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AI工程師、機器學習工程師、深度學習工程師、影像演算法工程師、資料科學家、Ai Application Engineer,Machine Learning Engineer,Deep Learning Engineer,Data Scientist
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Innolux Corp.
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Micron Technology 台灣美光
Physic Department of Fu Jen Catholic University
對遠端工作有興趣
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不提供接案服務
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Avatar of the user.
僅開放給付費企業
智慧製造全端開發工程師 @聯華電子股份有限公司
2022 ~ 現在
AI工程師、機器學習工程師、深度學習工程師、影像演算法工程師、資料科學家、Ai Application Engineer,Machine Learning Engineer,Deep Learning Engineer,Data Scientist
一個月內
Python
Qt
Git
就職中
正在積極求職中
全職 / 對遠端工作有興趣
4 到 6 年
元智大學 Yuan Ze University
工業工程與管理學系所
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Avatar of the user.
僅開放給付費企業
工程師 @永豐金證券
2018 ~ 現在
Python Developer, Rust Developer, BigData Engineer
一個月內
Python
pytorch
CINEMA 4D
就職中
全職 / 對遠端工作有興趣
4 到 6 年
國立東華大學 | National Dong Hwa University
Arts and Creative Industries
Avatar of Hao-Chun (Chad) Yang.
Avatar of Hao-Chun (Chad) Yang.
Hao-Chun (Chad) Yang
Senior Machine Learning Engineer @C-Media Electronics
2020 ~ 2021
Machine Learning Scientist, Data Scientist
一個月內
Hao-Chun (Chad) Yang Ph.D Ph.D Graduate @NTHU (EE) | Seeking AI/ML R&D Position | Speech, IOT, Health Informatics, Computational Neuroscience | pytorch, tensorflow Room 315, General Building III, No. 101, Section 2, Kuang-Fu Road,Hsinchu City, Taiwan Skills Programming Programming: Python, Matlab DevOps: AWS, GCP, Git, Docker Deep Learning: Pytorch, Tensorflow, Keras ML& Data Science: Sklearn, Numpy, Pandas, Matplotlib MLOps: MLflow, W&B Special HonorsBest Challenge Poster - Physionet/CINC ChallengeTravel Grants - IEEE SPS SocietyPresident Scholarship - NTHU Education National Tsing Hua University Ph.D. in Electrical Engineering (SepPresent) National Tsing
Python
pytorch
tensorflow
服兵役中
全職 / 對遠端工作有興趣
4 到 6 年
清華大學
電機工程
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Avatar of the user.
僅開放給付費企業
創辦人 @酷喬伊科技有限公司
2020 ~ 現在
Python developer
一個月內
PyTorch
Python
PostgreSQL
就職中
目前沒有興趣尋找新的機會
全職 / 對遠端工作有興趣
4 到 6 年
Fu Jen Catholic University
Major, Optical Physics, Minor, Finance and international business
Avatar of Krish Chatterjee.
Avatar of Krish Chatterjee.
Krish Chatterjee
Machine Learning Engineer @Tata Consultancy Services
2021 ~ 現在
Software Engineer, Machine Learning
超過一年
working on Data Science and Machine Learning Projects to develop modern day smart systems that will help in various steps of Supply Chain Management. Technical Skills: Python SQL PL/SQL JAVA AI / Machine Learning Data Science Data Analysis Statistical Analysis Predictive Analysis Hypothesis Data Visualization Pandas / NumPy Exploratory Data Analysis Scikit Learn / PySpark Seaborn / Matplotlib Domain Skills: Supply Chain Management Manufacturing Inventory Management Shipping Warehouse Management Pricing Account Receivables Education : Some Projects: Inventory Management : Real-time insights and visibility into inventory along the supply lines. Optimizing Delivery timelines by predictive demand and supply
Python
Oracle ERP
Oracle SQL
就職中
全職 / 對遠端工作有興趣
10 到 15 年
The University of Texas at Austin
Post Graduate Program in Artificial Intelligence and Machine Learning
Avatar of Abo Lei.
Avatar of Abo Lei.
Abo Lei
Sr. Machine Learning Engineer @Micron Technology 台灣美光
2022 ~ 現在
Data Scientist
超過一年
. Good at self-learning, Desire to recognize the real world through Data. Data Scientist Taichung,TW Birth :Email : [email protected] 技能 Skills Programming C# Socket WInForm Thread I/O WinAPI Visual Studio IDE Visual Studio Visual Studio Code AI Python Tensorflow Keras NumPy Pandas Matplotlib Azure DevOps Machine Learning Service Storage Explorer Batch service Data Factory Tools Jupyter Notebok PyCharm Visual Studio code Version control Git SVN Azure DevOps Repo 知識 Knowledge Languages Chinese - Mandarin Native language Chinese - Taiwanese Native language English Medium TOEIC 670 Architecture Design robust, maintainability, readable software
Word
PowerPoint
Excel
全職 / 對遠端工作有興趣
4 到 6 年
Southern Taiwan University of Science and Technology
Computer Science and Information Technology
Avatar of ChenKuan Sun (CK Sun).
Avatar of ChenKuan Sun (CK Sun).
ChenKuan Sun (CK Sun)
Senior Software engineer @Cisco Systems
2022 ~ 現在
DeepLearning Engineer
一個月內
ChenKuan Sun (CK Sun) Software Engineer • Taipei,TW • [email protected] Interested in Deep Learning and willing to learn new skills. Continue to pursue online courses to solve a variety of different issues. Experience Full Stack Developer, SepNow Qoobit Productions Inc. Secretary officer, NovAug 2018 Republic of China Marine Corps Platoon Commander, JanNov 2016 Republic of China Marine Corps Student, JanJan 2014 R.O.C Naval academy Skills Web Crawling Python - request, BeautifulSoup, selenium. Machine Learning numpy, pandas, sklearn,tensorflow, keras,caffe,pytorch Web Development PHP,Javascipt,html,css Project APC The
Python
C
Web Development
就職中
全職 / 對遠端工作有興趣
4 到 6 年
R.O.C. Naval Academy
Electrical Engineering

