- Project Overview🚗 At PIX, our Robo-EV project is on a mission to redefine the automotive panorama. We are committed to developing revolutionary technology for this sector. Utilizing AI and novel methods in design, engineering, and manufacturing, our aim is to ignite a design revolution. The Robo-EV is not merely a vehicle; it serves as a symbol of progress and offers a glimpse into the future of transportation.
- Product Lineup🌟
The Robo-EV project encompasses a suite of three vehicle models:
Robo-EV,Robo-EV Lite, and theRobo-EV S. Our initiative strives to offer a diverse array of electric vehicle options, catering to the varied needs and preferences of consumers. - Repo Purpose🛠️ Our cross-disciplinary team of experts – engineers, designers, and scientists – is united in the pursuit of innovation. This GitHub repository is designed to serve as a dynamic platform for both designers and engineers. It provides real-time updates on the latest project developments and engineering insights. Additionally, it extends an open invitation to all passionate geek designers and engineers to contribute to the project. Fork the repository, collaborate with us, and help drive innovation in this project.
Our repository is organized into three main sections, each focusing on a different aspect of the Robo-EV project:
This section offers an in-depth exploration of the aesthetic and functional facets of product design by leveraging advanced design workflows and methodologies.
- Product Styling and Design: Detailed insights into the appearance design, along with comprehensive models and documentation for
Robo-EV,Robo-EV Lite, and theRobo-EV S. - AIGC-Assisted Design Workflow: A deep dive into the application of cutting-edge AIGC tools, such as Stable Diffusion, midjourney, and AI 3D model generation, within the design process.
- Parametric Design: A focus on parametric design techniques using tools like Rhino and Grasshopper, or programming-based methods, to streamline the design workflow and enhance creative outcomes.
This section is dedicated to providing technical insights and information related to the automotive engineering architecture.
| Section | Description | Repository |
|---|---|---|
| Autonomous Driving | Latest developments in self-driving technologies, incorporation into vehicle architecture | Autoware |
| Chassis Architecture | Chassis design details: structure, performance, safety features | Coming Soon |
| Body Architecture | Vehicle body design and engineering: materials, manufacturing processes | Coming Soon |
| Electrical Architecture | Intricate electrical systems of modern vehicles: explanations, technical data | Electrical Architecture |
| Vehicle Control Unit | Central control unit overview, coordinating vehicle operations | Coming Soon |
| Human-Machine Interaction | Interfaces and technologies for driver-vehicle interaction | AI Agent |
| Network Communication | Network systems for data communication between vehicle components | Coming Soon |
| Additional Engineering Insights | Other engineering information and details | Coming Soon |
Dive into the disclosure and presentation of RTM and moldless technologies, pivotal to the advancement of automotive manufacturing processes, where efficiency and innovation define the future of production.
- Double-Sided Incremental Forming (DSIF): Uncover the intricacies of the DSIF process, exploring its innovative applications within the automotive industry, particularly in the crafting of interior and exterior trim components, which exemplify precision and design flexibility.
- WAAM Process: Investigate the Wire and Arc Additive Manufacturing process, a transformative approach in metal fabrication that is redefining the possibilities of precision engineering and rapid prototyping.
- Composite Materials oriented Process: Gain a deeper understanding of how advanced composite materials are leveraged in automotive manufacturing, and discover the sophisticated processes that optimize their performance, driving the industry towards lighter, stronger, and more sustainable vehicles.
We’re excited for you to browse the repo, contribute your insights, and help drive the future of Robo-EV tech. Fork the repo, star your favorites, and let’s build something amazing together!
- Triage open issues: replicate the issues reported by others to verify their occurrence and request further information from users if necessary. Identify duplicates, refine descriptions, and assist users seeking assistance.
- Submit fixes and implementations: choose an open issue or feature request that you're capable of tackling, and present a pull request with your completed implementation.
- Test open pull requests: attempt to execute the suggested changes and provide feedback on the results. The process of testing on actual hardware can be lengthy, and any assistance will expedite our integration of contributions.
- Help others contribute by offering code reviews and recommending effective strategies for implementing fixes and features.
- Write documentation and improve the existing content.
At PIX, we're a team of geeks 🤓 from various fields like engineering, design, architecture, and computer science. We actively interact with the broader PIX Community on our discussion forum, so come join us! 😊 We value contributions and reward our most active contributors with public recognition, maintainer status, and hardware goodies.
Unless otherwise described, the code in this repository is licensed under the GNU GPL v3.0 License (GNU General Public License version 3.0). Please note that some modules, extensions or code herein might be otherwise licensed. This is indicated either in the root of the containing folder under a different license file, or in the respective file's header. If you have any questions, don't hesitate to get in touch with us via email.