biped

简明释义

英[ˈbaɪped]美[ˈbaɪped]

adj. 有两足的

n. 两足动物

复 数 b i p e d s

英英释义

单词用法

同义词

反义词

例句

1.When biped robot walks on the uneven ground, over-obstacle motion needs to be generated in response to terrain character.

两足机器人在崎岖不平的地面上行走时，需要根据地形特征产生相应的越障步行运动。

2.The gait of a human being or other biped in which the feet are lifted alternately with one part of a foot always on the ground.

步法，脚步：人或其他两足动物的步法，双脚轮流提空，一只脚的某一部分始终接触地面。

3.From simple bone-rigged characters to extremely complex RIGS mixing a Biped skeleton with IK-driven bone chains and procedural controllers.

从简单的骨绑定的人物到极其复杂的双足骨骼IK骨骼链混合绑定和驱动程序控制器。

4.The gait of a human being or other biped in which the feet are lifted alternately with one part of a foot always on the ground.

步法，脚步人或其他两足动物的步法，双脚轮流提空，一只脚的某一部分始终接触地面。

5.And, perhaps as importantly, you also can never devote your undivided attention to the biped mammals who are breathing air in the room with you.

而可能更重要的是，你也从未将你的注意力分给那些与你同呼吸的两足哺乳动物上。

6.Lower extremity exoskeleton robot is a kind of typically man-machine integrated system with some biped walking robots 'characters.

下肢穿戴外骨骼机器人是一种具有双足步行特征的典型的人机一体化系统。

7.Birds are often considered bipeds when they are on land.

鸟类在陆地上时常被视为双足动物。

8.The biped walked gracefully across the stage.

这个双足动物优雅地走过舞台。

9.Some dinosaurs were also bipeds, using their two legs for movement.

一些恐龙也是双足动物，用两条腿移动。

10.The study of bipeds can help us understand human evolution.

对双足动物的研究可以帮助我们理解人类进化。

11.Humans are classified as a type of biped.

人类被归类为一种双足动物。

作文

The term biped refers to an organism that moves using two legs. This characteristic is most commonly associated with humans and many bird species. The evolution of biped locomotion has played a crucial role in the development of various species, allowing them to adapt to different environments and lifestyles. For example, the ability to walk on two legs freed up the hands of early hominins, enabling them to use tools and carry objects. This shift in mobility not only enhanced survival skills but also facilitated social interactions and the formation of complex societies.In contrast to quadrupeds, which are animals that walk on four limbs, biped organisms have unique anatomical structures that support upright movement. The human skeleton, for instance, features a curved spine, a broad pelvis, and modified lower limbs that are optimized for bipedalism. These adaptations allow for efficient walking and running, which are essential for escaping predators and hunting for food.The study of biped locomotion has also been a significant area of research in biomechanics and robotics. Engineers and scientists analyze the mechanics of how bipedal creatures move to create robots that can walk upright. This research has implications not only for technology but also for understanding human health and mobility. For instance, gait analysis can help identify issues in elderly individuals or those recovering from injuries, leading to better rehabilitation strategies.Moreover, the concept of biped extends beyond biology into philosophy and culture. It raises questions about what it means to be human. The ability to walk upright is often seen as a defining characteristic of humanity, setting us apart from other animals. This distinction has influenced art, literature, and even religious beliefs throughout history. Many cultures celebrate the uniqueness of human beings, emphasizing our capacity for creativity, reasoning, and social organization, all of which have been enhanced by our biped nature.In conclusion, the word biped encapsulates a fascinating aspect of biological evolution and human identity. Understanding the significance of this term helps us appreciate the complexities of movement and the evolutionary adaptations that have shaped life on Earth. Whether in the context of science, technology, or culture, the concept of biped remains a vital part of our understanding of ourselves and the world around us. As we continue to explore the intricacies of bipedal locomotion, we gain insights not only into our own physiology but also into the broader tapestry of life that exists on our planet.

术语biped指的是一种使用两条腿移动的生物。这一特征最常与人类和许多鸟类物种相关联。biped运动的进化在各种物种的发展中发挥了至关重要的作用，使它们能够适应不同的环境和生活方式。例如，早期人类能够用两条腿行走，为他们腾出了手，使他们能够使用工具和携带物体。这种运动方式的转变不仅增强了生存技能，还促进了社会互动和复杂社会的形成。与四足动物（即用四肢行走的动物）相比，biped生物具有独特的解剖结构，以支持直立运动。人类骨骼例如，具有弯曲的脊柱、宽阔的骨盆和经过改造的下肢，这些都是为双足行走优化的。这些适应使得高效的步行和奔跑成为可能，而这些对于逃避捕食者和寻找食物至关重要。对biped运动的研究也是生物力学和机器人技术的重要研究领域。工程师和科学家分析双足生物的运动机制，以创造能够直立行走的机器人。这项研究不仅对技术有影响，还有助于理解人类的健康和活动能力。例如，步态分析可以帮助识别老年人或那些正在康复的个体的问题，从而制定更好的康复策略。此外，biped的概念超越了生物学，进入了哲学和文化领域。它引发了关于人性的定义问题。能够直立行走通常被视为人类的一个决定性特征，使我们与其他动物区别开来。这一区别影响了历史上的艺术、文学，甚至宗教信仰。许多文化庆祝人类的独特性，强调我们创造力、推理能力和社会组织能力，而这些都因我们的biped特性而得到增强。总之，词汇biped概括了生物进化和人类身份的一个迷人方面。理解这个术语的重要性帮助我们欣赏运动的复杂性以及塑造地球生命的进化适应。无论是在科学、技术还是文化的背景下，biped的概念仍然是我们理解自己和周围世界的一个重要部分。随着我们继续探索双足运动的复杂性，我们不仅能深入了解我们自己的生理结构，还能深入了解我们星球上存在的更广泛的生命图景。