JOSHUA CALLIS
B.AS, Victoria University of Wellington
C.V
Joshua Callis
M 0484 097 081
Architecture graduate, Victoria University of Wellington Fitzroy, Melbourne 21 years old (d.o.b 20/05/1995)
EDUCATION Victoria University of Wellington [2013 – 2015] Bachelor of Architectural Studies WORK EXPERIENCE 1.
Chamberlain Architects [2016] Graduate Architect, Lead Visualiser, Website Administrator
2.
WholeHog Productions [2012 – 2015] Visual Editor
3.
Imagine Building Design [2008 – 2009] Construction drawing & on-site assistance KNOWLEDGE: Modeling (physical, digital, automated) 3D rendering Postproduction Layout & composition Colour theory Sketching, drawing, painting (physical, digital) PROGRAMS: 3D Studio Max V-Ray Adobe Photoshop Revit ArchiCAD Adobe InDesign Adobe Illustrator Artlantis AutoCAD KeyShot Rhino + Grasshopper SketchUp REFERENCE Dr. Robin Skinner Dean of Architecture, Victoria University of Wellington +64 223 916 067 Timothy Schoepf Manager, Bed Bath N’ Table 0434 552 620 Written references available on request
E joshcallis@gmail.com Availability: Full
1. Visualisation
- 3D Studio Max, Photoshop. 2016 -
1
- Artlantis, Photoshop. 2016 -
2
- Keyshot, Photoshop. 2014 -
3
- Revit, Photoshop. 2015 -
4
- 3D Studio Max, Photoshop. 2014 -
5
- 3D Studio Max, Photoshop. 2014 -
6
- Keyshot, Photoshop. 2015 -
7
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2. All The Rest
THE MECHANISM
Type B Type A
Platforms. Resemble rock formation, but constructed from lightweight material to allow mechanisms to move with ease.
Counterweight. Lighter than platform on type A arms, so gravity pulls platform down until tide forces it up. Heavier than platform on type B arms, so gravity pulls platform up until tide forces it down.
Anchor. Fixes each arm to ocean floor.
Pivot. Employs slowing mechanism so rapid changes in water height (such as waves) do not move pivot.
Flotation device. Connected by secondary pivot to stay flat as arm turns. Opposite side of platform on type A arms, so the rising tide moves platform below water. Same side as platform on type B arms so platform moves above water.
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THE SCHEME
Example of Type A mechanism
Pool entry and dry zone
Example of Type B mechanism
Changing rooms. Left to right: female, male
Left + Right: Top to bottom: low tide, high tide Note: dot pattern denotes submerged components 5m 14
i
h
g
a5
k
f2 a4 e2
l
a3 j
e1
d1
q
l a2 l a1
SECTION B2 d e f g h i j k l q x z
exhibition room video exhibition wall exhibition & promenade artifact exhibition memorial final earthquake space elevator emergency stair w/c kitchen storage & eqipment carpark
Grid = 2m x 2m 15
x
z
Qu ay loo ter Wa
k
d1 d2 c
e1 d3
b f1 l k j a
b2
b3 b1
PLAN A3 main entry atrium & cafeteria lecture space exhibition room video exhibition wall exhibition & promenade elevator emergency stair w/c
a b c d e f j k l
Grid = 2m x 2m 16
w: 6000 mm
h: 3100 mm 4000 mm l: 14000 mm
10500 mm
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Roof support ties Anchored to cliff face
Roof system
a
Walls All glazed, except w/c Main entry through sliding door, NE
Floor area Back/left: gymnasium and w/c Front/right: relaxation space
Floor structural system
Steel grating Allows showering under waterfall
Water wheel Conneted to generator
w: 6000 mm
h: 3100 mm
b
4000 mm Grid = 10m x 10m
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- 2015 -
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- 2014 -
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- 2013 -
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Thank you