Design and Simulation (Hardware)- Cargo Delivery Robot

The main goal of the project is to develop a conceptual design for a cargo delivery robot, conduct simulations to assess its functionality and efficiency, and create a detailed 3D model of the design. The emphasis is on the robot's base structure, which should be optimized for cargo carrying, stability, and maneuverability in urban environments.

Software Solution - Last Mile Delivery

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.

Regulatory Compliance and Risk Management for Telebotic Delivery Solutions

The main goal of this project is to explore and understand the regulatory landscape for Telebotic delivery solutions, identifying key regulatory hurdles and suggesting practical compliance solutions. Additionally, it aims to analyze potential risks associated with robotic delivery and propose strategies for risk mitigation, including control mechanisms and insurance coverage options.

Market Research: Customer Insight and Needs Assessment

The project's primary goal is to capture deep customer insights to inform the design of the cargo delivery robot for Telebotics, a company revolutionizing deliveries with automated robots. This will involve several different steps for the learners, including: - Developing and conducting surveys/interviews with customers - Analyzing needs and synthesizing findings into a customer insight report

Market Research: Urban Delivery Market Analysis for Autonomous Delivery Robot

The main goal of this project is to analyze the urban delivery market to identify gaps and opportunities for autonomous delivery robots. This will involve several different steps for the learners, including: - Researching current market trends in the urban delivery sector. - Conducting competitor analysis to understand the landscape of autonomous delivery solutions. - Identifying potential user demographics and pain points in the urban delivery market.