Difference between revisions of "project12:W2Group2A"
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Dylan Deguzman - Jihong Duan - Arise Wan Mei Lhen - Tim Mechielsen - Roel Westrik - Erik Zanetti | Dylan Deguzman - Jihong Duan - Arise Wan Mei Lhen - Tim Mechielsen - Roel Westrik - Erik Zanetti | ||
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| − | <b>Assignment:</b><br> | + | <br><b>Assignment:</b><br> |
Group 2 (G2) students will integrate in the multi-material pieces of furniture sensor-actuators, which will be proof of concept for: | Group 2 (G2) students will integrate in the multi-material pieces of furniture sensor-actuators, which will be proof of concept for: | ||
- Process- and material-efficiency achieved through smart robotic (i.e. selective) material deposition and/or subtraction. Materials considered are EPS, concrete, and coatings. | - Process- and material-efficiency achieved through smart robotic (i.e. selective) material deposition and/or subtraction. Materials considered are EPS, concrete, and coatings. | ||
Latest revision as of 15:49, 16 April 2019
G2 Assembly
Dylan Deguzman - Jihong Duan - Arise Wan Mei Lhen - Tim Mechielsen - Roel Westrik - Erik Zanetti
Assignment:
Group 2 (G2) students will integrate in the multi-material pieces of furniture sensor-actuators, which will be proof of concept for:
- Process- and material-efficiency achieved through smart robotic (i.e. selective) material deposition and/or subtraction. Materials considered are EPS, concrete, and coatings.
- Smart operation by integrating sensor-actuators such as light dependent resistors, infrared distance sensor, pressure sensor, etc. informing lights, speakers, ventilators, and/or umbrellas/reconfigurable shading components, etc. in order to allow users to customize operation and use of the urban furniture.
Group 2 students are asked to use as initial input topology a part of previously designed stage-pavilion titled Echosphere (http://gsm.hyperbody.nl/index.php/Msc2G3:Group) and/or MSc 2 prototypes from previous MSc 2. This initial input is only a departure point, which during the workshop may differentiate depending on the focus of each sub-group.
The workshop will involve:
- Design development based on mapping the human body with its requirements in relation to use and environmental conditions;
- Design computation, design to production experiments and prototyping.
The deliverables include computational models, systemic representation of workflows and data exchange between multiple plugins and sub-algorithms as well as interoperability between digital and physical modules. Each group may deliver specific customized methods of material properties and behaviour simulations implemented in the design process. Moreover a flowchart diagram of process as well as a short video of design to production experiments and prototyping are considered as key deliverables of this workshop.
