Artificial Nature project has created a set of numerical control wave makers to simulate ocean motion, so as to study the principle of ripple formation. Through the intervention of artificial control, QIU simulates the creation process of natural forces and realizes the possibility of using natural forces as design tools. When the wave maker starts, the turbine operates, and the sand bed under the water gradually appears ripple texture. By changing the operating frequency of the wave maker, we can continuously create unconventional texture forms in nature, and then use 3D scanning technology to digitize the forms, which can be applied to different materials and products.

“人工自然” 项目创造了一组模拟海洋运动的数控造浪机,以研究涟漪形成的原理。QIU通过人工控制的介入,模拟自然力的造物过程,实现利用自然力作为设计工具的可能性。当造浪机启动时,涡轮运作,水底的沙床就逐渐出现涟漪纹理。通过改变造浪机的运行频率,来持续创造在自然界中非常规的纹理形态,再使用三维扫描技术将形态转为数字化,可应用于不同的材料和产品。

Artificial Nature project has created a set of numerical control wave makers to simulate ocean motion, so as to study the principle of ripple formation. Through the intervention of artificial control, QIU simulates the creation process of natural forces and realizes the possibility of using natural forces as design tools. When the wave maker starts, the turbine operates, and the sand bed under the water gradually appears ripple texture. By changing the operating frequency of the wave maker, we can continuously create unconventional texture forms in nature, and then use 3D scanning technology to digitize the forms, which can be applied to different materials and products.

“人工自然” 项目创造了一组模拟海洋运动的数控造浪机,以研究涟漪形成的原理。QIU通过人工控制的介入,模拟自然力的造物过程,实现利用自然力作为设计工具的可能性。当造浪机启动时,涡轮运作,水底的沙床就逐渐出现涟漪纹理。通过改变造浪机的运行频率,来持续创造在自然界中非常规的纹理形态,再使用三维扫描技术将形态转为数字化,可应用于不同的材料和产品。

Artificial Nature project has created a set of numerical control wave makers to simulate ocean motion, so as to study the principle of ripple formation. Through the intervention of artificial control, QIU simulates the creation process of natural forces and realizes the possibility of using natural forces as design tools. When the wave maker starts, the turbine operates, and the sand bed under the water gradually appears ripple texture. By changing the operating frequency of the wave maker, we can continuously create unconventional texture forms in nature, and then use 3D scanning technology to digitize the forms, which can be applied to different materials and products.

“人工自然” 项目创造了一组模拟海洋运动的数控造浪机,以研究涟漪形成的原理。QIU通过人工控制的介入,模拟自然力的造物过程,实现利用自然力作为设计工具的可能性。当造浪机启动时,涡轮运作,水底的沙床就逐渐出现涟漪纹理。通过改变造浪机的运行频率,来持续创造在自然界中非常规的纹理形态,再使用三维扫描技术将形态转为数字化,可应用于不同的材料和产品。

Artificial Nature project has created a set of numerical control wave makers to simulate ocean motion, so as to study the principle of ripple formation. Through the intervention of artificial control, QIU simulates the creation process of natural forces and realizes the possibility of using natural forces as design tools. When the wave maker starts, the turbine operates, and the sand bed under the water gradually appears ripple texture. By changing the operating frequency of the wave maker, we can continuously create unconventional texture forms in nature, and then use 3D scanning technology to digitize the forms, which can be applied to different materials and products.

“人工自然” 项目创造了一组模拟海洋运动的数控造浪机,以研究涟漪形成的原理。QIU通过人工控制的介入,模拟自然力的造物过程,实现利用自然力作为设计工具的可能性。当造浪机启动时,涡轮运作,水底的沙床就逐渐出现涟漪纹理。通过改变造浪机的运行频率,来持续创造在自然界中非常规的纹理形态,再使用三维扫描技术将形态转为数字化,可应用于不同的材料和产品。

Artificial Nature project has created a set of numerical control wave makers to simulate ocean motion, so as to study the principle of ripple formation. Through the intervention of artificial control, QIU simulates the creation process of natural forces and realizes the possibility of using natural forces as design tools. When the wave maker starts, the turbine operates, and the sand bed under the water gradually appears ripple texture. By changing the operating frequency of the wave maker, we can continuously create unconventional texture forms in nature, and then use 3D scanning technology to digitize the forms, which can be applied to different materials and products.

“人工自然” 项目创造了一组模拟海洋运动的数控造浪机,以研究涟漪形成的原理。QIU通过人工控制的介入,模拟自然力的造物过程,实现利用自然力作为设计工具的可能性。当造浪机启动时,涡轮运作,水底的沙床就逐渐出现涟漪纹理。通过改变造浪机的运行频率,来持续创造在自然界中非常规的纹理形态,再使用三维扫描技术将形态转为数字化,可应用于不同的材料和产品。

Artificial Nature
 
Design Research
Process Design
 
Collaborator: Chen Sheng
Sponsor: KOHLER

Artificial Nature
 
Design Research
Process Design
 
Collaborator: Chen Sheng
Sponsor: KOHLER

Artificial Nature
 
Design Research
Process Design
 
Collaborator: Chen Sheng
Sponsor: KOHLER

Artificial Nature
 
Design Research
Process Design
 
Collaborator: Chen Sheng
Sponsor: KOHLER

Artificial Nature
 
Design Research
Process Design
 
Collaborator: Chen Sheng
Sponsor: KOHLER

QIU-Artificial nature-1
QIU-Artificial nature-2
打印
QIU-Artificial nature-4
QIU-Artificial nature-5
QIU-Artificial nature-6
打印
QIU-Artificial nature-8
QIU-Artificial nature-H
QIU-Artificial nature-12
QIU-Artificial nature-13

©2024 QIU. ALL RIGHTS RESERVED

©2024 QIU. ALL RIGHTS RESERVED

©2024 QIU. ALL RIGHTS RESERVED

©2024 QIU. ALL RIGHTS RESERVED

©2024 QIU. ALL RIGHTS RESERVED