Paola Stephania: Difference between revisions

From Medien Wiki
No edit summary
No edit summary
 
(64 intermediate revisions by the same user not shown)
Line 1: Line 1:
===level 3=== BACKGROUND.
Paola Stephania, Calderón Arias


- Architect and Designer with emphasis in product design of Los Andes University (Bogotá/Colombia)
'''BACKGROUND.'''
- Currently making Master in Media Architecture in Bauhaus University (Weimar/Germany)


===level 3=== PROJECT IDEA.
*Architect ''(2012)'' and Designer with an emphasis in product design ''(2013)'' of Los Andes University (Bogotá/Colombia)
Create a series of jewelry accessories that contain a piece of microbiology that is meant to be wearable.
*Currently making Master in Media Architecture in Bauhaus University (Weimar/Germany)


The state of art and the advances made in the field, the investigation around the right microorganism, the environment that they need in order to grow, the process of product development and the results will be subject of work, and the first steps to the final realization are shown below.


'''PERSONAL REASONS TO ATTENDING THE COURSE'''
===level 3=== STATE OF ART.


-Microbiology & Cloth-
As an architect and a product designer, the scale with I interact in my everyday life is a macro scale, that is based in KM for urbanistic projects, M for building, CM and MM for product design. The scale of the microbiology world is something that I have always find fascinating, but sadly since the school, I haven't had the opportunity to interact with it. This course offers me the opportunity to reconnect with this world, to learn from it, experiment and the opportunity to see it through different lenses. I hope that at the end of this course I will be able to understand what experimental microbiology is and see if this subject has a connection to my previous knowledge.
How to combine/unite the world of design and the world of microbiology, an investigation of Neri Oxman in this camp shows the advances in the field. Computational design, additive manufacturing, materials engineering, and synthetic biology as the sources that we have in our time in order to create, innovate an design.  
Here the video of the advances in her field
        -https://www.ted.com/talks/neri_oxman_design_at_the_intersection_of_technology_and_biology


[[File:Neri-Oxman-Stratasys_dezeen_468_2.jpg|400px]]


'''PROJECT IDEAS.'''


-Steps to create art in Petri box-
- Create a series of photographies of a variety of specimens out and under the microscope. The specimens will come from laboratory allowed specimens.
Petri-dish Picasso Contest is a contest where people show their work with bacterias and microorganism and the artistic possibilities that exist within it.  
The web page shows the results of the last contest and a video with the Petri-box art process.
        -https://invisiverse.wonderhowto.com/news/our-11-favorite-bacteria-art-submissions-from-asms-petri-dish-picasso-contest-0177410/


[[File:petri-box.jpg|400px]]
- Does it exist any relation ''(symbiosis, parasitism,...)'' between Aliivibrio Fischeri (bioluminescence bacteria that normally can be found in the tropical warm salt water of the oceans) and Physarum Polycephalum ''(yellow fungi that live in the forest grows in dark relatively warm environments)''? if it is, in which area can it be applied? Which applications could it have in architecture, design or other fields?




*MICROORGANISM INVESTIGATION
'''LINKS TO INVESTIGATION - WORKSHOP - PROJECT'''
In order to decide which microorganism are suitable for the work that is going to be developed, an initial investigation is made in order to understand the characteristics of each microorganism, their needs in order to grow,  and important information suitable for the project.


    + Bacillus Subtilis - (brown)
[[/LINK TO PREVIOUS-INVESTIGATION.]]
    - Chromobacterium violaceum - (violet)
    - Escherichia Coli - (colourless)
    - Micrococcus Luteus - (Yellow)
    - Micrococcus Roseus - (Rosa)
    - Proteus Mirabilis / Pseudomonas aeruginosa - (brown)
    - Pseudomonas Fluorescens – (Blue or green) fluorescens with pyoverdine
    - Serratia Marcescens – (Pink or Orange)
    - Staphylococcus aureus – (Yellow)
    - Vibrio Fischeri – (Bioluminescent)


[[/LINK TO WORKSHOP]]


===level 3=== IMAGE REFERECE.
[[/Specimen adoption 1: ''Haematococcus Pluvialis''.]]
*https://www.dezeen.com/2014/11/25/neri-oxman-mit-media-lab-stratasys-wearable-3d-printed-structures-interplanetary-voyages-synthetic-biology/
 
*https://invisiverse.wonderhowto.com/news/our-11-favorite-bacteria-art-submissions-from-asms-petri-dish-picasso-contest-0177410/
[[/Specimen adoption 2: ''Armillaria Gallica''.]]
 
[[/LINK PROJECT]]

Latest revision as of 12:56, 5 December 2018

Paola Stephania, Calderón Arias

BACKGROUND.

  • Architect (2012) and Designer with an emphasis in product design (2013) of Los Andes University (Bogotá/Colombia)
  • Currently making Master in Media Architecture in Bauhaus University (Weimar/Germany)


PERSONAL REASONS TO ATTENDING THE COURSE

As an architect and a product designer, the scale with I interact in my everyday life is a macro scale, that is based in KM for urbanistic projects, M for building, CM and MM for product design. The scale of the microbiology world is something that I have always find fascinating, but sadly since the school, I haven't had the opportunity to interact with it. This course offers me the opportunity to reconnect with this world, to learn from it, experiment and the opportunity to see it through different lenses. I hope that at the end of this course I will be able to understand what experimental microbiology is and see if this subject has a connection to my previous knowledge.


PROJECT IDEAS.

- Create a series of photographies of a variety of specimens out and under the microscope. The specimens will come from laboratory allowed specimens.

- Does it exist any relation (symbiosis, parasitism,...) between Aliivibrio Fischeri (bioluminescence bacteria that normally can be found in the tropical warm salt water of the oceans) and Physarum Polycephalum (yellow fungi that live in the forest grows in dark relatively warm environments)? if it is, in which area can it be applied? Which applications could it have in architecture, design or other fields?


LINKS TO INVESTIGATION - WORKSHOP - PROJECT

/LINK TO PREVIOUS-INVESTIGATION.

/LINK TO WORKSHOP

/Specimen adoption 1: Haematococcus Pluvialis.

/Specimen adoption 2: Armillaria Gallica.

/LINK PROJECT