Portfolio
ADR Control Panel
Technology Used
Deployment & Hosting
Build Year
Description
ADRCP – Adverse Drug Risk Control Panel
Enhancing drug safety and precision medicine through innovative polypharmacy management
Overview
The Adverse Drug Risk Control Panel (ADRCP) is an advanced tool designed to manage drug risks in polypharmacy, providing healthcare professionals with a comprehensive overview of potential drug interactions and adverse effects. Developed for ScholzDatabank, ADRCP aims to enhance drug safety and support precision medicine. As the lead Ruby on Rails Developer and UX/UI Designer, I was responsible for designing, developing, and maintaining this innovative platform.
Challenges
• Designing a scalable architecture to handle high traffic and growing data demands.
• Implementing Stripe payment integration for a subscription-based access model.
• Managing complex drug interaction calculations and ensuring real-time performance.
• Building secure APIs for interoperability with external systems, including EMRs and e-prescribing software.
• Enabling PDF creation of complex view and data encryption to protect sensitive data.
• Developing robust user account management, including roles and permissions, and an admin panel to manage all operations.
Solution
• Designed a scalable and modular architecture to support future expansion and high user loads.
• Integrated Stripe for seamless subscription management, enabling healthcare providers to subscribe to the platform efficiently.
• Developed APIs to allow integration with external systems, enhancing usability and workflow efficiency.
• Implemented dynamic PDF creation and robust encryption protocols to protect sensitive patient data and ensure regulatory compliance.
• Created a user-friendly admin panel for managing users, subscriptions, and overall system operations.
• Optimized algorithms to reduce calculation execution time by 50%, enabling faster and more accurate drug risk analysis and saving cost.
Conclusion
Working on ADRCP allowed me to tackle real-world challenges in healthcare technology, such as scalability, data security, and seamless user experiences. By designing a robust architecture, integrating modern tools, and ensuring compliance with industry standards, I delivered a platform that directly improves patient safety and empowers healthcare providers. This project reflects my ability to craft innovative solutions tailored to complex problems.

Shaperency/futuredirectors
Technology Used
Deployment & Hosting
Build Year
Description
Empowering organizations with seamless board management and decision-making tools
Shaperency is a comprehensive board management platform designed to revolutionize how organizations collaborate, manage documents, and make decisions. I was actively involved in its conceptualization, providing input on the design, validating ideas, and shaping the overall project flow. As a Ruby on Rails Developer and team lead, I directed the development of this platform, ensuring the delivery of robust, feature-rich solutions tailored to the needs of modern organizations.
Challenges
• Designing a secure and user-friendly board portal to enhance organizational collaboration.
• Implementing advanced document storage and signing capabilities to simplify workflows.
• Integrating meeting and calendar features with tools for building professional agendas.
• Developing features like online voting and real-time chat to improve decision-making and accountability.
• Managing a cross-functional team to deliver high-quality code and meet project timelines.
Solution
•Created a secure and intuitive board portal, allowing users to streamline collaboration effectively.
•Developed a comprehensive document storage system with integrated signing features to ensure security and ease of use.
•Integrated seamless meeting and calendar functionalities with dynamic agenda-building tools for greater organizational efficiency.
•Built robust voting and task management features to enhance transparency and productivity in decision-making processes.
•Provided leadership and mentorship to a team of five developers, fostering collaboration and ensuring code quality.
Results
• Successfully delivered a fully functional and feature-rich platform within the project timeline, showcasing advanced technical capabilities.
• Effectively led a team of five developers, ensuring high-quality code delivery and resolving critical development bottlenecks efficiently.
• Optimized key workflows, reducing loading times for document storage and task management features by 30%.
• Enhanced system scalability and security, ensuring the platform could handle increasing user demands without compromising performance.
• Played a key role in validating project ideas and shaping the design, ensuring the final product met user needs effectively.

