ARE(A)NA
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA Introduction_Emilio
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
autonomy> patterns
Emilio prototype
ARE(A)NA Introduction_The machine
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
autonomy> tracked movement
Vacuming and piling
Glue deposition
ARE(A)NA Introduction_Conctruction Site 1.Introduction_Emilio
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
Desert
Beach
Construction Sites
ARE(A)NA
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
Introduction_Objective 1.Introduction_Emilio
>> A simple fabrication process,controlled by computation > Complex structural Systems
>>Solidifying a continuously transforming surface will result in structures and spaces in whcich time layers are visible
>Creating paths and shelters in the desert can make it habitable >Erosion sites
ARE(A)NA Machinic Part_Prototype I 1.Introduction_Emilio
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
Sand Mechanism
Glue Mechanism
!
ARE(A)NA Machinic Part_Prototype II 1.Introduction_Emilio
To be attached in the MM
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
Sand Switch
Glue Valve Switch
!
angle of repose material : sand
plentiful amounts found in nature subjected to environmental forces structural rules embbeded into pile formations h
a= 35º h= arcCos35º x b b= arcSin35º x h
a
granular materials pile up and distribute themselves according to cellular automata rules The Margolus model is used for sand pile formations.
b
dry sand 35º water filled sand 15-30º wet sand 45º
ARE(A)NA glue formation_material
composition
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
1.
2.
3.
4.
5.
6.
G-80%
G-70%
G-60%
G-50%
G-40%
G-30%
W-20%
W-30%
W-40%
W-50%
W-60%
W-60%
ARE(A)NA glue formation_material
composition
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
G=glue W=water S=solid
1.
2.
3.
G-30%
G-40%
G-40%
W-70%
W-60%
W-60%
10’’
10’’
13.4’’
S-10%
S-30%
S-30%
4.
5.
6.
G-50%
G-50%
G-60%
W-50%
W-50%
W-40%
15’’
17’’
36’’
S-15%
S-20%
S-13%
7.
8.
9.
G-60%
G-80%
G-80%
W-40%
W-20%
W-20%
35’’
1.27’’
10’
S-08%
S-04%
S-01%
ARE(A)NA glue formation_material
composition
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
conclusions: water= more penetration less time more material glue= less penetration more time less material ideal composition= 60% glue 40% water
6. G-60% W-40% 36’’ S-13%
7. G-60% W-40% 35’’ S-08%
ARE(A)NA Glue Formation_Experiments 1.Introduction_Emilio
Linear System
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
1st Glue 2nd Sand
Intersections
Glue+Sand together
ARE(A)NA Glue_Structural Systems 1.Introduction_Emilio
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
++Water ++Penetra tion
Layers Grid
Negative Positive
ARE(A)NA Sand Formation
ARE(A)NA sand formation_pile
simulation
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA sand formation_pile
simulation
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
