My Business Cases

1) A real-time bus and metro tracking app that minimizes waiting times and optimizes routes based on traffic conditions.

A real-time bus and metro tracking app minimizes waiting times and optimizes routes using live traffic data and transit schedules. It displays the exact location of buses and trains, provides accurate arrival times, and suggests the best routes based on traffic and user preferences. With features like real-time alerts, intuitive navigation, and accessibility support, the app ensures a seamless commuting experience. By integrating APIs for geolocation and traffic updates, and leveraging predictive algorithms, it delivers reliable and efficient travel solutions for urban commuters.

DIJKSTRA'S and BELLMAN-FORD algorithms are applicable to the real-time bus and metro tracking app as they help optimize route planning in a transportation network. Dijkstra's algorithm efficiently finds the shortest path in graphs with non-negative weights, making it ideal for suggesting the fastest routes based on live traffic or travel time data. Bellman-Ford, on the other hand, is better suited for scenarios with dynamically changing conditions or negative weights, such as penalties for congested areas or restricted routes. Together, these algorithms enable the app to provide accurate and efficient route suggestions for commuters.

2) A unified digital payment platform for all modes of transportation (buses, metros, e-scooters).

A unified digital payment platform streamlines transactions across all modes of transportation, including buses, metros, and e-scooters. By integrating multiple services into a single app, users can seamlessly pay for rides, check balances, and manage subscriptions with ease. The platform supports various payment methods, including digital wallets, credit cards, and UPI, ensuring accessibility for all commuters. With features like QR code scanning, NFC payments, and real-time fare calculations, it eliminates the need for multiple payment systems, enhancing efficiency and convenience in urban mobility.

HASHING and FLOYD-WARSHALL algorithms are applicable to the unified digital payment platform as they enhance efficiency and connectivity. Hashing ensures quick and secure access to user data, such as balances and transactions, while protecting sensitive information through cryptographic methods. Floyd-Warshall helps compute the shortest paths in a transportation network, enabling optimal fare calculations and seamless integration across multiple transit modes. Together, they ensure a fast, secure, and cost-effective experience for commuters.