SCHOLZ DATABANK
Technology Used
Deployment & Hosting
Build Year
Description
ScholzDatabank –Corporate Website Development
Building a scalable, secure, and content-driven platform for a healthcare technology company
Overview
Scholz DataBank is the official website of the company behind ADRCP (Adverse Drug Reaction Control Panel) and other advanced drug database technologies. The website serves as a gateway for professionals in the healthcare industry, providing information on services, blogs, research, and company offerings.
I was responsible for developing, optimizing, and maintaining the website, ensuring a seamless user experience, high performance, and strong SEO. My role involved expanding the site’s features, improving content management, and enhancing security while ensuring scalability for future growth.
Challenges
• Developing a fully customized corporate website with a structured CMS for easy content updates.
• Ensuring high performance and fast load times for a data-heavy website.
• Implementing SEO best practices to improve organic search rankings.
• Building a secure and scalable platform to handle increasing traffic.
• Designing a user-friendly blog system to publish industry articles and research.
• Website Recovery & Security – The website suffered a DDoS attack, requiring immediate recovery and long-term protection.
Solution
• Built the website architecture using Ruby on Rails with SpinaCMS, allowing easy content management for administrators.
• Implemented performance optimization techniques, including caching and efficient database queries, to ensure fast load times.
• Integrated Google Tag Manager and Search Console for SEO tracking and optimization.
• Developed a secure admin panel, allowing company staff to manage services, research articles, and blog posts effortlessly.
• Designed an intuitive user interface for easy navigation, ensuring accessibility across devices.
Results
• Delivered a fully functional, scalable, and responsive website that aligns with the company’s brand and goals.
• Improved content management efficiency, reducing update time by 40% with the custom CMS.
• Achieved higher search engine rankings, increasing organic traffic and visibility.
• Optimized website performance, reducing page load times and enhancing user experience.
• Secured the platform with industry-standard data protection measures and robust authentication.
• Expanded the Spina CMS functionality with the required tool to meet the required feature.
• Successfully mitigated the DDoS attack, restoring full functionality with improved security via Cloudflare.
Conclusion
Developing and maintaining the Scholz DataBank website highlights my ability to create scalable, secure, and user-friendly corporate websites. By focusing on content management, performance optimization, and SEO, I delivered a modern, well-structured, and functional platform that supports the company’s mission in healthcare technology.

QuantCloud
Technology Used
Deployment & Hosting
Build Year
Description
Financial Modeling and Stock Prediction Platform
Building a robust financial platform with real-time stock market data and predictive analytics
Overview
QuantCloud is a financial modeling platform designed to provide stock exchange insights, predictive financial modeling, and data analysis tools. The platform integrates real-time stock market data via the NASDAQ API, allowing users to make informed investment decisions.
As a Ruby on Rails Developer, I was responsible for building and optimizing the platform, implementing social login and sharing, developing a content publishing system, and enhancing community engagement through subscription-based alerts and content sharing, integrating financial prediction tools, and enhancing data visualization for users.
Challenges
• Real-Time Data Handling – Needed to efficiently integrate and display real-time stock data from the NASDAQ API.
• User Authentication & Social Login – Implemented secure user authentication and enabled social logins for a seamless user experience.
• Financial Modeling & Predictions – Designed tools to predict financial trends using multiple data sources.
• Performance Optimization – Needed to optimize search and data retrieval for a fast and responsive user experience.
• User Engagement & Community Building – Allowing users to subscribe to financial content, share models, and receive alerts.
• Custom Reporting & PDFs – Required a PDF export feature for financial reports and market analysis.
Solution
• NASDAQ API Integration
• Connected the platform to the NASDAQ API, allowing users to access real-time stock market data.
• Built a custom admin panel for publishing financial articles and market updates.
• Enabled users to subscribe to content, alerts, and financial updates.
• Developed social sharing and community engagement tools to allow users to share financial models.
• Built a custom admin panel for publishing financial articles and market updates.
• Implemented user subscriptions for premium blog content
• User Management & Social Login
• Implemented secure authentication with social login options (Google, Facebook, etc.).
• Developed custom user authorization for different access levels.
• Financial Data Processing & Search Optimization
• Used Elastic Search for fast, efficient searches.
• Developed financial modeling features to predict trends based on market data.
• Custom PDF Report Generation
• Implemented a PDF export feature, allowing users to generate detailed financial reports.
Results
• Successfully built a complete financial modeling platform with stock market data integration.
• Reduced search response times and improved performance using Elastic Search.
• Enhanced user engagement with social login and interactive financial tools.
• Enabled financial analysts and traders to generate professional PDF reports with market insights.
• Designed a scalable and responsive platform that could handle high data loads efficiently.
Conclusion
QuantCloud showcases my ability to develop large-scale financial platforms, handle real-time data, and build robust financial modeling tools, that combine user engagement tools, and content management systems. By integrating NASDAQ stock market data, financial prediction models, and high-performance search features, I delivered a powerful and efficient platform for traders and financial analysts.

