Core Viewpoint - The 6th China Robotics Academic Annual Conference (CCRS2025) will be held from August 1 to 3, 2025, in Changsha, Hunan, focusing on the theme "Human-Machine Integration, Intelligent Future" and aims to gather over 3,000 participants, including more than 200 experts and academicians in the field of robotics and artificial intelligence [1][5][6]. Group 1: Conference Overview - CCRS2025 is one of the largest and most influential academic events in China's robotics field, focusing on cutting-edge technologies, industry development, and innovative achievements [5][6]. - The conference will feature keynote speeches, seminars, and discussions on various topics, including industrial robots, service robots, special robots, swarm intelligence, humanoid and bionic robots, and other hot topics [1][6][7]. - The organizing committee includes prominent academicians and professors from leading universities and research institutes, ensuring high-level academic exchange [6][7]. Group 2: Industry Development - The rapid development of artificial intelligence and digital information technology has significantly propelled the robotics industry forward [7]. - The CCRS conference serves as a platform for industry collaboration and academic research, fostering deeper exchanges and cooperation among enterprises [7]. - The conference aims to build an open and innovative ecosystem for the robotics industry, promoting the vision of human-machine integration in the intelligent era [7].

会议介绍 第六届中国机器人学术年会（CCRS2025） 将于2025年8月1日-3日，在 湖南省长沙市长沙国际会议中 心 召开，本届年会由 中国机械工程学会 机器人分会、中国自动化学会机器人专业委员会、 中国宇航学会 机器人专业委员会、中国自动化学会共融机器人专委会、中国图象图形学学会视觉检测专委会、中国人工 智能学会智能机器人委员会、中国计算机学会智能机器人专委会、中国指挥与控制学会无人系统专业委员 会共同主办。 岳麓山工业创新中心、机器人视觉感知与控制技术国家工程研究中心、智能制造装备与技术 全国重点实验室、机器人技术与系统全国重点实验室、机器人与智能系统全国重点实验室共同承办。 以 "人机共融，智向未来" 为主题，邀请我国机器人与人工智能领域相关院士、资深专家等200余人通过主旨 报告、研讨会等形式在工业机器人、服务机器人、特种机器人、群体智能与群体机器人、人形与仿生机器 人及其它热点主题下开展热烈讨论，研讨发展趋势，交流技术成果，预计参会人数3000人以上。 | | | 注册通知 | | | --- | --- | --- | --- | | | | 缴费标准 | | | 注册类型 | 6月30日前及 ...

Core Viewpoint - The article discusses advancements in bionic robotics and intelligent control, emphasizing the need for innovation in robot design to achieve better energy efficiency and functionality, particularly in humanoid robots [2][20]. Group 1: Bionic Robotics and Intelligent Control - The "2025 Bionic Robot and Intelligent Control Forum" held in Hangzhou attracted nearly 400 participants and over 10,000 online viewers, highlighting the growing interest in bionic robotics [2]. - The forum featured a keynote report by Professor Qian Zhihui from Jilin University, focusing on the principles and technologies behind bionic tensile and compressive robots [2]. Group 2: Current Challenges in Humanoid Robotics - Humanoid robots are currently in a "showcase-first" stage, with significant gaps in practical application, including issues with safety, arm manipulation, and high energy consumption [4]. - The Cost of Transport (COT) metric indicates that humanoid robots have much higher energy consumption compared to humans, with values such as 5 for Boston Dynamics' Atlas and 1.6 for Honda's Asimo, while humans have a COT of only 0.05 [5]. Group 3: Analysis of Robotic Limitations - Three main issues are identified in humanoid robots: 1. Material composition leads to poor safety in human-robot physical contact due to rigid components [6]. 2. Joint structures are simplified and require complex control, increasing energy consumption [6]. 3. Power systems are inefficient due to multiple energy conversions, unlike the integrated system found in human muscles [6]. Group 4: Innovations in Bionic Robotics - The concept of "Layagrity" is introduced, which combines tensile and compressive elements to create a new design for advanced humanoid robots [7]. - The first generation of bionic tensile robots has been developed, achieving walking speeds of 2.0-4.5 km/h with a COT of 0.069-0.107, significantly lower than traditional humanoid robots [11]. Group 5: Advances in Dexterous Manipulation - The development of bionic hands faces challenges due to the trade-off between rigid and soft hands, necessitating innovative solutions [14]. - A new three-dimensional dynamic X-ray imaging system has enabled the study of human hand biomechanics, leading to improved designs for bionic hands that replicate human dexterity [14]. Group 6: Future Directions in Robotics - The research team aims to create a modular bionic system that incorporates human-like movement characteristics, focusing on dynamic stability and high precision in robotic arms and hands [20]. - The ultimate goal is to overcome existing limitations in humanoid robotics by integrating biological design principles to enhance movement intelligence and adaptability [20].

