Multi Asset Handler
Multi Asset Handler
Designed a scalable asset management interface to streamline tracking, monitoring, and control of multiple connected devices.
Designed a scalable asset management interface to streamline tracking, monitoring, and control of multiple connected devices.
Led the end-to-end design of a complex internal web application used to manage multiple assets across systems. Introduced structured layouts, reusable components, and clear information hierarchy to reduce cognitive load for operators handling large datasets.
Led the end-to-end design of a complex internal web application used to manage multiple assets across systems. Introduced structured layouts, reusable components, and clear information hierarchy to reduce cognitive load for operators handling large datasets.
Impact: Improved task efficiency and reduced navigation friction by standardizing workflows and enabling faster asset-level actions across the platform.
Impact: Improved task efficiency and reduced navigation friction by standardizing workflows and enabling faster asset-level actions across the platform.
Flex83 - Core Product
Flex83 - Core Product
Designed an IoT-driven web platform experience focused on real-time device monitoring and operational insights.
Designed an IoT-driven web platform experience focused on real-time device monitoring and operational insights.
Worked on designing interfaces for Flex83, a product ecosystem by IoT83, aimed at managing connected devices such as refrigeration and cooling systems. Focused on translating complex IoT data into intuitive dashboards, improving visibility into device status, alerts, and performance metrics. Collaborated closely with developers to align design with technical constraints in a data-heavy environment.
Worked on designing interfaces for Flex83, a product ecosystem by IoT83, aimed at managing connected devices such as refrigeration and cooling systems. Focused on translating complex IoT data into intuitive dashboards, improving visibility into device status, alerts, and performance metrics. Collaborated closely with developers to align design with technical constraints in a data-heavy environment.
Impact: Enhanced usability of data-intensive screens, enabling quicker decision-making and more efficient monitoring for operational teams.
Impact: Enhanced usability of data-intensive screens, enabling quicker decision-making and more efficient monitoring for operational teams.
Solar & Battery Management System
Solar & Battery Management System
Designed an end-to-end solar monitoring and fleet management platform enabling real-time energy tracking, multi-level system visibility, and deep device diagnostics.
Designed an end-to-end solar monitoring and fleet management platform enabling real-time energy tracking, multi-level system visibility, and deep device diagnostics.
Led the UX and interaction design for a multi-role platform serving homeowners, installers, service engineers, admins, and sales teams. Structured the experience across real-time energy dashboards, hierarchical fleet views (global to plant level), and detailed diagnostic layers down to components like MPPT strings and battery cells. Focused on building a clear information hierarchy—balancing high-level insights with deep technical drill-downs—to support both quick monitoring and advanced troubleshooting.
Led the UX and interaction design for a multi-role platform serving homeowners, installers, service engineers, admins, and sales teams. Structured the experience across real-time energy dashboards, hierarchical fleet views (global to plant level), and detailed diagnostic layers down to components like MPPT strings and battery cells. Focused on building a clear information hierarchy—balancing high-level insights with deep technical drill-downs—to support both quick monitoring and advanced troubleshooting.
Impact: Improved clarity and usability of complex energy data, enabling faster issue identification, more efficient fleet monitoring, and role-specific decision-making without overwhelming users.
Impact: Improved clarity and usability of complex energy data, enabling faster issue identification, more efficient fleet monitoring, and role-specific decision-making without overwhelming users.
Scalable Design System
Scalable Design System
Built a scalable design system to standardize UI, accelerate product development, and ensure consistency across multiple web applications.
Built a scalable design system to standardize UI, accelerate product development, and ensure consistency across multiple web applications.
Designed and implemented a centralized design system covering reusable components, design tokens, and usage guidelines across multiple products. Collaborated closely with developers to align components with real-world implementation constraints, ensuring consistency between design and code. Focused on creating flexible, modular components that could scale across different use cases while maintaining visual and interaction consistency.
Designed and implemented a centralized design system covering reusable components, design tokens, and usage guidelines across multiple products. Collaborated closely with developers to align components with real-world implementation constraints, ensuring consistency between design and code. Focused on creating flexible, modular components that could scale across different use cases while maintaining visual and interaction consistency.
Impact: Reduced design and development time, improved cross-product consistency, and enabled faster iteration by establishing a shared system for both designers and engineers.
Impact: Reduced design and development time, improved cross-product consistency, and enabled faster iteration by establishing a shared system for both designers and engineers.
