The primary objective of this 80-hour project is to pave the foundational groundwork for a robotic delivery network. Emphasis is placed on the conceptualization, design, and development of a functional demo for individual working robots. The project aims to tackle core components, from formulating a robust software architecture to fine-tuning basic movement commands and safety measures like collision avoidance and battery management.

By the culmination of the 80-hour time frame, students should manifest:

• An exhaustive and in-depth understanding of prevalent urban transportation solutions, giving weight to robotic interventions and how they shape the current market.
• Successfully architected a comprehensive software blueprint tailored for the delivery robot, ensuring flexibility and scalability.
• Proficiency in implementing elemental movement logic and a robust remote control mechanism that aligns with real-world scenarios.
• Seamless integration of safety protocols, prominently including a collision avoidance system and a meticulous battery monitoring setup.
• Diligent documentation and rigorous testing affirming the reliability and functionality of the assembled system.

I am a product developer with 15 years of experience in automotive and will train, guide and mentor the intern to achieve the goal.