Scalable Mobile Fleet Management Application with Modern Architecture and Enhanced Safety Features

The client faces significant challenges in scaling their mobile fleet management platform due to outdated architecture, limited in-house mobile development capacity, and the need for enhanced functionality across mobile devices. Slow hiring processes and stretched internal resources hinder rapid delivery of new features and improvements, affecting system reliability and compliance with regulatory standards.

A rapidly growing fleet management company operating across multiple countries, requiring scalable and maintainable mobile solutions for drivers and fleet managers.

• Modernize existing mobile app architecture to improve maintainability, scalability, and testability, aiming for a reduction in user-reported bugs by at least 70%.
• Develop a new iOS driver application using modern UI frameworks to enhance usability and feature set, including forms for driver updates and safety alerts.
• Implement web-to-mobile feature synchronization to ensure consistent data across platforms, improving operational efficiency.
• Ensure compliance with relevant legal requirements, such as digital work hour tracking, with timely deployment (e.g., within two months for regulatory updates).
• Introduce safety and reporting features, such as real-time alerts, offline mode, and automatic status updates, to improve driver safety and management oversight.

• Implementation of MVVM architecture for Android to enhance code modularity and testability.
• Use of modern UI frameworks such as SwiftUI for iOS to enable cleaner, faster UI development.
• Development of key driver features including electronic forms, real-time safety alerts, offline mode, and automatic status updates.
• Synchronization of company and driver-specific data between web and mobile platforms to ensure consistency.
• Inclusion of safety features such as alerts for low tire pressure, driver status changes, and accident notifications.
• Support for regulatory compliance features, like digital work hours and rest period tracking, with rapid deployment capabilities.
• Integration with real device testing platforms and code review tools to ensure quality control.

• Real-time data synchronization with web platforms for consistent information flow.
• Legal compliance modules for tracking work hours and rest periods.
• Safety alert systems and driver reporting tools.
• Device testing and build automation tools.

• System scalability to support thousands of users in multiple regions with cloud infrastructure.
• Crash-free session rate target of at least 99.4%.
• Bug reduction goal of approximately 70% through improved architecture and code quality.
• Rapid feature deployment cycles, supporting a continuous integration and delivery pipeline.
• Security standards compliant with legal and industry regulations for data protection.

The successful implementation of a modern, scalable mobile fleet management system is expected to reduce user-reported bugs by at least 70%, achieve crash-free sessions above 99.4%, and enable rapid deployment of new features. These improvements will lead to increased operational efficiency, better driver safety, regulatory compliance, and a more maintainable codebase supporting global expansion efforts.