kinetic design

简明释义

动态设计

英英释义

例句

1.In architecture, kinetic design can create dynamic facades that change appearance throughout the day.

在建筑中，动能设计可以创造出动态的外立面，随着一天的时间变化外观。

2.The installation used kinetic design to create a mesmerizing effect as the lights moved in sync with the music.

该装置使用动能设计创造出迷人的效果，灯光与音乐同步移动。

3.The artist's work is known for its innovative use of kinetic design, allowing viewers to interact with the pieces.

这位艺术家的作品以创新使用动能设计而闻名，使观众能够与作品互动。

4.A kinetic design approach in product development can lead to more engaging and user-friendly devices.

在产品开发中采用动能设计的方法可以导致更具吸引力和用户友好的设备。

5.The new exhibit at the science museum features a stunning example of kinetic design, where the sculptures move with the wind.

科学博物馆的新展览展示了一个令人惊叹的动能设计示例，雕塑随着风而移动。

作文

In recent years, the concept of kinetic design has gained significant attention in various fields, particularly in architecture and product design. Kinetic design refers to a design approach that incorporates movement and change as integral elements of the final product. This innovative methodology not only enhances aesthetic appeal but also improves functionality and user interaction. The essence of kinetic design lies in its ability to create dynamic experiences that engage users in a more profound way than static designs can offer.One of the most compelling aspects of kinetic design is its ability to adapt to different contexts and user needs. For instance, in architecture, buildings can be designed with movable facades that respond to environmental conditions, such as sunlight and wind. This not only optimizes energy efficiency but also allows for a more responsive relationship between the structure and its surroundings. Similarly, in product design, items can be created with features that adjust based on user interaction, making them more intuitive and user-friendly.The application of kinetic design can be seen in various examples around the world. One notable instance is the Al Bahr Towers in Abu Dhabi, which feature a unique facade that opens and closes in response to the sun's position. This innovative design not only enhances the building's energy efficiency but also adds a captivating visual element that changes throughout the day. Another example is the kinetic sculptures created by artist Theo Jansen, who designs large, wind-powered structures that move gracefully across the landscape. These sculptures not only serve as art but also demonstrate the principles of kinetic design in motion.Moreover, kinetic design encourages collaboration between different disciplines, merging art, engineering, and technology. This interdisciplinary approach fosters creativity and leads to groundbreaking innovations. For instance, advancements in robotics and materials science have enabled designers to create more sophisticated moving parts that were previously unimaginable. As technology continues to evolve, the potential for kinetic design will only expand, leading to even more exciting developments in the future.In conclusion, kinetic design represents a shift towards more interactive and adaptable design solutions that resonate with users on multiple levels. By embracing movement and change, designers are able to create products and environments that are not only visually stunning but also highly functional. As we move forward, it is essential for designers to consider the principles of kinetic design in their work, as this approach will undoubtedly play a crucial role in shaping the future of design. Ultimately, the integration of kinetic design into various fields will lead to a more dynamic and engaging experience for users, transforming the way we interact with our surroundings.

近年来，动能设计的概念在各个领域，尤其是建筑和产品设计中引起了广泛关注。动能设计是指一种将运动和变化作为最终产品的核心元素的设计方法。这种创新的方法不仅增强了美学吸引力，还改善了功能性和用户互动。动能设计的本质在于它能够创造出动态体验，以比静态设计更深刻的方式吸引用户。动能设计最引人注目的方面之一是它能够适应不同的环境和用户需求。例如，在建筑中，可以设计具有可移动外立面的建筑，这些外立面会根据环境条件（如阳光和风）进行调整。这不仅优化了能源效率，还允许建筑与其周围环境之间建立更具响应性的关系。同样，在产品设计中，可以创建根据用户互动进行调整的特性，使其更加直观和用户友好。动能设计的应用在世界各地都有明显的例子。其中一个显著的实例是阿布扎比的阿尔巴赫塔，这座建筑的外立面独特，能够根据太阳的位置开合。这种创新设计不仅提高了建筑的能效，而且增加了一种随着时间变化的迷人视觉元素。另一个例子是艺术家西奥·贾森创作的动能雕塑，他设计的大型风力驱动结构优雅地在景观中移动。这些雕塑不仅作为艺术品存在，还展示了动能设计的运动原理。此外，动能设计鼓励不同学科之间的合作，融合艺术、工程和技术。这种跨学科的方法促进了创造力，导致了突破性的创新。例如，机器人技术和材料科学的进步使设计师能够创造出以前无法想象的更复杂的运动部件。随着技术的不断发展，动能设计的潜力只会扩大，未来将会出现更令人兴奋的发展。总之，动能设计代表了一种向更具互动性和适应性设计解决方案的转变，这些解决方案在多个层面上与用户产生共鸣。通过拥抱运动和变化，设计师能够创造出不仅在视觉上令人惊叹而且功能性极高的产品和环境。随着我们向前发展，设计师在工作中考虑动能设计的原则至关重要，因为这种方法无疑将在塑造设计的未来中发挥关键作用。最终，将动能设计融入各个领域将为用户带来更具动态性和参与感的体验，改变我们与周围环境的互动方式。