Core Viewpoint - The article discusses the unprecedented advancements in AI, particularly in embodied intelligence, which is transforming the relationship between humans and machines. This technology is poised to revolutionize various industries, including manufacturing, healthcare, and space exploration [1][3]. Group 1: Embodied Intelligence - Embodied intelligence is characterized by machines that can understand language commands, navigate complex environments, and make intelligent decisions in real-time. This technology is no longer a concept from science fiction but is rapidly becoming a reality [1]. - Major tech companies like Tesla, Boston Dynamics, OpenAI, and Google are competing in the field of embodied intelligence, focusing on creating systems that not only have a "brain" but also a "body" capable of interacting with the physical world [1][3]. Group 2: Technical Challenges - Achieving true embodied intelligence presents significant technical challenges, including the need for advanced algorithms and a deep understanding of physical simulation, robot control, and perception fusion [3][4]. - MuJoCo (Multi-Joint dynamics with Contact) is highlighted as a critical technology in this field, serving as a high-fidelity simulation engine that bridges the virtual and real worlds [4][6]. Group 3: Advantages of MuJoCo - MuJoCo allows researchers to create realistic virtual robots and environments, enabling millions of trials and learning experiences without risking expensive hardware. This significantly accelerates the learning process, as simulations can run hundreds of times faster than real-time [6][8]. - The technology supports high parallelism, allowing thousands of simulation instances to run simultaneously, and provides a variety of sensor models, ensuring robust and precise simulations [6][8]. Group 4: Educational Opportunities - A comprehensive MuJoCo development course has been developed, focusing on practical applications and theoretical foundations, covering topics from physical simulation principles to deep reinforcement learning [9][11]. - The course is structured into six modules, each with specific learning objectives and practical projects, ensuring a solid grasp of embodied intelligence technologies [15][17]. Group 5: Project-Based Learning - The course includes six progressively challenging projects, such as building a smart robotic arm, implementing vision-guided grasping systems, and developing multi-robot collaboration systems, which are designed to provide hands-on experience [19][27]. - Each project is accompanied by detailed documentation and code references, facilitating a deep understanding of the underlying technologies and their applications in real-world scenarios [30][32]. Group 6: Target Audience and Outcomes - The course is suitable for individuals with programming or algorithm backgrounds looking to enter the field of embodied robotics, as well as students and professionals interested in enhancing their practical skills [32][33]. - Upon completion, participants will possess a complete skill set in embodied intelligence, including technical, engineering, and innovative capabilities, making them well-equipped for roles in this rapidly evolving industry [32][33].