Gigky
Technology Used
Deployment & Hosting
Build Year
Description
Mobile App – Job Application and Skill-Based Hiring Platform
Building a scalable job platform with skill verification and location-based hiring
Overview
Gigky is a job application platform designed to help professionals showcase their skills and connect with employers. The platform features certification-based user registrations, skill points tracking, experience accumulation, and location-based job search. It also provides an API for a mobile app, ensuring seamless functionality across devices.
As a Ruby on Rails Developer, I was responsible for developing the API, admin panel, and location-based search features, ensuring an efficient and scalable job-matching system
Challenges
• Developing a Scalable API – Ensuring smooth communication between the web platform and mobile app.
• Location-Based Job Search – Implementing real-time filtering to match users with nearby job opportunities.
• Skill-Based Hiring System – Enabling users to upload certifications, earn skill points, and track experience.
• Admin Panel for Content Management – Allowing administrators to manage job postings, users, and certifications.
• Optimizing Performance & Search – Ensuring fast job discovery using efficient search indexing.
Solution
• Developed a fully functional API to power the mobile app, ensuring seamless job search and application workflows.
• Implemented real-time geolocation filtering, allowing users to find jobs based on proximity and preferences.
• Designed a certification-based skill tracking system, allowing users to upload credentials, gain skill points, and accumulate experience through completed jobs.
• Built a custom admin panel to manage job listings, user profiles, and certifications efficiently.
• Optimized database queries and search indexing, improving job search speed and accuracy.
Results
• Increased job application submissions by 25% due to seamless API and mobile integration.
• Improved job search efficiency by 30%, reducing the time users take to find relevant jobs.
• Reduced manual workload for administrators by 40% through the automated job approval system.
• Enhanced platform scalability, supporting thousands of users with minimal performance issues.
• Enabled location-based job matching, leading to 20% more successful job placements.
Conclusion
Gigky showcases my ability to develop job platforms with mobile API integration, location-based search, and skill tracking systems. By delivering a highly scalable solution, I enabled seamless job discovery, skill-based hiring, and efficient content management, making Gigky a powerful platform for job seekers and recruiters.

BM CLUB
Technology Used
Deployment & Hosting
Build Year
Description
Biking Community & Social Engagement Platform
a feature-rich SaaS platform for bikers with event management, social integration, and club systems
Overview
BMClub is a web-based SaaS platform designed to bring together biking enthusiasts by providing event management, social media integration, and club-based interactions. The platform allows users to join biking clubs, participate in events, share updates, and engage with fellow riders.
As a Ruby on Rails Developer, I was responsible for developing the platform, optimizing query performance, implementing subscription-based features, and integrating social engagement tools.
Challenges
• Developing a Scalable Club System – Creating a structure where users could form, join, and manage biking clubs.
• Building an Event Management Feature – Allowing bikers to create, join, and track biking events with real-time updates.
• Integrating Social Media Features – Implementing a news feed, user interactions, and content-sharing functionalities.
• Optimizing Performance & Query Speed – Ensuring fast data retrieval and efficient content loading.
• Managing Subscriptions & User Roles – Enabling premium memberships and different access levels for club members.
Solution
• Developed a dynamic club system where users could create, manage, and invite members to biking clubs.
• Built an event creation and tracking system, allowing users to RSVP, check event details, and receive notifications.
• Developed a real-time news feed, allowing users to post updates, share biking experiences, and comment on posts.
• Integrated AJAX-based updates for a seamless user experience.
• Optimized database queries, reducing page load times by 30% for a faster and smoother experience.
• Implemented a membership-based subscription model, enabling users to access premium club features.
Results
• Implemented a scalable club system, allowing bikers to form and manage their communities seamlessly.
Conclusion
BMClub showcases my expertise in developing scalable community platforms, optimizing performance, and integrating social and event management features. The project reflects my ability to enhance user engagement through seamless social interactions, real-time updates, and efficient data handling.

