Creating high-performance, user-centric apps for Android, iOS, and cross-platform experiences.
Building smart, connected solutions with real-time data processing and automation for enhanced efficiency.
Providing strategic technology guidance to optimize business operations, digital transformation, and infrastructure.
Developing secure, decentralized solutions for transparent transactions, smart contracts, and digital assets.
GHM Electric set out to transform the e-bike experience by embedding IoT capabilities for real-time tracking and intelligent analytics. The solution involved building an integrated platform that connects electric bikes to both web and mobile dashboards, allowing users to monitor speed, gear shifts, and battery performance in real time. The solution, which was created with Firebase and the MERN stack, guaranteed scalable design, safe data transfer, and flexibility for upcoming improvements. The intuitive user dashboard increased rider interaction, while end-to-end encryption safeguarded all communication. For fleet operators, the platform offered powerful monitoring tools, enabling better resource management and operational efficiency. This initiative is part of our web & mobile app success stories, showcasing how Colladome tech project delivery drives innovation in smart transportation ecosystems.
Enabled accurate, delay-free collection and processing of speed, gear status, and battery levels for instant updates.
Designed a clear, intuitive interface to display complex sensor data in an engaging, easy-to-navigate format.
Built a flexible platform to support new bike models, sensors, and features without major infrastructure changes.
Ensured reliable, low-latency data transmission with strong security measures to protect user data.
Evaluated bike models, sensor setups, and user needs to ensure accurate real-time data capture and display.
Created and refined interactive dashboard prototypes for a seamless user experience.
Built a secure IoT system using MERN and Firebase for real-time, encrypted data flow.
Developed a cloud-based platform to support new models and future features.
Ensured low-latency updates, stable connectivity, and energy efficiency.
started the system with ongoing updates and real-time monitoring.
It supports cross-platform development with an interactive widget and quick testing.
Cross Platform: Consistent user experience across both mobile and web applications.
Expressive User Interfaces: Facilitates the creation of visually appealing, interactive designs for better user engagement and experience.
Rapid Prototyping: The hot reload feature enables developers to instantly view updates, speeding up the development cycle.
Scalable Framework: Supports scaling for applications across multiple platforms, efficiently managing increased user demand.
Built using the MERN stack to deliver a robust and scalable end-to-end web application.
MongoDB: A flexible NoSQL database for handling large datasets with ease.
Express.js: A reliable backend with real-time features.
React: Helps craft flexible front-end layouts with smooth navigation and real-time responsiveness.
Node.js: Efficiently handles multiple requests for optimal performance.
Security & Access: Features role-specific permissions with encrypted data safeguards to ensure secure operations.
Facilitates device integration, remote monitoring, and real-time control, ensuring seamless automation and intelligent connectivity within the ecosystem.
Device Integration: Leveraged IoT for seamless connectivity within the ProCom Automation ecosystem.
Remote Monitoring: Enabled users to control devices remotely via a centralized mobile app.
Real-Time Control: Integrated sensors for instant data access and smarter automation.
Intelligent Connectivity: Enhanced automation with AI-powered IoT solutions.
Individuals who use the platform to monitor and enhance their riding experience. They access real-time sensor data, performance analytics, and ride history for better maintenance.
Live Sensor Data: Monitor speed, battery level, gear status, and other key metrics in real-time.
Performance Analytics: To maximize riding performance, obtain historical data and insights.
User-Friendly Dashboard: A simplified, intuitive interface for easy data visualization.
Ride History & Tracking: Track past trips, mileage, and ride statistics for better maintenance planning.
Alerts & Notifications: Receive instant updates for battery status, maintenance reminders, or abnormal performance.
Responsible for managing bikes and ensuring peak performance. They oversee sensor configurations, track data usage, control user access, and maintain security.
Sensor Management: Add, remove, and configure IoT sensors for different bike models.
Data Usage Tracking: Monitor real-time data flow, storage, and system efficiency.
