Education: Pratt Institute - Brooklyn, NY Bachelor’s Degree, Major in Architecture, Third Year GPA: 3.3
Honor & Scholarship: Ferdinand M. Junge Memorial Scholarship (2014-2016) Dean’s List (Fall 2013, Fall 2015) President list (Spring 2014 — Spring 2015)
Internship & Experience: hsun@pratt.edu (202)6799055 80 Lexington Ave, apt 406
- UN+ Architect, Shanghai, China. (July 2014-August 2014). - Gensler, Shanghai, China. (May 2015-July 2015) (Dec 2015-Jan 2016) - Teacher Assistant_Representation. (Jan 2016 - Present)
Objective:
Skills:
To obtain an internship position during summer (from May to August), preferably as computation assistant. As a person with adequate Grasshopper and Rhinoceros skills, I’d love to offer help to accelerate the process of schematic design or the later design development phase under rational parameters. In additional to that, my experience with special representation tools such as spherical rendering or Virtual Reality would also bring unique likeness into each project.
Complex 3D Modeling, geometry research, data analysis, rapid prototyping(Presentation and drawings), sphereical rendering, Virtual Reality through Unity 3D, ABB industrial robotic arm control, book/print production.
Hanshen Sun | Pratt Institute
2
Software: Rhinoceros Grasshoppper Illustrator Indesign Photoshop V-Ray Maxwell Premiere Maya CAD Unity Python C#
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Area of interest: Parametric Design (Grasshopper, Dynamo)
Adaptive Typology (Python, C#)
Interactive/ Virtual Experience (Grasshopper, Unity 3D, Robotic Arm)
Fabrication
(Grasshopper, Robotic Arm)
Form-generating
Form-generating Tool
Modelling/ Construction Analysis
3
Parametric tools for Data Analysis
4
Summer
Activity:Game Season Location: Elsewhere
Activity: Summer Break Location: Elsewhere
Fall
Activity: Outdoor Practice Location: On site
Winter
Activity: Indoor Practice Location: On site
for site analysis 5
Parametric tools for Data Analysis
6
for building analysis 7
Parametric tools for modelling and construction
8
Work @ Gensler
for building construction 9 Work @ Gensler
Parametric tools for Design Development
10
This project was an canopy over a commercial pedestrian route. The goal was to modulize the panels on the canopy to minize the number of panels types as well as reducing the difficulty of construction.
Work @ Gensler
Living Window 1
Living Window 2
Living Window 3
Living Window 4
Living Window 5
Living Window 6
Living Window AA
Living Window BB
Living Window CC
Living Window DD
Living Window A
Living Window B
Living Window C
Living Window D
Living Window E
Living Window F
Living Minor A
Living Minor B
Living Minor C
Living Minor D
Living Minor 1
Living Minor 2
Skylight Window 1 Skylight Window 2 Skylight Window 3 Living Minor 3
10’x 2.3’
10’x 9.4’
10’x 10.5’
Skylight Window 4
Skylight Window 5
Living Window 1
Living Window 2
Living Window 3
Living Window 4
Living Window 5
Living Window 6
10’x 10’
10’x 6.9’
20’x 7.5’
20’x 6.7’
20’x 10.4’
20’x 6.7’
20’x 6.5’
20’x 7.4’
Skylight Support 4
Skylight Support 5
Living Minor 1
Living Minor 2
Living Minor 3
Living Minor 4
10’x 10’
10’x 6.9’
20’x 3.1’
20’x 3.9’
20’x 2.8’
20’x 3.8’
Living Minor 4
Bedroom Window 1 Bedroom Window 2
Bedroom Window 3
Skylight Support 1 Bedroom Window 4
10’x 2.3’
Skylight Support 2 Skylight Support 3 10’x 9.4’
10’x 10.5’
Bedroom Window 5
Living Window AA Living Window DD Bedroom Minor 1
20’ x 9.9’
20’ x 8.4’
Living Window CC 20’x 10’
Living Window BB 20’x 9.3’
Bedroom Window 1 Bedroom Window 2 Bedroom Window 3 Bedroom Window 4 10’x 7.5’
10’x 10’
10’x 6.5’
Bedroom Minor 1
Bedroom Minor 2
Bedroom Minor 3
10’x 3.9’
10’x 2.1’
10’x 2.9’
Living Window A
Living Window B
Living Window C
Living Window D
10’x 6.3’
10’x 7.3’
10’x 6.9’
10’x 6.6’
Living Minor A
Living Minor B
Living Minor C
Living Minor D
10’x 3.9’
10’x 3.1’
10’x 2.9’
10’x 3.7’
10’x 6.6’
Bedroom Window 5 10’x 8.5’
Bedroom Minor 2
Bedroom Minor 3
Skylight Window 1
Skylight Window 2
Skylight Window 3
Skylight Window 4
Living Window E 10’x 10.51’
Living Window F 10’x 7.7’
Skylight Window 5
Skylight Support 1
Skylight Support 2
Skylight Support 3
Skylight Support 4
Skylight Support 5
for design development 11
Modulize facade panels according to surface areas
Parametric tools for Representation
12
Light drawings 13
Parametric tools for Representation
14
All of these drawings were done with the collaboration between digital tools and an industrial robotic arm manufactured by ABB. As part of the Robotics course curriculum, students are asked to generate trajectories through python scripting to create three-dimensional light drawings as an exercise of controlling the robotic arm.
Light drawings 15
Digital tools for Interactive Experience
16
Development of technology in Virtual Reality (VR) field had advanced in recent years. After the announcement of the Google Cardbord lens, people were able to experience the three-dimensional space with affordable price. My experience in VR field mainly focused on how to use this technology to provide audiences or clients an easier and thorough way to comprehend our architecture projects. With the help of virtual environment, spatial experience that we could provide to others is no longer planar, but rather spatial.
VR Experience 17
Hanshen Sun | Pratt Institute hsun@pratt.edu (202)6799055 80 Lexington Ave, apt 406