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能洞察、分析問題,並擬定方案有效解決問題。
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一年內
Avatar of Austing Yang.
Austing Yang
機器學習工程師
Logo of Asus 華碩電腦股份有限公司.
Asus 華碩電腦股份有限公司
2022 ~ 現在
台灣
專業背景
目前狀態
就職中
求職階段
目前沒有興趣尋找新的機會
專業
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產業
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工作年資
2 到 4 年
管理經歷
技能
Python
Linux
Docker
NumPy
pytorch
Scikit-Learn
git
Deep Learning
Pandas
Linux Shell
Bash scripting
Bash shell
Object Detection
Computer Vision
Machine Learning
語言能力
English
中階
Chinese
母語或雙語
求職偏好
希望獲得的職位
AI工程師、機器學習工程師、深度學習工程師、資料科學家、Machine Learning Engineer、Deep Learning Engineer、Data Scientist
預期工作模式
全職
期望的工作地點
Taiwan, 台灣, USA, UK, Canada, Norway
遠端工作意願
對遠端工作有興趣
接案服務
是,我利用業餘時間接案
學歷
學校
國立雲林科技大學 National Yunlin University of Science and Technology
主修科系
資訊工程
列印
Fveiwui5q05vysxmbtsf

Austin Yang

Hello, I am Ming-Hao, Yang.

I graduated from National Yunlin University of Science and Technology with M.S. in Computer Science and Information Engineering.

My research interests are in deep learning, speech synthesis, speech recognition, anomalous sound detection.

I am familiar with Linux, audio and computer vision, deep learning framework PyTorch, Keras, Tensorflow.

Machine Learning Engineer

[email protected]

Work Experience

National Yunlin University of Science and Technology, Machine  Engineer, Feb 2020 ~ Present

I am responsible for solving industry issues, such as anomaly detection, object detection, object classification, and anomalous sound detection.

At the same time, I serve as the instructor of the Ministry of Education's online pre-employment training course to train AI-related talents.

