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[21.01.1993]
Swiss/Canadian
07419335464
I am a creative and enthusiastic individual
who recently graduated with a BSc (Hons) in
Architecture from The University of the West of
England. During the course of my degree, I have
developed a range of skills, allowing me to solve
problems creatively and have gained a great
understanding of what constitutes successful
design. Through academic achievement in Design
Studio I was personally selected to collaborate in
the Digital Design Research Unit in which we used
parametric tools such as grasshopper to design
and later built a summer pavilion I was also chosen
to exhibit my Design Studio work at the UWE
architecture show: The best of UWE Architecture.
I am ready, willing and able to work long hours to
meet a deadline and I thrive under pressure, as
well as always looking for the next challenge.
BSC (HONS) ARCHITECTURE
3RD YEAR FINAL PROJECT
NATIONAL CENTRE FOR MICROBIOLOGY AND DESIGN
DELFT, NETHERLANDS
The National Centre for Microbiology and Design is a scientific
centre undertaking research in the field of microbiology,
specifically researching how micro-organisations can inform
innovation in design. The N.C.M.D. has for a mission to educate
the public about its researches and findings. It is a place of
experimentation, education and awareness-raising in support
of innovation in design & technology. Encouraging a cross-
disciplinary approach to design focusing on the possibilities
emerging from a closer relation between microbiology, design
and technology, the N.C.M.D. wants to generate curiosity among
the public in regards to innovative design solutions. To do so,
it facilitates opportunities for the public to engage with the
scientific culture through its architecture, interactive exhibitions
(films, models, microscope) and organised lectures and events.
University of the West of England, Bristol Bsc (Hons) ArchitectureGrade: First Class Honours2013-2016
London Art Portfolio SchoolJanuary 2013
Collège François-Xavier-Garneau, Québec International Baccalaureate, Business and Mathematics 2010 - 2012
E D U C A T I O N
A W A R D S & A C H I E V E M E N T S
BEST OF UWE ARCHITECTURE SHOWJuly 2016
CHAPMAN TAYLOR ‘‘ BEST MASTERPLANNING UNDERGRADUATE PRIZE’’ June 2016
STUDENT REPRESENTATIVESeptember 2015 - June 2016
NOMINATION FOR WESTERN TIMBER ASSOCIATION COMPETITIONQuality of a timber structure designQuality of technical drawingsQuality of structural modelApril 2014
DIGITAL DESIGN RESEARCH UNITSeptember 2014 - Present
DDRU 2015 http://ddru-uwe.tumblr.comDesign and Research team memberInstallation team leader
DDRU 2016Team member
The aims of the research group are: - Researching, applying and developing contemporary approaches to architectural design- Exploring and testing materials and notions of fabrication - Incorporating concepts of sustainability in relation to design and fabrication.
SECOND CUP, QuébecBarista May 2014 - August 2014
BRULERIE ST-JEAN, Québec BaristaApril 2013 - August 2014
W O R K E X P E R I E N C E S
P R O J E C T S
The objective is to apply parametric design tools to the
conception of an external structure that is suitable for
displaying our work for the UWE School of Architecture
Summer Show. Conceptually, we focussed on the idea of
'summer field'. Under this idea, the characteristics that can
be observed in natural systems, and that could potentially be
beneficial to the domain of architectural design are studied.
For example, we are addressing the adaptability of natural
organisms to their environments as well as morphological
entities that are the result of open systems. Taking into
consideration the location of the site, our Summer Field dealt
with the articulation of three main parameters: display of
students’ work, users, and the environment.
DIGITAL DESIGN RESEARCH UNIT PAVILION 2015
SUMMER FIELD
DIGITAL DESIGN RESEARCH UNIT PAVILION 2016
GRID SHELL
The UWE Research Pavilion is a type of ‘bending-active’
timber gridshell. Although typical structures attempt to avoid
bending behaviour, bending-active structures instead utilise
bending to give rise to form.
A doubly-curved surface to suit the site constraints was
defined parametrically (using Rhino Grasshopper) and then
used to derive a set of primary laths based on geodesic
lines. Secondary elements were then woven around these
primaries, again by generating geodesics. Finally, splice points
along the laths were located, with the final geometry then
exported for detailed design.
Cast In Situ Concrete (100mm)
Rigid Insulation (150mm)
DPM
Vapour barrier
Cast In Situ Concrete (200mm)
IP69k light (waterproof)
Metal Support
0 500 mm
0 5 10 m
0
Extensive soil mix (300mm)
Separation profile
Gravel
Gutter
Protection mat
Drainage plate (60mm)Filter layer
Waterproof membrane
Concrete cavity closer
Metal Channel
Double glazed windowSteel window frame
Lum
inai
re IP
65
Cast
In S
itu C
oncr
ete
(100
mm
)
Vapo
ur B
arrie
r
Rigi
d in
sula
tion
(150
mm
)
DPM
Cast
In S
itu C
oncr
ete
(150
mm
)
500 mm0 500 mm
CONCEPT & DESIGN DEVELOPMENTResearch, analysis and strategy
DESIGN EXECUTIONLayout, hand Drawing, digital illustration,photography MODEL MAKINGCardboard, foam, wood, concrete, 3d printing, laser cutting
COMPUTER SKILLSAutocad, Rhinoceros 3D, V-ray, Grasshopper, Adobe Creative Suite
S K I L L S
BSc (Hons) Architecture
Living Bridge Project
Delft, Netherlands
A bridge was needed to create a link for pedestrians
in between the northern edge and the city centre of
Delft. This bridge wants to accommodate both people
that are looking to circulate quickly, and tourists and
locals that have time to enjoy the scenery and relax. For
this reason a cafe is designed hidden under the bridge
to not affect the rapid past of the circulation.
The bridge design tries to be as respectful of its
surroundings by not visually overpowering it and not
blocking views from the different side of the canal.
Still, to create a pleasant route, the bridge wants to
protect the users from the elements. (wind, rain, sun).
To do so, a textile canopy was developed on top of the
main circulation. A transparent textile (PTFE COATED
FIBREGLASS) is used to protect from the north cold
wind, and a metal mesh (PTFE COTED OPEN MESH) is
used to protect from strong sun without blocking the
light.
To create the lightest structure possible, the canopy’s
structure also plays a role in the bridge structure.
The cafe is extruded from the landscape to follow this
concept. The concrete facade dematerialises in the
ground by the incorporation of vegetation (green roof)
and rocks in the deck.
Marcela SpadaroFunder and Co-leader of [email protected]
Scott Hills Architect and Senior [email protected]
R E F E R E N C E S
I N T E R E S T S
L A N G U A G E SFRENCH, Fluent written and spokenENGLISH, Fluent written and spoken
Cycling, hiking, travelling, reading, drawing.