void move() { if(Zloc < myContainer.ZslotNum-1 && Xloc < myContainer.XslotNum-1 && Xloc>0 && Yloc < myContainer.YslotNum-1 && Yloc>0) { myContainer.slot[Xloc][Yloc][Zloc].partId = -1; if(myContainer.slot[Xloc][Yloc][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition = 1; } else if(myContainer.slot[Xloc][Yloc][Zloc+1].condition == 1) { if(myContainer.slot[Xloc+1][Yloc][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0; Xloc +=1; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition =1; } else if (myContainer.slot[Xloc+1][Yloc][Zloc+1].condition == 1) { if (myContainer.slot[Xloc-1][Yloc][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0; Xloc -=1; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition = 1; } else if (myContainer.slot[Xloc-1][Yloc][Zloc+1].condition == 1) { if (myContainer.slot[Xloc][Yloc+1][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0;
}
Yloc +=1; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition = 1;
else if (myContainer.slot[Xloc][Yloc+1][Zloc+1].condition == 1) { if (myContainer.slot[Xloc][Yloc-1][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0; Yloc -=1; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition = 1;
}
}
}
}
} else if (myContainer.slot[Xloc][Yloc-1][Zloc+1].condition == 1) { if (myContainer.slot[Xloc-1][Yloc-1][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0; Xloc -=1; Yloc -=1; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition = 1; } else if (myContainer.slot[Xloc-1][Yloc-1][Zloc+1].condition==1) { if (myContainer.slot[Xloc+1][Yloc-1][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0; Xloc +=1; Yloc -=1; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition = 1; } else if (myContainer.slot[Xloc+1][Yloc-1][Zloc+1].condition==1) { if (myContainer.slot[Xloc+1][Yloc+1][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0; Xloc +=1; Yloc +=1; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition = 1; } else if (myContainer.slot[Xloc+1][Yloc+1][Zloc+1].condition==1) { if (myContainer.slot[Xloc-1][Yloc+1][Zloc+1].condition == 0) { myContainer.slot[Xloc][Yloc][Zloc].condition = 0; Xloc -=1; Yloc +=1; Zloc += 1; myContainer.slot[Xloc][Yloc][Zloc].condition = 1; } } } } }
ARE(A)NA sand formation_lineal
systems
ARE(A)NA sand formation_lineal
systems
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA sand formation_lineal
systems
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
pile1 exporting
pile2 exporting
0: 500.0,450.0;radius=40.0
0: 450.0,500.0;radius=40.0
1: 535.0,450.0;radius=100.0
1: 450.0,535.0;radius=100.0
2: 510.0,425.0;radius=80.0
2: 425.0,510.0;radius=80.0
3: 480.0,395.0;radius=60.0
3: 395.0,480.0;radius=60.0
4: 455.0,370.0;radius=20.0
4: 370.0,455.0;radius=20.0
5: 324.03796,309.8959;radius=80.0
5: 324.03796,430.10406;radius=80.0
6: 295.75366,309.8959;radius=60.0
6: 295.75366,430.10406;radius=60.0
7: 267.46936,309.8959;radius=40.0
7: 267.46936,430.10406;radius=40.0
8: 129.11919,301.23352;radius=80.0
8: 247.84744,320.0382;radius=80.0
9: 123.58841,336.15356;radius=40.0
9: 242.31667,354.95825;radius=40.0
ARE(A)NA sand formation_radial
systems
ARE(A)NA sand formation_radial
systems
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA sand formation_circuit
systems
ARE(A)NA sand formation_circuit
systems
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA sand formation_circuits
system
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA sand formation_circuit
systems
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA sand formation_circuit
systems
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA sand formation_circuit
systems
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
ARE(A)NA
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
material deposition by computation
ARE(A)NA
