Difference between revisions of "workshop01G5:Group"

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<div style="float:left; width: 160px; height 30px; border: 1px solid #aaa; margin-right:10px; " align="center">[[workshop01G5:Group|'''Group 5''']]</div>
 
<div style="float:left; width: 160px; height 30px; border: 1px solid #aaa; margin-right:10px; " align="center">[[workshop01G5:Group|'''Group 5''']]</div>
  
<div style="float:left; width: 160px; height 30px; border: 1px solid #aaa; margin-right:10px;" align="center">[[workshop01G5:Objectives|'''Objectives''']]</div>
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<div style="float:left; width: 160px; height 30px; border: 1px solid #aaa; margin-right:10px;" align="center">[[workshop01G5:Past Experiments|'''Past Experiments''']]</div>
  
<div style="float:left; width: 160px; height 30px; border: 1px solid #aaa; margin-right:10px;" align="center">[[workshop01G5:Prototypes|'''Prototypes''']]</div>
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<div style="float:left; width: 160px; height 30px; border: 1px solid #aaa; margin-right:10px;" align="center">[[workshop01G5:Present to Future|'''Present to Future''']]</div>
  
 
<div style="float:left; width: 160px; height 30px; border: 1px solid #aaa; margin-right:10px;" align="center">[[workshop01G5:Codefarm|'''Code Farm''']]</div>
 
<div style="float:left; width: 160px; height 30px; border: 1px solid #aaa; margin-right:10px;" align="center">[[workshop01G5:Codefarm|'''Code Farm''']]</div>
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The Eco-network focuses on the multi-agents system. In the system we have different sub-systems:1.Network system 2. climatic system and more. We want to use parametric software to simulate people's behavior. We use people's angle of view, positive points in the garden and the negative points in the garden as our variable for calculation the people's paths. Then we will define the different characters of entrances and people's identities to control the paths. Lastly we will use this algorithm to build our whole networks in this garden. The network would be our mapping notebook to guide our cafe pavilion design. Because of the property of our cafe, this pavilion will give a feedback to our networks. As a result , our network is dynamic system .What we want to do is finding a balance in this dynamic network . At same time, the climatic system will affect our network system by solar variable and light variable. Then the network system would give a feedback to adjust itself for the requirements of entertainment.
 
The Eco-network focuses on the multi-agents system. In the system we have different sub-systems:1.Network system 2. climatic system and more. We want to use parametric software to simulate people's behavior. We use people's angle of view, positive points in the garden and the negative points in the garden as our variable for calculation the people's paths. Then we will define the different characters of entrances and people's identities to control the paths. Lastly we will use this algorithm to build our whole networks in this garden. The network would be our mapping notebook to guide our cafe pavilion design. Because of the property of our cafe, this pavilion will give a feedback to our networks. As a result , our network is dynamic system .What we want to do is finding a balance in this dynamic network . At same time, the climatic system will affect our network system by solar variable and light variable. Then the network system would give a feedback to adjust itself for the requirements of entertainment.
  
