Hamid Peiro


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Computational Design and Digital Fabrication


 [2024]    Multi-Criteria Design & Optimization:
                  Living photosynthetic bio-cementation processes                            
 [2024]    Caschlatsch 
                   Advanced voxel-based nesting strategies.      [2024]    BeyondLayers 
                   Non-planar hollow-core 3D printing methods
 [2024]    Sequencing in Printing
                   PETG extrusion for lightweight, sustainable structures.
           
 [2016]    Urban Open-Space Pavilion 
                   Pavilion designed for dynamic public engagement.                          
 [2015]    ComStruct
                   Exploring computational strategies in construction.

Architecture

[2020]   Office-520
                 Modern office design.
 [2019]   Labiran
                  Creative architectural refurbishment project.

 [2019]   IranBurger
                  Fast-food restaurant design.

Competition


[2021]    Red Ornament (Jewelry)
                  Intricate ornament design.
[2019]    Mozambique Preschool
                  Sustainable educational spaces.
[2017]    Philips Light
                  Shape-shifting lighting systems.
[2017]    Ghavam
                  Architectural proposal.
[2016]    Triumph Pavilion Infusion
                   Pavilion design for urban open spaces.
[2016]    Evolo Furniture
                  Modular and functional furniture design.

Arduino Projects


[2016]    DIOD
An interactive lighting installation using Kinect to 
map topologies and project levels with a projector.
[2016]    Weti
A responsive environmental system using Arduino and
a moisture sensor to monitor the clay’s hydration levels.

Publications

[2021]    JAVID: A Grasshopper Plugin for Image ProcessingAn image-processing plugin for Grasshopper that generates artistic two-dimensional graphical images from bitmap files.

Authors: Mahdiyar Esmailbeigi, Fatemeh Zarei, Ghazaleh Elyasi, Maedeh Fallah Kish, Hadiseh Arbabpour, Amin Aminkhani, Hossein Kamyab, S. Hossein Mousavi, Fereidoun Pourtavakoli, Hamid Peiro, Taha Sabaghian

Link to JAVID on Food4Rhino
[2021]    IAC: A Grasshopper Plugin for Mathematics and GeometryA Grasshopper plugin featuring components for mathematics and geometry, designed to enhance data processing speed and address missing functionalities in Grasshopper workflows.

Authors: Mahdiyar Esmailbeigi, Parisa Afshari, Ghazaleh Elyasi, Maedeh Fallah, Mohammad Mehdi Jalali, Atena Meshkat, Laleh Moradi, Hamid Peiro, Ali Sa’adati, Helia Zakeri, Fatemeh Zarei

Link to IAC on Food4Rhino


ABOUT
2025 Hamid Peiro                                          
peiro@arch.ethz.ch

DIOD

Project Credits

(Names are sorted alphabetically.)
Tutors: Ali Shekholeslami, Rouzbeh Shaikhha
Students: Hadis Atarzade, Hamid Peiro, Hooman Salyani, Mohamadhosein Fallahian

DIOD

The desire to create almost anything has long been a human aspiration. With the rapid advancements in digital fabrication, the role of humans in the fabrication process is becoming less prominent, even transforming traditional handicrafts into industrial products. DIOD addresses this evolution by serving as a prototype robotic assistant, designed to help individuals fabricate with greater accuracy and speed. This multifunctional system bridges the gap between digital and physical realms, converting objects into data and vice versa.

DIOD’s primary function is topography mapping, widely applicable in fields like landscape design and road construction, by detecting surfaces using a Kinect sensor. Its core capability lies in analyzing surfaces, comparing them to a database of 30 predefined models, and guiding users to complete the fabrication process, enabling the creation of their desired final product with efficiency and precision.