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina miró iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malé alemany, victor viña, brian peters
material deposition by computation
'SHOPBOT ROUTER FILE IN MM 'GENERATED BY PARTWorks glue 'Minimum extent in X = 0.000 Minimum extent in Y = 0.000 Minimum extent in Z = 0.000 precision 'Maximum extent in X = 2500.000 Maximum extent in Y = 1220.000 Maximum extent in Z = 20.000 'Length of material in X = 2500.000 'Length of material in Y = 1220.000 'Depth of material in Z = 20.000 'Home Position Information = Bottom Left Corner, Table Surface 'Home X = 0.000000 Home Y = 0.000000 Home Z = 33.000000 'Rapid clearance gap or Safe Z = 26.000 'UNITS:MM ' IF %(25)=0 THEN GOTO UNIT_ERROR 'check to see software is set to standard SA TR,12000 'Parallel Finishing &Tool = 2ac ma 10-11 st c9 TR,12000 C6 'Return tool to home in x and y PAUSE 2 M3,+630.0,+250.0,0.0 pause 12 M3,+630.0,+300.0,0.0 pause 2 M3,+630.0,+350.0,0.0 pause 12 M3,+630.0,+400.0,0.0 pause 12 M3,+630.0,+450.0,0.0 pause 12 M3,+630.0,+500.0,0.0 pause 12 M3,+630.0,+550.0,0.0 pause 12 M3,+630.0,+600.0,0.0 pause 12 M3,+630.0,+650.0,0.0 pause 12 M3,+630.0,+700.0,0.0 pause 12 PAUSE 2 M3,+620.0,+220.0,0.0 pause 2 cc +12,T,1,0,0,-0.00,7,1,1,0,0,0 pause 2 M3,+620.0,+270.0,0.0 pause 2 cc +12,T,1,0,0,-0.00,7,1,1,0,0,0 pause 2 M3,+620.0,+320.0,0.0 pause 2 cc +12,T,1,0,0,-0.00,7,1,1,0,0,0 pause 2 M3,+620.0,+370.0,0.0 pause 2 cc +12,T,1,0,0,-0.00,7,1,1,0,0,0 pause 2 M3,+620.0,+420.0,0.0 pause 2
MM NI ELIF RETUOR TOBPOHS skroWTRAP YB DETARENEG = Z ni tnetxe muminiM 000.0 = Y ni tnetxe muminiM 000.0 = X ni tnetxe muminiM 000. Z ni tnetxe mumixaM 000.0221 = Y ni tnetxe mumixaM 000.0052 = X ni tnetxe mumixaM 000.02 000.0052 = X ni lairetam fo htgneL 000.0221 = Y ni lairetam fo htgneL 000.02 = Z ni lairetam fo htpeD ecafruS elbaT ,renroC tfeL mottoB = noitamrofnI noitisoP emoH 000000.33 = Z emoH 000000.0 = Y emoH 000000.0 = X emoH 000.62 = Z efaS ro pag ecnaraelc dipaR MM:STINU dradnats ot tes si erawtfos ees ot kcehc'
100ML OF SAND , GRID 10X10 GLUE 12d
RORRE_TINU OTOG NEHT 0=)52(% F A 00021,R gnihsiniF lellaraP
ts 11-01 am ca2 = looT 9 00021,R y dna x ni emoh ot loot nruteR' 6 2 ESUA 0.0,0.052+,0.036+,3 21 esua 0.0,0.003+,0.036+,3 2 esua 0.0,0.053+,0.036+,3 21 esua 0.0,0.004+,0.036+,3 21 esua 0.0,0.054+,0.036+,3 21 esua 0.0,0.005+,0.036+,3 21 esua 0.0,0.055+,0.036+,3 21 esua 0.0,0.006+,0.036+,3 21 esua 0.0,0.056+,0.036+,3 21 esua 0.0,0.007+,0.036+,3 21 esua
The presition of the ShopBot gives the precision in order to study and understand the gravity of liquids and simulate the glue formations. The coordinates are being extracted from the actual processing file. Secondly we explore differefent intersections betweet the piles in a system.
2 ESUA 0.0,0.022+,0.026+,3 2 esua 0,0,0,1,1,7,00.0-,0,0,1,T,21+ c 2 esua 0.0,0.072+,0.026+,3 2 esua 0,0,0,1,1,7,00.0-,0,0,1,T,21+ c 2 esua 0.0,0.023+,0.026+,3 2 esua 0,0,0,1,1,7,00.0-,0,0,1,T,21+ c 2 esua 0.0,0.073+,0.026+,3 2 esua 0,0,0,1,1,7,00.0-,0,0,1,T,21+ c 2 esua 0.0,0.024+,0.026+,3 2 esua
ARE(A)NA
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters
material deposition by computation G=glue W=water S=solid
ARE(A)NA
miguel guerrero, chrissa karakana, natassa pistofidou, caronlina mirĂł iaac ma 10-11 studio digital tectonics 2nd term final presentation team: marta malĂŠ alemany, victor viĂąa, brian peters