Fr a n k l i n P a r ke r A r c h i t e c t u r e P o r t fo l i o S o u t h D a ko t a S t a t e U n i v e r s i t y
Franklin Parker Architecture Por tfolio
Frank lin Parker
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Franklin Parker
SKILLS
Franklin.Parker.Kubota@gmail.com 605-759-4910
EDUCATION Brandon Valley High
Graduated in 2012
Brandon South Dakota
B.S. Architecture South Dakota State I Brookings SD
Graduation in 2017
Graduation in 2017
Student Worker
Summer 2016
SDSU Department of Architecture I Brookings SD
Volga, SD Project: Create 3-D Model of Volga Site Analysis Physical Model Production CNC Operations
M.E.N. Construction I Sioux Falls, SD
Duties: Maintain Site Work in teams Interpet plans
Framing types: Prefabricated Stick Framing
Student Advisory Board Representative
2013 - 2014
Offer advice to the department based on student opinion and need for faculty hiring, purchases of equipment, and maintenance of studio.
Award at SDSU Geography Conference 2014 - 2015
Insulation: Machinery: Skid Loader Roof Wall Sound
Wood Frame Carpentry
South Dakota State I Brookings, SD
Member: 2012- Present President: 2014 - 2015
Spring 2016
South Dakota State I Brookings, SD
Mills Construction I Brookings, SD Framing: Roof Wall Remodel
ACTIVITIES
South Dakota State I Brookings, SD
Carpenter’s Apprentice
Concrete: Sidewalk Formwork Footings Flooring
3-D Print CAD Conversion CNC Laser Cutter Wood Working
Conduct monthly meetings, and lead events held by the AIAS. Represent the local chapter on a national level, and a university level.
WORK EXPERIENCE Projects: Lamella Installation Pin-up Board Install Studio Preperation CNC Operator
Technologies:
President of AIAS SDSTATE
B.S. Geographic Information Sciences South Dakota State I Brookings SD
Computational: Adobe CC/CS6 suites ESRI - Arc Map, Arc Scene - ESRI to CAD Workflows Grasshopper Microsoft Office Revit Rhinoceros 5.0 -Simulation Tools -Mosquito
Summer 2012 and 2015
Framing Projects: Apartements Houses Basements
Second place for a poster and model presentation entered in the research category. The research emphasized planning and annexation processes.
REFERENCES Provided upon request.
TRAVEL United States:
Savannah, Georgia; Los Angeles, CA; New York, NY; St. Louis; MO, Chicago, IL; and Denver, CO
Japan:
Hiroshima, Osaka, Narita, Kyoto, Tokyo, Kushu, Yokohoma, and Omiya.
Shiraoka,
Frank lin Parker
A C T I V E P H Y T O - R E M E D I AT I O N S Y S T E M T h e b u i l d i n g s h o p fo c u s e d o n w o r k i n g w i t h a n d e x perimenting with plastics. In the resulting tests and research, I used SOM and Case Research’s active phyto remediation wall as precedence. Phy toremediation is the process in whcih plants use t h e i r r o o t s a n d l e av e s i n o r d e r t o f i l t e r t h e p o l l u t a n t s i n t h e a i r a n d g r o u n d . T h e c l e a n s i n g i s fo r c e d by an active hydroponic plant system with built in a i r f l o w. Fa n s p u l l i n d i r t y a i r t o fo r c e f i l t e r p o l l u t a n t s . P l a n t s a r e w a t e r e d e v e r y fo u r h o u r s , a n d a r e e x p o s e d t o n o r m a l d ay c y c l e s fo r p r o p e r l i g h t . Fe e d ing and water occurs in a closed system, where the water is contantly re-used. Such a plant system, S u m m e r 2 016
with enough testing, can act as an active filtration system, which could increase the ef ficiency of other active air filter machines.
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A b o v e : R e n d e r o f t h e m o d e l u s e d fo r t h e p r o t o t y p e .
Above: System prototype process photos.
