Core Insights - Bionic technology is transforming the cultural tourism sector in China by creating immersive experiences that blend digital technology with biological inspiration [1][31] - The application of bionic technology includes bionic animals, robots, and architectural designs, enhancing visitor engagement and educational value [1][31] Bionic Animals - Bionic animals are a prominent application of bionic technology, allowing extinct species like dinosaurs to be "revived" through mechanical and intelligent systems [2][3] - The bionic dinosaurs in Sichuan's Zigong, developed by Zigong Ancient Dragon Technology, interact with visitors, enhancing educational experiences and attracting global interest [3][11] - Dalian Botao Cultural Technology's bionic giant creatures, such as the AI bionic bear "Jubear Beibei," showcase advanced interaction capabilities, becoming popular attractions [6][7] Bionic Robots - Bionic robots are increasingly used in cultural tourism for both service and performance roles, providing personalized guidance and engaging entertainment [16][31] - Service robots in tourist sites, like those in Wuzhen, offer tailored experiences through real-time interaction and data analysis, improving visitor satisfaction [17][18] - Performance robots, such as the Li Bai robot in Hubei, bring historical figures to life, enhancing cultural storytelling through interactive presentations [19][22] Bionic Architecture and Landscape Design - Bionic architecture mimics natural forms and functions, creating harmonious environments that enhance visitor experiences [25][26] - Examples include the Qingxi Cultural and Historical Museum in Zhejiang, which integrates local natural elements into its design, promoting cultural and ecological awareness [26][29] - Bionic landscape designs, such as interactive public art installations, engage visitors and promote environmental sustainability [27][30] Industry Impact and Trends - Bionic technology is enhancing visitor experiences by providing novel and immersive attractions, aligning with the demand for high-quality tourism [31][32] - The integration of bionic technology is fostering new cultural IPs and tourism business models, driving economic growth in regions like Zigong and Haichang Ocean Park [31][32] - The collaboration between cultural tourism and technology sectors is accelerating innovation and improving project quality, exemplified by partnerships between theme parks and tech companies [32][35] - Bionic technology is also reinforcing educational functions in tourism, making learning more engaging through interactive exhibits and performances [35][36]

Core Viewpoint - The article discusses the innovative "bionic stability" technology developed by Daziran, which addresses the common issues of wood deformation in solid wood flooring, providing a stable and reliable flooring solution for various environmental conditions [2][16]. Group 1: Wood Characteristics and Challenges - Wood naturally absorbs moisture, causing it to swell, and releases moisture, leading to shrinkage, which results in deformation and cracking over time [4]. - The irregular arrangement of wood fiber cells contributes to these deformation issues, posing a long-standing challenge in the industry [4]. Group 2: Innovative Technology - Daziran's "bionic stability" technology is inspired by the adaptive wisdom of plant cells, transforming wood from the inside out [8]. - The patented "dry-pressing method" aligns wood fiber cells into a stable "oval structure," akin to adding a "reinforced skeleton" to the wood [8]. - A nano-vacuum treatment removes excess moisture from the cells, allowing the wood to maintain stability without drastic changes in response to humidity [10]. Group 3: Performance and Benefits - Laboratory tests indicate that solid wood flooring remains stable under extreme high-temperature and high-humidity conditions, even improving thermal conductivity [12]. - The third-generation steel buckle technology enhances installation simplicity, eliminating the need for glue or beams, and ensures the flooring remains stable and quiet during use [12][14]. - This combination of "bionic technology + third-generation steel buckle" effectively addresses environmental challenges, making it suitable for various climates, including humid and dry conditions [14].

从春秋战国墨子的 "木鸢"，到文艺复兴达・芬奇的扑翼机草图，人类对扑翼飞行的痴迷已跨越两千余年。 而如今，科学家真正破解了蜂鸟的飞行密码。 北京航空航天大学吴江浩教授 团队历时十余年攻关，成功研制出我 国首个具备自主悬停能力的仿蜂鸟微型飞行器 ——这只手掌大小、重量不足一颗鸡蛋的机械蜂鸟，不仅能以每秒 数十次的频率拍打翅膀，实现精准悬停、倒飞甚至0.18秒内完成360°旋转（比真蜂鸟更快），更在2024年成为同 类飞行器中唯一持续飞行时间超过15分钟的存在，让 "机械长出生命的翅膀" 从梦想照进现实。 达芬奇《巴黎手稿B》中的设计图纸 一、自然为师：为何蜂鸟成了 "最优解"？ 自然界的蜂鸟堪称 "飞行界的芭蕾舞者"：体型仅手掌大小，却能以每秒80次的频率拍打翅膀，实现直升机般的精 准悬停，飞行效率远超现代无人机。这种 "小而精" 的特性，让它成为微型飞行器的完美模仿对象——但模仿之路 绝非易事。 "在小尺度上重建一套飞行体系"，吴江浩教授如此形容研发难度。当飞行器缩小到巴掌大时，传统空气动力学规 律不再适用，高频拍动带来的往复交变载荷容易让结构断裂，早期用光敏树脂3D打印的原型机甚至出现 "组装一 整天，测试 ...

Core Viewpoint - The launch of the intelligent soft bionic ornamental fish "Jinlin" at Shanghai Ocean University represents a significant advancement in bionic technology, with applications in education, entertainment, and family interaction, serving as a cultural bridge between technology and humanity [2][3] Group 1: Product Features and Technology - "Jinlin" is designed based on the golden dragon fish and incorporates cutting-edge bionic technology, including artificial muscle drives and AI algorithms, allowing it to closely mimic the swimming posture and behavior of real golden dragon fish [2] - The fish features a precise posture control system that enables realistic movements, achieving a lifelike visual effect [2] Group 2: Application and Market Potential - The application scenarios for "Jinlin" are extensive, including aquariums and theme parks, where it enhances the viewing experience and offers unprecedented interactive opportunities for visitors [2] - Experts highlight the broad application prospects of "Jinlin," suggesting potential uses in aquaculture and water environment monitoring, indicating significant commercialization potential [3] Group 3: Industry Impact and Future Development - The development of "Jinlin" is seen as a perfect fusion of aquatic technology and human needs, with plans for collaborative innovation between academia and industry to drive the commercialization of bionic fish technology [3] - The anticipated industrial chain driven by "Jinlin" is expected to create a market scale in the hundreds of billions, injecting new momentum into related industries [3] - The promotion of "Jinlin" in aquariums is expected to reduce the capture of wild fish, contributing positively to biodiversity conservation [3]