Jiapan Sun's Portfolio

Selected Works 2018-2022

Jiapan(Jasper) Sun

Personal Info

Birth:04/07/1999

Nationality:Chinese

Email:

Phone: archpanda@126.com

+8618625772532

Adress:Zhengzhou

Language:

Chinese(Native)

English(Fluent)

Russian(Basic)

Hobbies

Football Arrangement

Education

Sept 2018 - Jul 2023

The North China University of Water Resources and Electric Power Bachelor Degree of Architecture

5 years-undergraduate program

Experience

Jul 2021 - Sept 2021 / Dec 2021 - Feb 2022 / Jun 2022 - Sept 2022

Archi-Union & Fab-Union Assistant Architect & Digital Design Engineer

Workshops

Jun 2021 - jul 2021

''Digital Futures'' Shanghai Summer Workshop 2021 Intellgent Form Studio(Member)

Jun 2022 - jul 2022

''Digital Futures'' Shanghai Summer Workshop 2022 Voxel Metaverse Exhibition Space Design(Teaching Assistant)

Major Awards

Jun 2022

First prize of Scientific and Technological Achievements in Henan Province

Oct 2021

Second prize of BIM Competition in Henan Province

Paper

"Technology Exploration of Autonomous Construction Based on UAV + Composite Fiber Structure."

Science and Technology Innovation and Application 12.31(2022)

Software Skills

Modeling:Rhino(Grasshopper)/AutoCAD/Revit/Blender/SketchUp Scripting:C#(GH)/Python/ROS

Graphic Design:AutoCAD/InDesign/Illustrator/PhotoShop

Animation:Premiere/After Effect/UE4/Houdini

City Food Market

Student Work

NCWU Core Studio(16 Week Personal Work)

FAB-UAV Workflow

Individual Research

Achievements: One paper Reshaping Tradition

Team Work

Achievements: Excellence Award of Henan Construction Festival

'Worksnow' Series

Internship Program

Contribution:From Concept to Construction

'Glory' Archway

Internship Program

Contribution:From Concept to Construction

Reconstruct the Forth Bridge

Intellgent Form Studio

Contribution:From Concept to Drawing

Instructor: Yimeng

Food Market Design Oriented to The and Efficient Service

Individual Design

16 Week Personal Work)

Yimeng Zhang(NCWU)

Original Markets

In the Chinese countryside, at festivals, merchants from various villages will organise themselves to gather at a certain place. It is a very free market where the merchants will work hard to sell their stuff and people will approach the merchants first and then the goods. Such markets are chaotic, but one can feel a strong sense of human touch

Urban Markets

People's lives are very busy in China's cities and in order to match this pace of life, urban food markets are usually very well planned with a simple and efficient flow. People touch the goods first in urban food markets, while the merchants stand behind the goods and provide additional services to the customers. This type of food market is very efficient but lacks a human touch

Internet Markets

With the development of the internet, young people are very fond of buying food online. Many e-commerce companies will have a large warehouse supermarket and many delivery men who will simply place an order online and the delivery man will deliver the food to your home. It is very convenient to buy food in this model, but the merchants disappear completely into virtual information without any human touch

Community Markets

I have thought about what kind of market is needed in China's cities in this day and age, and I want it to be a very convenient, efficient and humane place that serves the community. The traders and the food are independent of each other, the traders can express their own values, and mechanical rails can distribute the food from the warehouse to the shelves and the takeaways. This is a place where people can not only buy food but also taste it and enjoy the community service.

"The Human Touch" "Efficient" "Convenient"

DINING AREA

DINING AREA DINING AREA

DINING AREA

DINING AREA

WAT E RBAR BOILED STIR-FRIED BARBECUE BAKED HANDMADE FRIED STEAMED

DINING AREA DINING AREA

DINING AREA DINING AREA

FRUITS PRODUCTS

SEAFOOD PRODUCTS

DINING AREA

Library Gmnasium

Office

Homemade

Waterbar

Steamed

Boiled

Fruits

Vegetables

Conveyor Office

Exhibition Baked

Stir-fried

Barbecue

Seafood

Meats

Grains

Goods shelf

Customer Flow Line

Food Flow Lines

Efficiency is very important in urban food markets. The efficient transmission system composed of unmanned intelligent warehouse and track can transport all kinds of goods in the warehouse to the sales area, takeaway area and kitchen, and people can feel that they are in a modern and efficient place

Efficient delivery systems are ubiquitous in the food market. This system not only connects various areas , but also makes the market more advanced, which can improve the efficiency and profit of merchants.