==site analysis ==
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==Presentation 27/9 ==
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[[Image:Group5 TITLE page.jpg|400px]]
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[[Image:Group 5 CONTENT.jpg|400px]]
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[[Image:Group 5 CONTENT 1.jpg|400px]]
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[[Image:Location radiation analysis01.jpg|400px]]
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[[Image:Group 5 Overlapping.jpg|400px]]
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[[Image:Group 5 Previous work.jpg|400px]]
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[[Image:Group 5 Previous work 2.jpg|400px]]
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[[Image:Group 5 Flowchart designsystem.jpg|400px]]
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[[Image:Group 5 CONTENT2.jpg|400px]]
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[[Image:Group 5 Openspace and closespace.jpg|400px]]
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[[Image:G 5 Cells generation process.jpg|400px]]
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[[Image:Group 5 Flow chart of the main funcion 1.jpg|400px]]
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[[Image:Group 5 CONTENT 3.jpg|400px]]
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[[Image:Group 5 VD1.GR5.jpg|400px]]
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[[Image:Group 5 VD2.GR5.jpg|400px]]
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[[Image:Group 5 VD3.GR5.jpg|400px]]
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[[Image:Group 5 VD4.GR5.jpg|400px]]
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[[Image:Group 5 VD5.GR5.jpg|400px]]
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[[Image:Group 5 VD6.GR5.jpg|400px]]
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[[Image:Group 5 VD7.GR5.jpg|400px]]
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[[Image:Group 5 VD8.GR5.jpg|400px]]
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[[Image:Group 5 VD9.GR5.jpg|400px]]
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[[Image:Group 5 VD10.GR5.jpg|400px]]
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[[Image:Group 5 VD11.GR5.jpg|400px]]
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[[Image:Group 5 VD11.GR5.jpg|400px]]
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[[Image:Group 5 VD12.GR5.jpg|400px]]
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[[Image:Group 5 Flowchart computational.jpg|400px]]
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[[Image:Group 5 CONTENT4.jpg|400px]]
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[[Image:Group 5 Optimization system01.jpg|400px]]
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[[Image:Group 5 Optimization system02.jpg|400px]]
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[[Image:Group 5 The optimize roof 1.jpg|400px]]
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[[Image:Group 5 The optimize roof 2.jpg|400px]]
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[[Image:Group 5 The optimize roof test 01.jpg|400px]]
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[[Image:Gruop 5 The optimize roof test 02.jpg|400px]]
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[[Image:Group 5 The optimize roof test 03.jpg|400px]]
  
[[Image:1236802 234344306715513 1712745446 n.jpg|400px]]
 
 
[[Image:1273348 234033113413299 515862421 o.jpg|420px]]
 
[[Image:1271827 234033116746632 1446962030 o.jpg|420px]]
 
 
[[Image:Ecotect diagram.jpg|850px]]
 
 
==First Presentation==
 
[[Image:Group 5-Location1.jpg|420px]][[Image:Group 5-Location2.jpg|420px]]
 
[[Image:Group 5-Location3.jpg|850px]]
 
[[Image:group5-frontpage.jpg|850px]]
 
<br>
 
 
[[Image:group5-system-05.jpg|400px]]
 
[[Image:group5-system-04.jpg|400px]]
 
<br>
 
 
 
[[Image:group5-system-03.jpg|250px]]
 
[[Image:group5-system-02.jpg|250px]]
 
[[Image:group5-system-01.jpg|250px]]
 
[[Image: Group 5 Environmental factor.jpg|420px]]
 
[[Image: Group 5 Environmental system 2.jpg|420px]]
 
[[Image:group5-10.jpg|800px]]
 
 
==Second Presentation==
 
[[Image:1.Location plain2.jpg|850px]]
 
[[Image:2.Locatie Spots2.jpg|850px]]
 
[[Image:3.Locatie Connections.jpg|850px]]
 
[[Image:Attrgr5.png|850px]]
 
[[Image:Changecurvgr5.png|850px]]
 
[[Image:Meetpointgr5.png|850px]]
 
[[Image:7 gr5loc.jpg|850px]]
 
[[Image:10.generative system rules.jpg|850px]]
 
[[Image:11gr5ca1.jpg|850px]]
 
[[Image:12gr5ca2.jpg|850px]]
 
[[Image:13gr5ca3.jpg|850px]]
 
[[Image:14gr5ca4.jpg|850px]]
 
[[Image:15gr5ca5.jpg|850px]]
 
 
==Design==
 
 
[[Image:group5-network.jpg|850px]]
 
 
[[Image:1209104 233190340164243 1852426328 n.jpg|405px]]
 
[[Image:945990 233190406830903 1480247541 n.jpg|440px]]
 
[[Image:1175388 233190396830904 1947013983 n.jpg|270px]]
 
[[Image:1231490 233190410164236 262175961 n.jpg|291px]]
 
[[Image:946315 233190423497568 1236139401 n.jpg|276px]]
 