This course teaches college students of AI-related technology across the country to introduce AI into enterprises and also sets up AI workshops to teach enterprises how to use AI to recognize environmental sounds.


Projects

  1. Respiration sound recognition
  2. Infant sound recognition
  3. Anomaly image recognition
  4. Anomalous sound detection

National Yunlin University of Science and Technology, Artificial Intelligence Engineer, Aug 2019 ~ Oct 2019

This project aims to use students' online learning behaviors to predict whether students will pass the course at the end of the semester and use the AI model to give appropriate learning suggestions.

In the project, I am responsible for the establishment of the entire project such as behavioral feature analysis, AI model establishment, and hyperparameter tuning and prediction.

Education

National Yunlin University of Science and Technology, Master’s Degree, Computer Science and Information Engineering, 2017 ~ 2019

National Yunlin University of Science and Technology, Bachelor’s Degree, Computer Science and Information Engineering, 2012 ~ 2017

Skills

Programming language

  • Python
  • Ruby
  • C++

Machine learning

  • SVM
  • KNN
  • PCA
  • Random forest
  • Decision tree

Deep learning

  • Generative Adversarial Network
  • Autoencoder
  • Convolutional neural network
  • Fully connected neural network

Speech

  • Speech synthesis
  • Speaker recognition
  • Sound event classification

Computer vision

  • Object detection
  • Object classification
  • Image classification

Tools

  • git
  • GitLab
  • Docker
  • Shell script

Portfolio

ImageClassification https://github.com/fastyangmh/ImageClassification

This repository is an image classification based on deep learning.

It contains various state-of-art models like ResNet, MobileNet, EfficientNet and the user can use a self-defined model.

This repository has a hyperparameter tuning and a k-fold cross validation feature.

You can easily use this repository to complete tasks of image classification. What you need is to prepare data and input instructions according to the document, and then you can automatically start training the AI model, and finally, get the best AI model.

SoundClassification https://github.com/fastyangmh/SoundClassification

This repository is an sound classification based on deep learning.

It contains various state-of-art models like ResNet, MobileNet, EfficientNet and the user can use a self-defined model, also contains any audio transform based on SoX.

This repository has a hyperparameter tuning and a k-fold cross validation feature.

You can easily use this repository to complete tasks of sound classification. What you need is to prepare data and input instructions according to the document, and then you can automatically start training the AI model, and finally, get the best AI model.

AudioGANomaly https://github.com/fastyangmh/AudioGANomaly

AudioGANomaly is based on an anomaly detection paper named, "GANomaly: Semi-Supervised Anomaly Detection via Adversarial Train", this architecture uses Encoder-Decoder-Encoder to learn the distribution of normal data in high dimensional space and combine with a classifier based on Encoder by adversarial learning.

AudioDenoiser https://github.com/fastyangmh/AudioDenoiser

AudioDenoiser is based on an anomaly detection paper named, "Real Time Speech Enhancement in the Waveform Domain", this architecture is similar to Autoencoder and U-Net and adds LSTM in the middle layer to improve denoising performance.

Master's Thesis

Speech Synthesis based on Generative Adversarial Network

In recent years, based on mature hardware technology and big data, the Deep Neural Network(DNN) has made breakthroughs, and many successful cases can be seen in various fields. One of the most groundbreaking deep network architectures is the generative adversarial network, which provides an innovative way to train the generative model, and more specifically, it designs the model into two sub-models: generator and discriminator. The generator is used to generate samples, and the discriminator attempts to classify the samples as real or fake. This thesis, which is different from traditional speech synthesis technology, explores the speech synthesis technology based on a generative adversarial network. The generative adversarial network can learn the feature distribution from the training data, thereby generating more natural speech.