A Place With A Human Touch

Human touch is the unique style of the food market, and the food and merchants themselves are unique exhibits. People can feel a strong sense of human touch in the free market plane. Not only can they see the performance of the merchants handling the ingredients, but they can also hear the cries of the merchants.

The human touch makes this place lively, and the huge flow of people will bring huge economic benefits to the market. The future food market will transform into a place for experience and communication.

FAB-UAV -UAV PATH & AUTONOMOUS

2021-2022

Individual

Instructor: Zhe Guo(HFUT)

Achievements: One paper: Autonomous Fabrication Based Fiber Structure"

Workflow

PATH PLANNING

AUTONOMOUS FABRICATION

Individual Research

Guo(HFUT) Yimeng Zhang(NCWU) "Technical Exploration of Based on UAV + Composite Structure"

Workflow Diagram of UAV System

Framework Diagram of DIY UAV

Elements Diagram

Drone Disassembly Diagram

Positioning Mark

Position Control System

i.Receiver

d.Pixhawk

Position

Designer

The DIY UAV is mainly composed of five parts: electrical power system, data processing system , position control system , dynamical System, and onboard devices

The power system provides energy for other systems; the designer sends the data to the data processing system, which will send data to the position control system and onboard devices after processing; the position control system will analyze the data to control the dynamical system to move; the onboard devices work after arriving at the target location.

g.F450 Rack

k.Buzzer

Electrical Power System

j.GALV

f.YKS Power

a.Motor*4

b.Airscrew*4

i.Receiver

j.GALV

c.Raspberry Pi k.Buzzer

d.Pixhawk l.Fixedplate*2

e.Shim m.Baseplate

f.YKS Power n.Marker*6

g.F450 Rack o.Toolhead

h.Rc Esc*4

Core Circuit Diagram

p.Engine

Data Processing System

c.Raspberry Pi

WiFi Receiver

Dynamical System

b.Airscrew

a.Motor

h.Rc Esc

Onboard Devices

p.Engine

o.Toolhead

Virtual Simulation Experiment

Practice Virtual Simulation System Planning Route

Unmanned Aerial Vehicle Data Send

Designer

In the winding experiment, the UAV has three flying states:

1. Hovering state (the UAV maintains the current position and retracts the wire wheel to keep the wire in a straight state);

2.Turning state (the UAV rotates to let the wire wind on the shelf );

3.Moving state (the movement of the drone ensures that the wire wheel can exit the line smoothly).

Four different flight trajectories:

1. Take-off phase ; 2. Circular winding phase ; 3. Spiral winding phase; 4.Landing phase

The above process will be verified in the virtual simulation experiment according to the pre-planned path.

Establishment of Experimental Environment

Take-off Stage

Cyclic Winding Stage

Spiral Winding Stage

Landing Stage

The take-off stage is to let the UAV take off vertically and leave the take-off and landing area and hover to check whether the control of the UAV is smooth, then turn and move to the experimental area; In the middle, the UAV will turn around several times to ensure that the wire wheel does not get stuck and the wire can go out normally, so that the wire can be wound on the shelf to form a cube with a sense of volume; during the spiral winding stage, the UAV will move and turn in a spiral, wind the wire body and place it Shrink, and finally the UAV completes the flight mission, leaves the work area and returns to the take-off and landing area to hover. After stabilization, it lands vertically and turns off the motor.

Robtic-End Effector Design

Working Principle of the Effector

RESHAPING RECONSTRUCTION

TRADIONAL TAIHU

2021Teamwork

Instructor: Yimeng Zhang(NCWU)Juepin

Role : Lead

Contribution: From Concept

Achievements: Excellence Award

TRADITION

RECONSTRUCTION EXPERIMENT OF TAIHU STONE

2021Teamwork

Zhang(NCWU)Juepin Hou(NCWU)

Lead Designer

Concept to Construction

Award of Henan Construction Festival

STRUCTURE PRINCIPLE

Weaire–Phelan Structure

In geometry, the Weaire–Phelan structure is a three-dimensional structure representing an idealised foam of equal-sized bubbles, with two different shapes. In 1993, Denis Weaire and Robert Phelan found that this structure was a better solution of the Kelvin problem of tiling space by equal volume cells of minimum surface area than the previous best-known solution, the Kelvin structure.One is a Pyritohedron, the second is a form of Truncated hexagonal trapezohedron.

