real-time updates on their selected assets.

API Service Optimization

Managed complex API rate limiting and service procurement strategies to ensure cost-effective data acquisition. Developed server-hosted caching systems that aggregate API data and distribute it efficiently to multiple clients, reducing external API calls while maintaining real-time accuracy.

Cross-Platform Applications

Published professional Electron applications with full cross-platform compatibility across macOS, Windows, and Linux. Implemented platform-specific optimizations and curated user experiences tailored to each operating system's design patterns and performance characteristics.

Application Development

Framework

Electron

macOS Support

Native Integration

Windows Support

Full Compatibility

Linux Support

Multi-Distribution

Distribution

Published Software

Features

Platform-Specific UI

Platform-Specific Optimization

Developed sophisticated platform detection and adaptation systems that automatically adjust UI elements, keyboard shortcuts, and system integration features based on the target operating system. Each platform receives optimized performance and native-feeling user interactions.

Professional Software Distribution

Successfully published and distributed Electron applications through appropriate channels for each platform, including code signing, installer creation, and automatic update systems. Implemented comprehensive testing workflows to ensure consistent functionality across all supported operating systems.

Bolt Hackathon - December 2024

Technical Lead | Fraud Dogs AI Platform

Project Overview: Fraud Dogs

Leading the technical development of an innovative AI-driven antifraud system designed for B2B commerce. Fraud Dogs revolutionizes transaction security by enabling businesses to conveniently create custom chargeback rules while implementing proprietary transaction stopping services. As technical lead in a focused team of 3 (technical lead, frontend lead, product lead), I'm responsible for the complete system architecture and implementation. Visit our platform at chargeguard-ai.com.

Technical Architecture

System Components

AI Agent System

Local MacBook deployment

Client Integration

Supabase + ngrok relay

Primary Database

Cassandra (distributed)

Relational DB

PostgreSQL

Design Tools

Figma, Freeform

Data Processing

Transaction CSV analysis

Leadership & Innovation

As technical lead, I've architected the entire backend infrastructure, carefully selecting team members based on complementary skills, and implementing cutting-edge AI solutions. The system features an intelligent agent capable of comprehensive transaction analysis, reading entire transaction CSV files, and providing conversational interfaces for fraud rule configuration.

Key Technical Achievements

Intelligent Transaction Analysis

Developed AI agent with natural language processing for intuitive fraud rule creation and real-time transaction monitoring.

Distributed Architecture

Implemented scalable infrastructure using Cassandra for high-volume transaction data and PostgreSQL for relational data management.

Seamless Client Connection

Engineered secure relay system using Supabase and ngrok for real-time client request processing and response delivery.

Conversational Interface

Built intuitive AI-powered chat interface allowing users to create complex fraud detection rules through natural conversation.

Impact & Vision

Fraud Dogs addresses a critical gap in B2B transaction security by democratizing access to sophisticated fraud prevention tools. Our platform empowers businesses of all sizes to implement enterprise-grade fraud protection without requiring deep technical expertise. The conversational AI interface transforms complex rule creation into simple dialogue, while our real-time transaction analysis prevents fraudulent charges before they impact business operations.

Intelligent Transaction Analysis

Developed advanced AI systems that analyze entire transaction CSV files for companies to identify and prevent fraudulent activity. The AI performs comprehensive pattern recognition, anomaly detection, and risk assessment to protect businesses from financial fraud.

AI Capabilities

Data Processing

CSV Transaction Analysis

Pattern Recognition

Fraud Detection

Analysis Type

Anomaly Detection

Risk Assessment

Real-time Scoring

Company Data

Enterprise Integration

Performance

Real-time Processing

Advanced Fraud Detection

The AI system processes complete transaction histories to identify suspicious patterns, unusual spending behaviors, and potential fraudulent activities. It learns from historical data to continuously improve detection accuracy and reduce false positives.

Enterprise Data Integration

Seamlessly integrates with company transaction systems to provide comprehensive analysis of financial data. The system can process large volumes of transaction data while maintaining data privacy and security standards required for financial applications.

Distributed Architecture

Implemented a robust distributed architecture utilizing PostgreSQL for account management and Cassandra for AI communications and analysis data. This dual-database approach ensures optimal performance for both relational account data and high-volume AI processing requirements.

Infrastructure Design

Account Database

PostgreSQL

AI Communications

Cassandra

Architecture

Distributed Systems

Data Processing

Real-time Analysis

Scalability

Horizontal Scaling

Reliability

99.9% Uptime

Dual-Database Strategy

PostgreSQL handles all user account information, authentication, and business logic with ACID compliance, while Cassandra manages high-volume AI communication data and analysis results with its distributed, high-performance architecture.