This thesis includes the Chinese and English speech synthesis. For the English model, which corpus CSTR VCTK corpus to train three different speaker models of men and women. As for the Chinese corpus, which uses the COSPRO & Toolkit, and also trains three different speakers models of men and women. From the results, it can be found that the English language average score of men and women Mean Opinion Score(MOS) reached 3.18 points (3.52 points for men and 2.83 points for women) out of 5 points, and the average score of men and women in Chinese language MOS reached 1.91 points (2.21 points for men, 1.6 points for women). In addition, in the speaker identification experiment, we found that the average pass rate of the text-related synthesized speech in Chinese and English is as follows: DNN average pass rate reaches 80.5% (72% for Chinese, 89% for English). The Support Vector Machine (SVM) has an average pass rate of 86% (100% in Chinese, 72% in English). The average pass rate of text-independent synthesized speech has different pass rates according to the length of speech: the average pass rate of DNN is 36% (44% in Chinese, 28% in English) in 0.5 seconds, and 44.5% in SVM. The average pass rate of DNN in 3 seconds is 75% (78% in Chinese, 72% in English), SVM is 80.5% (72% in Chinese, 89% in English), DNN average in 5 seconds, the pass rate was 89% (78% in Chinese, 100% in English), and the SVM is 97% (94% in Chinese, 100% in English).

In the average opinion score, since English has a more complete front-end language rule to produce complete text features, so that the model can generate more natural speech. Therefore, English synthesized speech is better than Chinese. In the speaker identification experiment, the English pass rate is worse than that of Chinese in this case because the English speech time is much shorter than Chinese speech. As far as this article is unrelated, it can be found that the longer the speech time is, the higher the pass rate is. Therefore, improving the security of the speaker recognition system can reduce the phrase time or improve the model. Since the discriminator of the system is used to identify the authenticity of the speech during the training process, we can combine the discriminator in the system into the speaker recognition system to effectively block the synthetic speech attack. 
履歷
個人檔案
列印
Fveiwui5q05vysxmbtsf

Austin Yang

Hello, I am Ming-Hao, Yang.

I graduated from National Yunlin University of Science and Technology with M.S. in Computer Science and Information Engineering.

My research interests are in deep learning, speech synthesis, speech recognition, anomalous sound detection.

I am familiar with Linux, audio and computer vision, deep learning framework PyTorch, Keras, Tensorflow.

Machine Learning Engineer

[email protected]

Work Experience

National Yunlin University of Science and Technology, Machine  Engineer, Feb 2020 ~ Present

I am responsible for solving industry issues, such as anomaly detection, object detection, object classification, and anomalous sound detection.

At the same time, I serve as the instructor of the Ministry of Education's online pre-employment training course to train AI-related talents.

This course teaches college students of AI-related technology across the country to introduce AI into enterprises and also sets up AI workshops to teach enterprises how to use AI to recognize environmental sounds.


Projects

  1. Respiration sound recognition
  2. Infant sound recognition
  3. Anomaly image recognition
  4. Anomalous sound detection

National Yunlin University of Science and Technology, Artificial Intelligence Engineer, Aug 2019 ~ Oct 2019

This project aims to use students' online learning behaviors to predict whether students will pass the course at the end of the semester and use the AI model to give appropriate learning suggestions.

In the project, I am responsible for the establishment of the entire project such as behavioral feature analysis, AI model establishment, and hyperparameter tuning and prediction.

Education

National Yunlin University of Science and Technology, Master’s Degree, Computer Science and Information Engineering, 2017 ~ 2019

National Yunlin University of Science and Technology, Bachelor’s Degree, Computer Science and Information Engineering, 2012 ~ 2017

Skills

Programming language

  • Python
  • Ruby
  • C++

Machine learning

  • SVM
  • KNN
  • PCA
  • Random forest
  • Decision tree

Deep learning

  • Generative Adversarial Network
  • Autoencoder
  • Convolutional neural network
  • Fully connected neural network

Speech

  • Speech synthesis
  • Speaker recognition
  • Sound event classification

Computer vision

  • Object detection
  • Object classification
  • Image classification

Tools

  • git
  • GitLab
  • Docker
  • Shell script

Portfolio

ImageClassification https://github.com/fastyangmh/ImageClassification

This repository is an image classification based on deep learning.