 
[[Image:1237097 233190486830895 1369163713 n.jpg|365px]]
 
[[Image:1277227 233190520164225 1644546040 o.jpg|475px]]
 
 
[[Image:1278131 233190623497548 145606429 o.jpg|845px]]
 
  
  
 
<comments/>
 
<comments/>
 
= Third Presentation =
 

Latest revision as of 11:14, 6 October 2013



Eco-Net Pavilion

Romain Thijsen, Vasiliki Koliaki, Vivien Wu, Jingyi Li

1.1.jpg The Eco-network focuses on the multi-agents system. In the system we have different sub-systems:1.Network system 2. climatic system and more. We want to use parametric software to simulate people's behavior. We use people's angle of view, positive points in the garden and the negative points in the garden as our variable for calculation the people's paths. Then we will define the different characters of entrances and people's identities to control the paths. Lastly we will use this algorithm to build our whole networks in this garden. The network would be our mapping notebook to guide our cafe pavilion design. Because of the property of our cafe, this pavilion will give a feedback to our networks. As a result , our network is dynamic system .What we want to do is finding a balance in this dynamic network . At same time, the climatic system will affect our network system by solar variable and light variable. Then the network system would give a feedback to adjust itself for the requirements of entertainment.

Presentation 27/9

Group5 TITLE page.jpg Group 5 CONTENT.jpg Group 5 CONTENT 1.jpg Location radiation analysis01.jpg Group 5 Overlapping.jpg Group 5 Previous work.jpg Group 5 Previous work 2.jpg Group 5 Flowchart designsystem.jpg Group 5 CONTENT2.jpg Group 5 Openspace and closespace.jpg G 5 Cells generation process.jpg Group 5 Flow chart of the main funcion 1.jpg Group 5 CONTENT 3.jpg Group 5 VD1.GR5.jpg Group 5 VD2.GR5.jpg Group 5 VD3.GR5.jpg Group 5 VD4.GR5.jpg Group 5 VD5.GR5.jpg Group 5 VD6.GR5.jpg Group 5 VD7.GR5.jpg Group 5 VD8.GR5.jpg Group 5 VD9.GR5.jpg Group 5 VD10.GR5.jpg Group 5 VD11.GR5.jpg Group 5 VD11.GR5.jpg Group 5 VD12.GR5.jpg Group 5 Flowchart computational.jpg Group 5 CONTENT4.jpg Group 5 Optimization system01.jpg Group 5 Optimization system02.jpg Group 5 The optimize roof 1.jpg Group 5 The optimize roof 2.jpg Group 5 The optimize roof test 01.jpg Gruop 5 The optimize roof test 02.jpg Group 5 The optimize roof test 03.jpg



avatar

Smostafavi

3881 days ago
Score 1+-
General Comments: Using view to as one of the form finding criteria is interesting. It is important to try and diagram the conditions that you are describing in the text. You should start to formulate the generative process based on your idea and try to define sets of rules, and start to apply it on the site. It is also important to define the subjective goal and architectural ambition of your experimentation which you can carry out through series of experimentation. Try to be more analytical and critical with your diagrams. The suggestion is to diagram the generative processes. In your diagram showing the different aspects you are considering, network, viewing and sunlight needs more verification. Instead of categorizing different elements that fall inside each category, you should really evaluate the things that you have listed, and what aspects are relevant in which scale. Which criteria are being used in to inform the generative systems and which criteria are being used as an analysis for the basis of your top down decision making process.

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avatar

Smostafavi

3881 days ago
Score 1+-
Site Analysis: Instead of showing the existing conditions, you should show your interpretation of the site. Start to analyze and diagram.

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avatar

Smostafavi

3881 days ago
Score 1+-

Global geometry/macro scale: As mentioned above, you should try and diagram the generative logic and test it on the site. Also try to determine the topology of your systems and how they can be fabricated.

Meso&micro Scale (Skin): The same comments apply for meso&micro scale

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