Frank lin Parker
FA R M E R O F T H E Y E A R E v e r y y e a r S o u t h D a ko t a S t a t e U n i v e r s i t y chooses a farmer to honor with the title f a r m e r o f t h e y e a r. T h e s c e n a r i o s e t s t h e s t a g e fo r a s h o w o f t h e f a r m e r ’ s a m a z i n g w o r k t o i n t e g r a t e i t s e l f w i t h i n t h e l ay o u t of campus. Each of these scenarios exi s t fo r t h e w h o l e p r o c e s s o f g r o w i n g c o r n . The challenge was to design the farmer’s residence inside of the campanile, a site fo r h i m t o g r o w c o r n , a n d a g a r a g e fo r the farmer to store their equipment. Then once a year during the college’s home g a m e c e l e b r a t i o n ‘ H o b o D ay s ’ t h e f a r m e r S p r i n g 2 014
will har vest the field during the parade sequence.
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Above: Section of the farmer’s residence.
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Above: Section of the farmer’s residence. Right: Floor plans of the residence.
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Above: Split Section of the site showing South face. B e l o w : I t e r a t i o n s o f t h e s i t e c o r n r o w l ay o u t s .
Above: Split Section of the site showing the Nor th face. B e l o w : I t e r a t i o n s o f t h e s i t e ’ s c o r n r o w l ay o u t s .
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Above: Progressive physical models.
Above: Site plan and farmer’s har vest path.
Frank lin Parker
B R I G G S L I B R A RY R E S E A R C H C E N T E R A D D I T I O N
T h e s i t e i s i n B r o o k i n g s S O u t h D a ko t a , a t S o u t h D a ko t a S t a t e U n i v e r s i t y. Briggs Library sits on the North side of campus where students come to s t u d y. T h e c u r r e n t p r o g r a m w a s s h i f t e d t o c r e a t e a p l a c e fo r r e s e a r c h e r s t o w e av e t h e i r t r a c e s i n t o t h e l i b r a r y. Between these traces, grows niches fo r
places of study and seperation
from circulation of book browsers.
Reading
This process became the genesis of S p r i n g 2 016
t h e r e s e a r c h c e n t e r.
Thinking
Archiving
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Above: Floor plans.
Above: Section perspective series.
Spring 2016
Fr a n k l i n P a r ke r
A b o v e : 3 - D Po w d e r P r i n t R e m o v e d S e c t i o n
Frank lin Parker
D I G I TA L S I M U L AT I O N O F T H E S PA N I S H PAV I L L I O N T h i s p r o j e c t fo c u s e s o n t h e s t u d y o f e x i s t i n g c o m p o n e n t s a n d s y s t e m s . I n t h e S p a n i s h P av i l l i o n e x a m p l e d e s i g n e d b y F O A , t h e c o m p o n e n t s c a n b e fo r m e d s o n o g e o m e t r y i s r e p e a t e d . T h e s t u d y s h o w s c o n s t r u c t i o n s t e p s , a s s e m b l y, a n d rain water flow analysis. Expor ted models come from Rhino, but other plug-ins w e r e e x p l o r e d i n c l u d i n g g r a s s h o p p e r, D i v a 4 R h i n o , e Ve r a i n , a n d R e v i t .
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U s i n g t h i s a s p r e c e d e n c e , t h e p r o j e c t w a s u s e d fo r s t u d y i n o r d e r t o p e r fo r m a number of digital simulations and work flows.
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A b o v e : I s o m e t r i c V i e w.
Above: First and Second in assembly process. Below: Third and For th in assembly process.
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A b o v e : E x p l o d e d a x o n o m e t r i c a s s e m b l y d r aw i n g .
R a i n F l o w Tra i l
A b o v e : T h r e e d i f fe r e n t i t e r a t i o n s o f t h e w a l l a n g l e d i n g r a s s h o p p e r t h e n t e s t e d w a t e r f l o w.
Frank lin Parker
THE NINE SQUARE GRID PROJECT J o h n H e j d u k ’ s N i n e S q u a r e G r i d p r o j e c t t a ke s p r e c e d e n c e i n t h e c h a l l e n g e t o d e s i g n based on a series of superimposed grids. Through the process of super imposition, these grids begin to express programs and spaces. The series of spaces required to design are circulation, repetitive, unique, and static. All of the walls are temporar y to change and a d a p t t o d i f fe r e n t e x h i b i t s . C o l o r s i n d i c a t e c o n n e c t i o n s t h r o u g h s p a c e s , a n d c o l o r r e v e a l s
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connections beyond identifying spaces, and expresses the grid relationship.
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A b o v e : P l a n d r aw i n g o f N i n e S q u a r e G r i d P r o j e c t .
A b o v e : E x p l o d e d i s o m e t r i c d r aw i n g .
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A b o v e : A xo n o m t e r i c