PORTFOLIO Pranav Karthick Jayaprakash
COMPUTER APPLICATIONS B.Arch 2022
SPA,NEW DELHI
2D TO 3D RHINO Firstly set up the desired isometric view in Rhino, then align the model in a Bjarke Ingles type of presentation. Using Rhino’s Make2D command, generate a 2D linework from the 3D model, capturing the isometric perspective. Export the Make2D linework as a vector file (AI or SVG) for seamless integration into Illustrator Open and insert the exported file in Illustrator, ensuring that it has proper scale and orientation Emulate Bjarke Ingles’ style by using bold clean lines with varying line weights to emphasize key elements. Color and Arctic Background: Apply a muted color palette reminiscent of arctic tones for a subtle and sophisticated look. Add a background gradient or texture resembling an arctic atmosphere to enhance the overall presentation.: Fine-tune linework and add selective detailing to highlight specific architectural features. Arrange elements in a visually appealing composition, following Bjarke Ingles’ aesthetic principles. Save the final Illustrator file and export as a highresolution image for presentations or portfolio use. By following these steps, you can create an isometric Make2D view in Rhino, transfer it to Illustrator, and apply a Bjarke Ingles-style aesthetic with arctic-themed colors and backgrounds.
MAKE 2D BJARE
INGELS MODEL
WAFFLE MODEL
PAPER
Begin by brainstorming and sketching the waffle model concept on paper or digitally. then identify the key design elements such as the overall shape, size, and pattern of the waffle structure that needs to be worked with. Start the digital model by creating a base surface in Rhino that represents the overall form of the waffle. Utilizing Rhino’s SubD modeling tools add intricate details, creating a paper-thin waffle structure of teh design. Fine-tune the design, adjusting edge loops and control points for a visually appealing and structurally sound model. Export the finalized Rhino model to a format compatible with fabrication tools, such as DXF. Consider material constraints and plan for efficient fabrication processes.
DIGITAL WAFFLE MODEL
Use CNC milling or 3D printing to bring the digital waffle model into the physical realm. Ensure precision during fabrication to capture the intricacies of the SubD model.
RENDERED PAPER THIN MODEL
R THIN SUBD MODEL
RENDER+ PHYSICAL MODEL Import the fabricated waffle model into Twinmotion. Set up lighting, materials, and textures to enhance the visual appeal of the waffle structure. Experiment with camera angles and render settings to produce compelling images or animations. Compile rendered images or animations for a cohesive presentation of your waffle model. Highlight design details and materiality to effectively communicate the concept to jurors or audiences. By following these steps, you can seamlessly transition from conceptualization to a visually stunning and physically fabricated waffle model, showcasing your design prowess in both Rhino and Twinmotion.
PHYSICAL WAFFLE MODEL
Y10 Y9 Y8
Y25
Y5
Y3
X2 Y23
Y14
Y15
Y19
Y18
TWINMOTION RENDERS
Y6
Y4
Y26 Y27 Y22
Y7 X3
Y28
Y29 Y30 Y31
Y32
Y24 Y33
Y20
FABRICATION DRAWINGS
Y34
X1
TWINMOTION RENDERS
FABRICATION DRAWINGS
Y12 X24
Y2
Y13
AUTOCAD
LP
LP
N
LP
LP
LP
LP
N
F
F
N
N
N
MISCELLANEOUS USING PHOTOSHOP TO EDIT IMAGES
USING PHOTOSHOP TO MAKE POSTERS
USING RHINO AND METASPARK TO MAKE AR FILTERS