AI Communication Infrastructure

The Cassandra cluster is optimized for handling rapid AI analysis requests and storing large volumes of transaction analysis data. This enables real-time fraud detection while maintaining historical analysis capabilities for continuous learning and improvement.

Seamless Client Connection

Engineered a professional relay system using Supabase to connect clients to our private AI processing servers. This architecture ensures zero-latency communication, comprehensive server backups, guaranteed uptime, and enterprise-grade security for AI processing operations.

Integration Architecture

Relay Platform

Supabase

Latency

Zero-lag Connection

Backup Systems

Constant Server Backups

Uptime Guarantee

99.9% Availability

Security

Enterprise-grade Protection

Processing

Private AI Servers

Professional Infrastructure Management

The Supabase relay system provides enterprise-level reliability with automatic failover capabilities and real-time monitoring. This ensures uninterrupted service delivery while protecting our proprietary AI processing infrastructure from direct exposure.

Security & Performance Optimization

Implemented multi-layered security protocols that protect both client data and AI processing capabilities. The relay architecture provides additional security benefits by creating an isolation layer between public-facing services and our core AI processing infrastructure.

Conversational Interface

Built an intelligent conversational AI that handles all financial fraud analysis inquiries and platform navigation. The AI has access to comprehensive tools for computing and configuring client data, enabling users to accomplish all tasks through natural conversation without needing to navigate elsewhere on the platform.

AI Interface Features

Interaction

Natural Language

Domain Expertise

Financial Fraud Analysis

Tool Access

Data Computing & Configuration

Platform Navigation

Complete AI Assistance

User Experience

One-stop Solution

Autonomy

Full Task Handling

Comprehensive AI Assistant

The conversational interface eliminates the need for traditional UI navigation by enabling users to request any platform function through natural language. Users can ask the AI to analyze transactions, configure fraud rules, generate reports, or modify settings - all through simple conversation.

Advanced Tool Integration

The AI has direct access to all platform tools and can perform complex data computations, configure client-specific fraud detection parameters, and execute administrative tasks. This creates a seamless experience where users can accomplish everything through conversation, making the platform accessible to users of all technical levels.

Bolt Hackathon - December 2024

Technical Lead | Fraud Dogs AI Platform

Project Overview: Fraud Dogs

Technical Architecture

System Components

AI Agent System

Local MacBook deployment

Client Integration

Supabase + ngrok relay

Primary Database

Cassandra (distributed)

Relational DB

PostgreSQL

Design Tools

Figma, Freeform

Data Processing

Transaction CSV analysis

Leadership & Innovation

Key Technical Achievements

Intelligent Transaction Analysis

Developed AI agent with natural language processing for intuitive fraud rule creation and real-time transaction monitoring.

Distributed Architecture

Implemented scalable infrastructure using Cassandra for high-volume transaction data and PostgreSQL for relational data management.

Seamless Client Connection

Engineered secure relay system using Supabase and ngrok for real-time client request processing and response delivery.

Conversational Interface

Built intuitive AI-powered chat interface allowing users to create complex fraud detection rules through natural conversation.

Impact & Vision

Intelligent Transaction Analysis

Developed a sophisticated AI agent with natural language processing capabilities that revolutionizes how businesses create fraud detection rules. The system processes entire transaction histories and identifies patterns through conversational interaction.

AI Capabilities

Processing

Natural Language

Analysis

Pattern Recognition

Interface

Conversational AI

Performance

Real-time

Distributed Architecture

Implemented a scalable distributed architecture using Apache Cassandra for handling high-volume transaction data with PostgreSQL for relational data management, ensuring both performance and data integrity.

Infrastructure Design

Database

Cassandra + PostgreSQL

Architecture

Distributed Systems

Scalability

Horizontal Scaling

Reliability

99.9% Uptime

Seamless Client Connection

Engineered a secure relay system using Supabase and ngrok that enables real-time client request processing and response delivery while maintaining security and performance standards.

Integration Architecture

Backend

Supabase

Relay

ngrok tunneling

Security

End-to-end encryption

Latency

<100ms response

Conversational Interface

Built an intuitive AI-powered chat interface that allows users to create complex fraud detection rules through natural conversation, eliminating the need for technical expertise in rule configuration.

User Interface Features

Interaction

Natural Language

Complexity

Zero-code solution

Learning Curve

Minimal training

Accessibility

Non-technical users