Riipen | Hardware Solution- Design and Simulation- Cargo Delivery

Hardware Solution- Design and Simulation- Cargo Delivery Robot

Closed

Telebotics

Toronto, Ontario, Canada

Omid Sadeghi He

CEO

(3)

Preferred learners

Canada
Academic experience

Skills

3d modeling solution design conceptual design operational efficiency research adaptability simulations computer-aided design

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

Industry, innovation and infrastructure

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.