LAUNCH: 2024
LAUNCH: 2024
LAUNCH: 2024
LAUNCH: 2024
LAUNCH: 2024
TYPE: React App
TYPE: React App
TYPE: React App
TYPE: React App
TYPE: React App
ACADEMY: Career Foundry
ACADEMY: Career Foundry
ACADEMY: Career Foundry
ACADEMY: Career Foundry
ACADEMY: Career Foundry
ROLE: Development
ROLE: Development
ROLE:Development
ROLE:Development
ROLE: Development
meet app
meet app
meet app
meet app
meet app
Meet App is a serverless progressive web application built with React, designed to fetch and display upcoming events directly from the Google Calendar API. It provides users with fine-grained control over how they explore events – from filtering and adjusting views to accessing essential features, even when offline. The application was shaped through a test-driven development workflow to ensure reliability from the first line of code to the last. Its architecture combines responsive UI components, secure serverless functions, and seamless caching, creating a browsing experience that stays fast and dependable across devices.
Meet App is a serverless progressive web application built with React, designed to fetch and display upcoming events directly from the Google Calendar API. It provides users with fine-grained control over how they explore events – from filtering and adjusting views to accessing essential features, even when offline. The application was shaped through a test-driven development workflow to ensure reliability from the first line of code to the last. Its architecture combines responsive UI components, secure serverless functions, and seamless caching, creating a browsing experience that stays fast and dependable across devices.
Meet App is a serverless progressive web application built with React, designed to fetch and display upcoming events directly from the Google Calendar API. It provides users with fine-grained control over how they explore events – from filtering and adjusting views to accessing essential features, even when offline. The application was shaped through a test-driven development workflow to ensure reliability from the first line of code to the last. Its architecture combines responsive UI components, secure serverless functions, and seamless caching, creating a browsing experience that stays fast and dependable across devices.
Meet App is a serverless progressive web application built with React, designed to fetch and display upcoming events directly from the Google Calendar API. It provides users with fine-grained control over how they explore events – from filtering and adjusting views to accessing essential features, even when offline. The application was shaped through a test-driven development workflow to ensure reliability from the first line of code to the last. Its architecture combines responsive UI components, secure serverless functions, and seamless caching, creating a browsing experience that stays fast and dependable across devices.
Meet App is a serverless progressive web application built with React, designed to fetch and display upcoming events directly from the Google Calendar API. It provides users with fine-grained control over how they explore events – from filtering and adjusting views to accessing essential features, even when offline. The application was shaped through a test-driven development workflow to ensure reliability from the first line of code to the last. Its architecture combines responsive UI components, secure serverless functions, and seamless caching, creating a browsing experience that stays fast and dependable across devices.
In this project, I developed the interface components, implemented filtering logic, and integrated event details, pagination, and dynamic visualisations. I built offline functionality using caching and service workers, and connected the Google Calendar API through serverless OAuth2 handling. The entire system was tested rigorously with Jest, Jest Cucumber, and Puppeteer to validate everything from unit behaviour to end-to-end interactions. Through this work, the application became both scalable and trustworthy – a lightweight event companion that performs gracefully in any context.
In this project, I developed the interface components, implemented filtering logic, and integrated event details, pagination, and dynamic visualisations. I built offline functionality using caching and service workers, and connected the Google Calendar API through serverless OAuth2 handling. The entire system was tested rigorously with Jest, Jest Cucumber, and Puppeteer to validate everything from unit behaviour to end-to-end interactions. Through this work, the application became both scalable and trustworthy – a lightweight event companion that performs gracefully in any context.
In this project, I developed the interface components, implemented filtering logic, and integrated event details, pagination, and dynamic visualisations. I built offline functionality using caching and service workers, and connected the Google Calendar API through serverless OAuth2 handling. The entire system was tested rigorously with Jest, Jest Cucumber, and Puppeteer to validate everything from unit behaviour to end-to-end interactions. Through this work, the application became both scalable and trustworthy – a lightweight event companion that performs gracefully in any context.
In this project, I developed the interface components, implemented filtering logic, and integrated event details, pagination, and dynamic visualisations. I built offline functionality using caching and service workers, and connected the Google Calendar API through serverless OAuth2 handling. The entire system was tested rigorously with Jest, Jest Cucumber, and Puppeteer to validate everything from unit behaviour to end-to-end interactions. Through this work, the application became both scalable and trustworthy – a lightweight event companion that performs gracefully in any context.
In this project, I developed the interface components, implemented filtering logic, and integrated event details, pagination, and dynamic visualisations. I built offline functionality using caching and service workers, and connected the Google Calendar API through serverless OAuth2 handling. The entire system was tested rigorously with Jest, Jest Cucumber, and Puppeteer to validate everything from unit behaviour to end-to-end interactions. Through this work, the application became both scalable and trustworthy – a lightweight event companion that performs gracefully in any context.
