Automotive safety and security are paramount in the rapidly advancing landscape of vehicular technology. Building safe and secure vehicles demands a profound understanding of automotive systems, particularly in safety and security. Traditional learning approaches, such as reading materials or observing demonstrations, often fail to provide the practical, hands-on experience essential for developing this expertise. For novice users, gaining access to automotive-grade systems and mastering their associated hardware and software can be challenging and overwhelming. In this paper, we present a novel, affordable, and flexible exploration platform, \hema, that enables users to gain practical, hands-on insights into the security compromises of micro-electromechanical systems (MEMS) sensors, a critical component in modern ADAS systems. Furthermore, we discuss the unique challenges and design considerations involved in creating such a platform, emphasizing its role in enhancing the understanding of automotive safety and security. This framework serves as an invaluable resource for educators, researchers, and practitioners striving to build expertise in the field.

翻译：在快速发展的汽车技术领域，车辆安全与防护至关重要。构建安全可靠的汽车需要对汽车系统，特别是其安全与防护机制有深刻理解。传统的学习方法，如阅读资料或观察演示，往往难以提供培养此类专业知识所必需的实践动手经验。对于新手用户而言，获取汽车级系统并掌握其相关的硬件和软件可能既充满挑战又令人望而生畏。本文提出了一种新颖、经济且灵活的探索平台——\hema，该平台使用户能够通过实践动手的方式，深入了解微机电系统（MEMS）传感器（现代ADAS系统中的关键组件）的安全漏洞。此外，我们讨论了构建此类平台所面临的独特挑战与设计考量，并强调了其在深化对汽车安全与防护理解方面的重要作用。该框架为致力于在该领域建立专业知识的教师、研究人员和从业者提供了宝贵的资源。