It contains various state-of-art models like ResNet, MobileNet, EfficientNet and the user can use a self-defined model.

This repository has a hyperparameter tuning and a k-fold cross validation feature.

You can easily use this repository to complete tasks of image classification. What you need is to prepare data and input instructions according to the document, and then you can automatically start training the AI model, and finally, get the best AI model.

SoundClassification https://github.com/fastyangmh/SoundClassification

This repository is an sound classification based on deep learning.

It contains various state-of-art models like ResNet, MobileNet, EfficientNet and the user can use a self-defined model, also contains any audio transform based on SoX.

This repository has a hyperparameter tuning and a k-fold cross validation feature.

You can easily use this repository to complete tasks of sound classification. What you need is to prepare data and input instructions according to the document, and then you can automatically start training the AI model, and finally, get the best AI model.

AudioGANomaly https://github.com/fastyangmh/AudioGANomaly

AudioGANomaly is based on an anomaly detection paper named, "GANomaly: Semi-Supervised Anomaly Detection via Adversarial Train", this architecture uses Encoder-Decoder-Encoder to learn the distribution of normal data in high dimensional space and combine with a classifier based on Encoder by adversarial learning.

AudioDenoiser https://github.com/fastyangmh/AudioDenoiser

AudioDenoiser is based on an anomaly detection paper named, "Real Time Speech Enhancement in the Waveform Domain", this architecture is similar to Autoencoder and U-Net and adds LSTM in the middle layer to improve denoising performance.

Master's Thesis

Speech Synthesis based on Generative Adversarial Network

In recent years, based on mature hardware technology and big data, the Deep Neural Network(DNN) has made breakthroughs, and many successful cases can be seen in various fields. One of the most groundbreaking deep network architectures is the generative adversarial network, which provides an innovative way to train the generative model, and more specifically, it designs the model into two sub-models: generator and discriminator. The generator is used to generate samples, and the discriminator attempts to classify the samples as real or fake. This thesis, which is different from traditional speech synthesis technology, explores the speech synthesis technology based on a generative adversarial network. The generative adversarial network can learn the feature distribution from the training data, thereby generating more natural speech.

This thesis includes the Chinese and English speech synthesis. For the English model, which corpus CSTR VCTK corpus to train three different speaker models of men and women. As for the Chinese corpus, which uses the COSPRO & Toolkit, and also trains three different speakers models of men and women. From the results, it can be found that the English language average score of men and women Mean Opinion Score(MOS) reached 3.18 points (3.52 points for men and 2.83 points for women) out of 5 points, and the average score of men and women in Chinese language MOS reached 1.91 points (2.21 points for men, 1.6 points for women). In addition, in the speaker identification experiment, we found that the average pass rate of the text-related synthesized speech in Chinese and English is as follows: DNN average pass rate reaches 80.5% (72% for Chinese, 89% for English). The Support Vector Machine (SVM) has an average pass rate of 86% (100% in Chinese, 72% in English). The average pass rate of text-independent synthesized speech has different pass rates according to the length of speech: the average pass rate of DNN is 36% (44% in Chinese, 28% in English) in 0.5 seconds, and 44.5% in SVM. The average pass rate of DNN in 3 seconds is 75% (78% in Chinese, 72% in English), SVM is 80.5% (72% in Chinese, 89% in English), DNN average in 5 seconds, the pass rate was 89% (78% in Chinese, 100% in English), and the SVM is 97% (94% in Chinese, 100% in English).

In the average opinion score, since English has a more complete front-end language rule to produce complete text features, so that the model can generate more natural speech. Therefore, English synthesized speech is better than Chinese. In the speaker identification experiment, the English pass rate is worse than that of Chinese in this case because the English speech time is much shorter than Chinese speech. As far as this article is unrelated, it can be found that the longer the speech time is, the higher the pass rate is. Therefore, improving the security of the speaker recognition system can reduce the phrase time or improve the model. Since the discriminator of the system is used to identify the authenticity of the speech during the training process, we can combine the discriminator in the system into the speaker recognition system to effectively block the synthetic speech attack.