小米Chassis Engineer

THE ROLE Chassis Engineer – Chassis Engineering – Tire Development is responsible for technical development and product launch of new tires in support of current and future vehicle programs. RESPONSIBILITIES • Lead and manage tire development programs from concept to production to field. An ideal candidate has a great ability to research and implement new techniques and technologies in tire design. • Development to improve performance, achieve lighter weight, and integrate smart tire information to enable optimizing total system performance. • An emphasis on understanding and applying engineering fundamentals based solutions is required. • Establish Objective Targets for the Development of Tires for all active development projects • Interact with Global Suppliers to determine the best development partners to enhance Tesla vehicle platform performance – Commercial, Passenger (A/S, Summer, Winter, Track) • Continue evolution to consistant data flow that connects Virtual development to known Tesla platform performance targets in order to accelerate product development towards agrressive goals to improve overall customer experience and improve system effiecieny • Successfully working in a fast paced, detail oriented and highly collaborative team environment • Resolve issues and concerns with cross functional teams including engineering, supply chain, manufacturing and/or service • Evolve Tire Quality Monitoring Tehniques to confirm Production Tire Performance • Participate in sourcing process and interface with supply chain team and suppliers as required. • Execute projects to on-performance and on-time delivery

1. Responsible for the system requirement development and software architecture design of the full active suspension; 2. Responsible for the development and simulation validation of core control algorithms for the full active suspension, including body control and synergistic height adjustment control; 3. Responsible for the unit test of the developed software, as well as the preparation of related design and development documents; 4. Cooperate with chassis VD tuning engineers in parameter tunning and algorithm iterations, ensuring high quality overall performance delivery.

The Role Tesla’s Chassis Controls team is seeking a Software Integration Engineer who will be a systems expert on chassis controls functions and will be responsible for ensuring that new chassis control software features (e.g. autonomous driving/braking) are designed, implemented and validated to achieve Tesla’s standards for safety and customer experience. As a software integration engineer, you are expected to be an expert of your system, have deep understanding of software – hardware dependencies and be able to communicate constraints, risks and mitigations to guide vehicle programs. You will employ sound systems engineering principles to guide a team of engineers through safety critical software development. You may need to wear multiple hats through the life of a program based on your system’s needs from performing fleet data analytics to writing code. You are expected to move projects along at an aggressive pace – keeping track of program milestones and deliverables and pull together the contributions of many teams into a cohesive final product. You will also need to get your hands dirty in the details – dig through source code, root cause issues and propose solutions to complex problems, as well as test prototype firmware implementations in-vehicle at proving grounds around the world. Responsibilities Work with the design and development engineers throughout the engineering organization to ensure systems are designed with appropriate requirements, interfaces and interactions to achieve specific vehicle functions. Develop overall validation strategy for these features and work with validation teams to ensure test coverage and traceability. Work cross-functionally across mechanical, electrical, system architecture, firmware development and firmware validation teams to understand new component-level hardware changes and support them in firmware – both in manufacturing and for customer use – so that they can be seamlessly introduced to our vehicle platforms Develop and execute firmware integration test plans on new hardware components and firmware features to rapidly retire risk from new designs and provide feedback to the development teams. Work with manufacturing and service to ensure the functions are rolled out and functioning properly. This can include development of processes, diagnostic tools and methods, and root-cause diagnosis for product issues Design prototype test setups to integrate new subsystems with simulated and actual vehicle components Lead and participate in functional safety analysis of complex software systems. Develop the safety concept, lead HARA, DFMEAs and guide software design.

1. Responsible for the overall architecture design and planning of the chassis by wire, and formulate technical routes and programs; 2. Work closely with hardware engineers and software engineers to design the electrical and electronic architecture, and develop control strategies and algorithms to realize the intelligent control of the chassis by wire system; 3. Conduct safety analysis based on chassis by wire functional architecture and definition, develop safety requirements at function level , and participate in the safety design of each function; 4. Be responsible for data collection and analysis during the testing process, timely detection and resolution of problems during testing, and optimization and improvement of the system; 5. Participate in fault diagnosis and troubleshooting of chassis by wire system, establish the FMEA system, and formulate the corresponding fault response measures; 6. Participate in the discussions of chassis by wire regulations or technical standards in Europe and globally, translate the content into system or safety design requirements, and into the software and hardware design of EMB. Represent Li Auto in the regulatory or technical standard discussions to propose suggestions or comments.