Hardware Solution- Design and Simulation- Cargo Delivery Robot
Preferred learners
- Canada
- Academic experience
Categories
Skills
Project scope
- What is the main goal for this project?
-
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.
- What tasks will learners need to complete to achieve the project goal?
-
Tasks for learners to complete include:
- Initial research on existing cargo delivery robot designs and understanding the specific needs for urban delivery (10 hours).
- Learning and applying CAD software to create an initial design of the robot's base structure, focusing on load-bearing, balance, and maneuverability (20 hours).
- Performing basic simulations to test the design under varying urban scenarios, including payload, terrain adaptability, and stability (20 hours).
- Refining the design based on simulation feedback, with attention to material efficiency, manufacturing feasibility, and operational efficiency (20 hours).
- Documenting the design process, with emphasis on the decisions made and simulation outcomes (10 hours).
Final deliverables should include:
- A detailed 3D model of the cargo delivery robot design.
- Simulation outcomes and documentation of the design process.
- What is the main goal for this project?
-
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.
- What tasks will learners need to complete to achieve the project goal?
-
Tasks for learners to complete include:
- Initial research on existing cargo delivery robot designs and understanding the specific needs for urban delivery (10 hours).
- Learning and applying CAD software to create an initial design of the robot's base structure, focusing on load-bearing, balance, and maneuverability (20 hours).
- Performing basic simulations to test the design under varying urban scenarios, including payload, terrain adaptability, and stability (20 hours).
- Refining the design based on simulation feedback, with attention to material efficiency, manufacturing feasibility, and operational efficiency (20 hours).
- Documenting the design process, with emphasis on the decisions made and simulation outcomes (10 hours).
Final deliverables should include:
- A detailed 3D model of the cargo delivery robot design.
- Simulation outcomes and documentation of the design process.
- How will you support learners in completing the project?
-
- Bi-weekly 30-minute Q&A sessions for guidance (total 2 hours).
- Online resources for additional learning and community support.
Supported causes
About the company
- https://www.linkedin.com/company/telebotics/
- 2 - 10 employees
- Transport, trucking & railroad, Automotive, Technology
With a foundation in micromobility and the auto industry, we're revolutionizing deliveries with our network of automated robots. A fresh, scalable approach to logistics.