Difference between revisions of "2019W2"
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This workshop introduces students to computational design strategies for Design-to-Robotic-Production and -Operation (D2RP&O) in order to achieve material and process efficiency as well as physical and/or sensorial reconfiguration. Students are asked to identify aspects related to robotic production and operation that are relevant for the Off-Earth Habitat project and map those onto the proposed schematic design. The exercise focuses on hybrid componentiality, which implies that components of various materials and properties are interconnected to establish together a multi-performative whole. | This workshop introduces students to computational design strategies for Design-to-Robotic-Production and -Operation (D2RP&O) in order to achieve material and process efficiency as well as physical and/or sensorial reconfiguration. Students are asked to identify aspects related to robotic production and operation that are relevant for the Off-Earth Habitat project and map those onto the proposed schematic design. The exercise focuses on hybrid componentiality, which implies that components of various materials and properties are interconnected to establish together a multi-performative whole. | ||
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| − | Three D2RP&O studies are proposed: | + | Three D2RP&O studies are proposed: <br> |
| − | 1. Subtractive D2RP: The development of a milled wall/ceiling/floor component, | + | 1. Subtractive D2RP: The development of a milled wall/ceiling/floor component, <br> |
| − | 2. Additive D2RP: The development of a 3D printed layer on top of the milled wall/ceiling/floor component, | + | 2. Additive D2RP: The development of a 3D printed layer on top of the milled wall/ceiling/floor component, <br> |
| − | + | 3. D2RO: The development of interactive/responsive lighting system fitted with sensor-actuators and integrated into the wall/ceiling/floor component. | |
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| − | To be considered are current developments in computational design, robotics, additive manufacturing, cyber-physical systems, adaptive/interactive environments. | + | To be considered are current developments in computational design, robotics, additive manufacturing, cyber-physical systems, machine learning, adaptive/interactive environments. Main questions to be answered are: If static structures harbor dynamic components that can be reconfigured, what are the utopian/dystopian scenarios that are considered, which are the static and the dynamic components, what is the required degree of customisation and how it is to be achieved. Potential customization is explored though functional, environmental, acoustical and structural simulations. |
| − | + | ||
| − | Main questions to be answered are: If static structures harbor dynamic components that can be reconfigured, what are the utopian/dystopian scenarios that are considered, which are the static and the dynamic components, what is the required degree of customisation and how it is to be achieved. Potential customization is explored though functional, environmental, acoustical and structural simulations. | + | |
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Revision as of 09:26, 22 January 2020
HYBRID COMPONENTIALITY 2.2: D2RP&O
CONTENT & APPROACH
This workshop introduces students to computational design strategies for Design-to-Robotic-Production and -Operation (D2RP&O) in order to achieve material and process efficiency as well as physical and/or sensorial reconfiguration. Students are asked to identify aspects related to robotic production and operation that are relevant for the Off-Earth Habitat project and map those onto the proposed schematic design. The exercise focuses on hybrid componentiality, which implies that components of various materials and properties are interconnected to establish together a multi-performative whole.
Three D2RP&O studies are proposed:
1. Subtractive D2RP: The development of a milled wall/ceiling/floor component,
2. Additive D2RP: The development of a 3D printed layer on top of the milled wall/ceiling/floor component,
3. D2RO: The development of interactive/responsive lighting system fitted with sensor-actuators and integrated into the wall/ceiling/floor component.
To be considered are current developments in computational design, robotics, additive manufacturing, cyber-physical systems, machine learning, adaptive/interactive environments. Main questions to be answered are: If static structures harbor dynamic components that can be reconfigured, what are the utopian/dystopian scenarios that are considered, which are the static and the dynamic components, what is the required degree of customisation and how it is to be achieved. Potential customization is explored though functional, environmental, acoustical and structural simulations.
COORDINATORS & TUTORS
Henriette Bier, Arwin Hidding, and Vera Laszlo
STUDENTS
See groups 1, 2 and 3.