DOC C
Technology Used
Deployment & Hosting
Build Year
Description
Doctor Consultation & Appointment Management Platform
Streamlining online healthcare consultations with seamless scheduling and payment integration
Overview
DOCC is a doctor consultation platform designed to simplify appointment scheduling, enable secure online payments, and enhance the overall experience for both healthcare providers and patients. The platform integrates a custom calendar for efficient scheduling, along with Stripe payment integration for credit-based consultations.
As a Ruby on Rails Developer, I was responsible for developing the appointment management system, integrating Stripe for payments, and designing a user-friendly interface for doctors and patients.
Challenges
• Developing an Intuitive Scheduling System – Ensuring efficient appointment booking with real-time availability.
• Integrating Secure Payment Processing – Implementing Stripe to allow patients to prepay for consultations using credits.
• Ensuring System Scalability – Designing a solution that could support high traffic and multiple concurrent bookings.
• Admin Panel for Managing Appointments – Allowing doctors and administrators to view, approve, and manage schedules seamlessly.
Solution
• Designed a custom calendar system that enables patients to book, reschedule, and cancel appointments.
• Implemented real-time appointment availability tracking to prevent scheduling conflicts.
• Developed a credit-based payment system where users purchase credits for consultations.
• Ensured secure transactions with Stripe’s API, supporting various payment methods.
• Developed an admin panel allowing doctors to manage their schedules, track bookings, and process payments efficiently.
Results
• Reduced appointment scheduling time by 30%, improving efficiency for both doctors and patients.
• Built a user-friendly dashboard, making it easy for doctors and admins to manage bookings and transactions.
Conclusion
DOCC showcases my ability to develop scalable and secure healthcare platforms with seamless appointment scheduling and payment integration. By optimizing user experience, payment processing, and administrative workflows, I delivered a powerful solution that enhances efficiency for healthcare providers and patients alike.

ROVE (Product)
Technology Used
Deployment & Hosting
Build Year
Description
Restaurant Management & Ordering Platform
Streamlining restaurant operations with real-time order processing, multi-location management, and POS integration
Overview
ROVE is a restaurant management platform designed to help restaurant owners efficiently manage multiple locations, track inventory, process real-time orders, and streamline sales through an integrated POS system. The platform enables seamless order handling, notifications, and QR-based interactions for a smooth customer experience.
As a Ruby on Rails Developer, I was responsible for developing core restaurant management features, implementing real-time order processing, optimizing inventory tracking, and integrating a POS system for efficient sales operations.
Challenges
• Managing Multiple Restaurant Locations – Creating a system where owners could oversee multiple locations and menus efficiently.
• POS System Integration – Developing a custom POS system to handle payments, inventory tracking, and order processing.
• Scalability & Performance Optimization – Ensuring smooth operations for high-traffic restaurant chains.
Solution
• Developed a centralized dashboard to manage multiple restaurants, track sales, and monitor performance in real time.
• Implemented instant order updates via StimulusJS, ensuring staff received real-time notifications for seamless kitchen operations.
• Designed a custom POS system, allowing automated order management, payment processing, and inventory tracking.
• Enabled QR-based menu access, allowing customers to place orders directly from their devices without needing staff interaction.
• Enabled QR-based menu access, allowing customers to place orders directly from their devices without needing staff interaction.
• Optimized database queries and background processing, ensuring fast transactions and data retrieval.
• Implemented authentication and role-based access control for secure restaurant management.
Results
• Successfully developed and deployed a restaurant management platform.
• Reduced order processing time by 40%, improving restaurant efficiency.
• Optimized system performance, ensuring seamless scalability for high-traffic restaurants.
Conclusion
ROVE highlights my expertise in developing scalable restaurant management systems, integrating real-time order processing, and building efficient POS solutions. By focusing on automation, digital transformation, and operational efficiency, I delivered a powerful platform that enhances restaurant performance and customer experience.