Group 1 - The 2025 Shanghai Science and Technology Festival features a unique red carpet event that includes humanoid robots, highlighting the approach of the "embodied intelligence era" [1][2] - Over 500 middle and primary school students submitted "good scientific questions," showcasing the importance of nurturing curiosity and scientific thinking among youth [1] - The event emphasizes the integration of technology and art, providing an immersive experience for attendees through the use of AI and extended reality (XR) [2] Group 2 - The humanoid robots showcased include the GR-2, which stands 1.75 meters tall and weighs 63 kilograms, and the N1, a smaller version at 1.3 meters [3] - The demonstration of humanoid robots on the red carpet symbolizes the concept of "human-machine integration" and reflects collaborative innovation in Shanghai's industry [3][4] - The event aims to inspire the public, especially students, to engage in scientific inquiry and innovation through the "Question-Driven Innovation" theme [6] Group 3 - The "Good Questions" evaluation activity for high school students is ongoing, aiming to encourage original thinking and scientific exploration [6] - The event is supported by various governmental bodies, aiming to select 20 "good questions" for further research guidance from scientists [6]

会议介绍 中国机器人学术年会是由中国机械工程学会、中国自动化学会、中国宇航学会等国内主要机器人学术研究团 体发起的全国性机器人学术会议，是全国机器人研究领域科技工作者开展机器人发展趋势研讨、理论学习、技术 交流的学术盛会。 第六届中国机器人学术年会，将于 2025年8月1日-3日 在 长沙国际会议中心 举办。湖南大学作为本届盛会承 办方，诚挚邀请全国人工智能与机器人领域相关科技工作者相聚星城，共襄盛会。 本届年会由中国机械工程学会机器人分会、中国自动化学会机器人专业委员会、中国宇航学会机器人专业委 员会、中国自动化学会共融机器人专委会、中国图象图形学学会视觉检测专委会、中国人工智能学会智能机器人 委员会、中国计算机学会智能机器人专委会、中国指挥与控制学会无人系统专业委员会共同主办。岳麓山工业创 新中心、机器人视觉感知与控制技术国家工程研究中心、智能制造装备与技术全国重点实验室、机器人技术与系 统全国重点实验室、机器人与智能系统全国重点实验室共同承办。湖南大学、华中科技大学、哈尔滨工业大学、 中国科学院沈阳自动化研究所、国家自然科学基金委员会为本届大会的技术指导单位。 本届年会大会主席由湖南大学 王耀南院士 ， ...

"我们经常开玩笑'是骡子是马拉出来遛遛'，这样才能看到机器人的真实水平"。近日，上海卓益得机器 人有限公司创始人、上海理工大学教授李清都在接受新京报贝壳财经记者采访时如是说，机器人跌跌撞 撞的情况真实呈现出来，这就是正视问题才能解决问题。 4月19日，北京亦庄半程马拉松暨全球首个人形机器人半程马拉松引起全球关注。20支参赛队伍中共有 六支参赛队伍完赛，其中，来自北京人形机器人创新中心的天工用时2小时40分42秒成功夺冠，松延动 力小顽童队获得亚军，李清都公司的行者二号队获得季军。 赛道即考场，此次人形机器人半马的赛道设计堪称"魔鬼级"。21.0975公里的赛程中，9°的坡度挑战着 机器人的平衡极限，6个左转道与8个右转道的频繁转向对运动算法提出严苛要求，而全程无折返的线性 路径则考验着机器人的续航与实时决策能力。 与此同时，本次比赛也出现了"跌倒"名场面，引发热议。从实验室走向真实赛道，是宣传视频里高大上 的机器人"现出原形"了吗？举办人形机器人马拉松的意义到底是什么？通过这次实践，能够对人形机器 人行业发展带来哪些促进作用？机器人应该做哪些工作才能成为帮助人类排忧解难的"生产力"？ 为此，新京报贝壳财经记者 ...