Made with Krita. (Copyright 2021-)
- Optimal Design
- Linkage Mechanisms
- Computer Vision
- Machine Learning
- Game 0 A.D. (en-US → zh-TW)
- four-bar:
Planar four-bar linkage mechanism simulation and mechanical synthesis system.
- type: GUI, WebAssembly GUI
- techniques: Rust (Actix, egui, wasm-bindgen), JavaScript
- efd:
Elliptical Fourier Descriptor (EFD) implementation in Rust.
- type: Library
- techniques: Pure Rust
- metaheuristics-nature:
A collection of nature-inspired metaheuristic algorithms for benchmarking different optimization methods.
- type: Library
- techniques: Pure Rust
- reveal-yaml:
Create a Reveal.js presentation simply via a YAML file and some local resources. (CLI)
- type: CLI, remade from Python
- techniques: Rust (Actix), JavaScript (jQuery), CSS, HTML
- Pyslvs-UI:
Planar linkage mechanism simulation and mechanical synthesis system.
- type: GUI, kernel selectable (main library: pyslvs)
- techniques: Python (PyQt), Cython, C
- Python-Solvespace:
Python wrapper for the kernel of Solvespace, which is CAD software.
- type: Wrapper, library
- techniques: Python, Cython
- apimd:
A Python API compiler for universal Markdown syntax.
- type: CLI
- techniques: Pure Python
- yaml-peg:
A YAML 1.2 parser using a greedy parsing algorithm with PEG atoms.
- type: Library
- techniques: Pure Rust
- latex-paper: LaTex template for National Taiwan University Thesis.
- type: Template
- techniques: ShellScript, LaTex (pandoc CLI)
- My Gists
- Rust
- Python (PyQt, PyTorch, Cython)
- C99^/C 11^
- ShellScript / Makefile / CMake / Batch file
- Matlab
- JavaScript / TypeScript (HTML / CSS)
- OCaml
Work platform: Kubuntu / Windows
- 2024, Path Synthesis of Planar Four-bar Linkages for Closed and Open Curves Using Elliptical Fourier Descriptors
- 2024, Atlas-Based Path Synthesis of Planar Four-Bar Linkages Using Elliptical Fourier Descriptors
- 2022, A generative model for path synthesis of four-bar linkages via uniform sampling dataset
- 2021, Design of a Monolithic Constant-Force Compliant Mechanism for Extended Range of Motion and Minimal Force Variation