Pyritohedron

An irregular dodecahedron with pentagonal faces, possessing tetrahedral symmetry.

Truncated Hexagonavl Trapezohedron

A species of tetrakaidecahedron with two hexagonal and twelve pentagonal faces.

CONCEPT DESIGN

STEP 1 Minimum Surface Form Finding

STEP 2 Distance Algorithm

STEP 3 Behavior-based Shape Optimization

Taking into account the scope of the action space, reduce the body blocking the space.

Considering the scope of vision, reduce the form that blocks the space.

STEP 4 Skin Design

Skin Design Concept

When Chinese people talk about nature, "mountain" and "water" must appear at the same time.In Chinese gardens, Taihu stones and pond water systems are often used to express the landscape and reflect the harmony of yin and yang that is both rigid and soft.So, we expressed this idea through different ways of opening holes.

The first classification of different surfaces

The first type of epidermis is formed

The second classification of different surfaces

The second type of epidermis is formed

The third type of epidermis is formed

Based on the irregular shape of Taihu stone, we designed the skin of the building. There are three forms of basal epidermis. Through the combination of holes of different sizes on the skin of a single sphere, echoing the skin of Taihu stone.

Construction Process

We selected a 5mm thick plastic hollow sheet for machining, laser engraving and hand cutting to get the expansion plane, and then punched and braided the fabrication unit by using strapping rope. After the completion of the unit, we began the formal establishment. Attach units with bolts and nuts. This is the way we build the device.

Attach Units With Bolts And Nuts

Design the Process of Construction

After putting this installation on the public green space, we found that different groups of people interact with this installation differently and produce different behaviors. This is basically the same as the phenomenon that people have different behaviors in the space formed by Taihu Rock. We think This experiment was successful.

2022 Internship Program

Archi-Union/Fab-Union(Built)

Architect:Phillip Yuan/Tao Yu/Jiapan Sun(Intern)

Role:Detailed design

Contribution:From Concept to Construction

Working setup is becoming discrete and remote

Setting

Scenarios

Future office needs to match multiple scenarios

Subject Media

Cyber Space Human

WORKSNOW is a product series that redefines the work setup. It was designed to be a smart room that can be flexible placed in common public area with complete office tool kit.

It can be configured in office buildings, shopping malls, outdoor parks and other daily scenarios. As a discrete shared office, it has become a small space carrier that can be flexibly laid out. In a lighter and more convenient way, diverse working needs in different scenes can be fulfilled.

7.Curved

10.Carpet

Sturcture

2022 Internship Program

Fab-Union

Architect:Tao Yu/Jiapan Sun(Intern)

Role:Detailed design

Contribution:From Concept to Construction

Voxelization Prototype

Optimized Design

Spatial Printing Product

Components 'Glory' Archway

The 'Glory' archway project uses the lattice voxel method to translate and deepen, and on the basis of fitting the original China Archway, add wings that can bring a strong sense of halo, implying "wings of light".

The vertical space occupied by the installation makes it an excellent light and shadow carrier, capable of receiving and interpreting various lighting and image projections, making it an ideal art promotion and media platform, and the core highlight of Xujiahui Academy.

Provide

06.Reconstruct the Forth Bridge

''Digital Future'' Shanghai Summer Workshop 2021 Intellgent Form Studio

Instructor:Mike Xie(RMIT)/Nic Bao(RMIT)/Jianan Peng(CSCEC)

Collaborator:Yuan Lian(QUT)/Zecheng Yin(Tongji)

Contribution:From Concept to Drawing

The Forth Bridge is an elegant cantile-ver bridge with a very long span achievedby structured truss frame, our design is toreconstruct and optimize it in a topologicalway to achiveve a more reasonable structureand free form.

The bridge is divided into 6main parts and they are optimized seperatelybased on different load situation. Use AMEBA for topology optimization design to find the optimal stress path to ensure structural material reduction without loss of support performance. And explore a new form with the beauty of structural mechanics.

Structure Analysis