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@article{176887,
        author = {Sankalp Hivare and Seema Borawake and Rakhi Khedkar and Monika Jagtap and Aadarsh Harne and Vaibhav Patharikar},
        title = {Integrated Cluster Development with Human Machine Interface},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {11},
        number = {11},
        pages = {7698-7707},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=176887},
        abstract = {In this paper, the project aims to transform car dashboards with an integrated, user-friendly interface that improves driving and vehicle management. Unlike traditional dashboards, which rely on separate indicators and analog displays, this advanced system combines multiple features into a single, comprehensive interface. Key features include real-time speed display, distance tracking, engine RPM, gear status, and online music streaming for enhanced user entertainment. The speedometer and odometer allow drivers to monitor their speed and distance travelled, while the engine RPM and gear indicator ensure efficient driving. In contrast to traditional dashboards, this system also incorporates vehicle diagnostics, enabling early detection of issues like engine problems or system malfunctions, which promotes timely maintenance and reduces repair costs. The system’s wiring harness is designed to efficiently connect multiple components, reducing clutter and improving reliability compared to traditional dashboards with their complex and bulky wiring, results in decreasing weight of car and increase car mileage. It also offers a visually enhanced interface, implemented using the DGUS-Based UI Deployment Algorithm for the DWIN display, ensuring smooth rendering of critical information like speed, gear status, and temperature. The centralized display is strategically located to minimize driver distraction, ensuring safer driving by requiring only slight glances to the left instead of looking up or down.
Additionally, the integration of a temperature gauge monitors atmospheric conditions, while online music streaming provides access to playlists for entertainment. The CAN (Controller Area Network) protocol enables seamless communication within the system, utilizing the CAN-to-UART Data Transmission Algorithm to efficiently relay data between components, enhancing performance and reliability. Overall, this modern dashboard redefines vehicle interaction by 
providing a safer, more enjoyable, and efficient driving experience, surpassing the limitations of traditional dashboards.},
        keywords = {Integrated interfaces, Driving experience, Real – time driving information, CAN protocol.},
        month = {May},
        }