User & Device Management: Assign bikes to users, regulate access, and manage authentication settings.
Security & Compliance: Enforce encryption and authentication protocols to prevent unauthorized access.
System Scalability: Enable seamless integration of new bike models and future IoT advancements.
Responsible for managing bikes and ensuring peak performance. They oversee sensor configurations, track data usage, control user access, and maintain security.
Sensor Management: Add, remove, and configure IoT sensors for different bike models.
Data Usage Tracking: Monitor real-time data flow, storage, and system efficiency.
User & Device Management: Assign bikes to users, regulate access, and manage authentication settings.
Security & Compliance: Enforce encryption and authentication protocols to prevent unauthorized access.
System Scalability: Enable seamless integration of new bike models and future IoT advancements.
Individuals who use the platform to monitor and enhance their riding experience. They access real-time sensor data, performance analytics, and ride history for better maintenance.
Live Sensor Data: Monitor speed, battery level, gear status, and other key metrics in real-time.
Performance Analytics: To maximize riding performance, obtain historical data and insights.
User-Friendly Dashboard: A simplified, intuitive interface for easy data visualization.
Ride History & Tracking: Track past trips, mileage, and ride statistics for better maintenance planning.
Alerts & Notifications: Receive instant updates for battery status, maintenance reminders, or abnormal performance.
Responsible for managing bikes and ensuring peak performance. They oversee sensor configurations, track data usage, control user access, and maintain security.
Sensor Management: Add, remove, and configure IoT sensors for different bike models.
Data Usage Tracking: Monitor real-time data flow, storage, and system efficiency.
User & Device Management: Assign bikes to users, regulate access, and manage authentication settings.
Security & Compliance: Enforce encryption and authentication protocols to prevent unauthorized access.
System Scalability: Enable seamless integration of new bike models and future IoT advancements.
Enhanced features and real-time insights drove higher user retention and market competitiveness.
Scalable architecture enabled seamless onboarding of new bike models and geographic expansion.
Real-time data access led to a more interactive and engaging user experience
Admins achieved improved operational efficiency with quicker sensor integration and fewer system disruptions
An IoT-powered electric bike is a smart vehicle integrated with sensors and a mobile app that enables real-time tracking of speed, battery status, gear position, and ride history. It enhances user experience through connected technology, making e-bikes more efficient and data-driven.
IoT enhances e-bike performance by:
A: The platform serves multiple users, including:
A: Common features include:
A: Yes! Performance analytics allow users to:
A: Security measures like encrypted communication, secure APIs, and continuous monitoring reduce hacking risks. Regular software updates further strengthen defenses.
A: IoT sensors collect bike data and transmit it via secure cloud networks. The data is processed in real-time and displayed on a mobile or web dashboard for easy access.
A well-designed IoT platform can support multiple bike models, upgrade seamlessly with new sensors, and expand to new cities without requiring major infrastructure changes.
A: Security measures like encrypted communication, secure APIs, and continuous monitoring reduce hacking risks. Regular software updates further strengthen defenses.
A well-designed IoT platform can support multiple bike models, upgrade seamlessly with new sensors, and expand to new cities without requiring major infrastructure changes.
A: IoT helps fleet operators by:
Companies that integrate IoT into electric bikes see:
Typical tech stacks include:
The e-bike’s IoT sensors send live data via cloud servers to a mobile or web dashboard. The system processes this data with minimal latency, ensuring instant updates.
Firebase enables:
GHM Electric is redefining the e-bike industry with its cutting-edge IoT-powered platform, delivering real-time monitoring, seamless connectivity, and data-driven insights. By leveraging advanced technologies like Flutter, MERN stack, and Firebase, the solution ensures optimal performance, security, and scalability. Whether for individual riders or fleet managers, GHM Electric’s smart dashboard enhances efficiency, user engagement, and operational control. With significant business growth, increased subscriptions, and market expansion, this innovation sets a new benchmark for smart mobility, driving the future of connected electric biking.
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