To design and implement a solar tracking system that optimizes energy collection under varying environmental conditions. To develop a reliable object tracking system capable of identifying and monitoring targets in real-time across different scenarios. To integrate the solar tracking and object detection systems into a unified control platform, balancing energy usage and operational efficiency. To evaluate the performance of the integrated vehicle through testing in diverse environments, ensuring adaptability and reliability . By addressing these objectives, this study provides a sustainable and intelligent solution for autonomous systems and renewable energy applications. The outcomes are expected to contribute to advancements in eco friendly transportation, energy management, and intelligent automation
Size : 1,97 MB
Format : Adobe PDF
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To design and implement a solar tracking system that optimizes energy collection under varying environmental conditions. To develop a reliable object tracking system capable of identifying and monitoring targets in real-time across different scenarios. To integrate the solar tracking and object detection systems into a unified control platform, balancing energy usage and operational efficiency. To evaluate the performance of the integrated vehicle through testing in diverse environments, ensuring adaptability and reliability . By addressing these objectives, this study provides a sustainable and intelligent solution for autonomous systems and renewable energy applications. The outcomes are expected to contribute to advancements in eco friendly transportation, energy management, and intelligent automation
Size : 1,97 MB
Format : Adobe PDF
