Machine vision is the newest weapon against crop loss
https://zd.net/2Vq1AvV
#ai #ArtificialIntelligence #farming
✴️ @AI_Python_EN
https://zd.net/2Vq1AvV
#ai #ArtificialIntelligence #farming
✴️ @AI_Python_EN
Accelerating quantum technologies with materials processing at the atomic scale #quantum #QuantumComputing
https://t.co/mHuuywfESG
✴️ @AI_Python_EN
https://t.co/mHuuywfESG
✴️ @AI_Python_EN
A 2019 guide to 3D Human Pose Estimation
https://blog.nanonets.com/human-pose-estimation-3d-guide/
✴️ @AI_Python_EN
https://blog.nanonets.com/human-pose-estimation-3d-guide/
✴️ @AI_Python_EN
A Convolutional Neural Network Tutorial in Keras and Tensorflow 2
https://medium.com/@isakbosman/a-convolutional-neural-network-tutorial-in-keras-and-tensorflow-2-2bff79f477c0
#Keras #neuralnetwork #TensorFlow #ConvolutionalNeuralNetwork
✴️ @AI_Python_EN
https://medium.com/@isakbosman/a-convolutional-neural-network-tutorial-in-keras-and-tensorflow-2-2bff79f477c0
#Keras #neuralnetwork #TensorFlow #ConvolutionalNeuralNetwork
✴️ @AI_Python_EN
Chris Lattner: Compilers, LLVM, Swift, TPU, and ML Accelerators | Artificial Intelligence Podcast
https://www.youtube.com/watch?v=yCd3CzGSte8
✴️ @AI_Python_EN
https://www.youtube.com/watch?v=yCd3CzGSte8
✴️ @AI_Python_EN
YouTube
Chris Lattner: Compilers, LLVM, Swift, TPU, and ML Accelerators | Lex Fridman Podcast #21
How to tell whether machine-learning systems are robust enough for the real world
http://news.mit.edu/2019/how-tell-whether-machine-learning-systems-are-robust-enough-real-worl-0510
#MachineLearning
✴️ @AI_Python_EN
http://news.mit.edu/2019/how-tell-whether-machine-learning-systems-are-robust-enough-real-worl-0510
#MachineLearning
✴️ @AI_Python_EN
Deep Learning Determinism
🌎 Deep Learning
🌎 This is a talk from GTC 2019 in San Jose, California. Slides: http://bit.ly/dl-determinism-slides
#DeepLearning
✴️ @AI_Python_EN
🌎 Deep Learning
🌎 This is a talk from GTC 2019 in San Jose, California. Slides: http://bit.ly/dl-determinism-slides
#DeepLearning
✴️ @AI_Python_EN
MELD: A Multimodal Multi-Party Dataset for Emotion Recognition in Conversations has been accepted as a long paper at #ACL2019. With D. Hazarika, N. Majumder, G. Naik, E. Cambria,.
Arxiv - https://arxiv.org/abs/1810.02508
Dataset -
https://affective-meld.github.io
✴️ @AI_Python_EN
Arxiv - https://arxiv.org/abs/1810.02508
Dataset -
https://affective-meld.github.io
✴️ @AI_Python_EN
Discover 3D graphics capabilities for #TensorFlow >> https://github.com/tensorflow/graphics … | #DeepLearning
✴️ @AI_Python_EN
✴️ @AI_Python_EN
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Deep Learning: GANs and Variational Autoencoders ☞ http://bit.ly/2JdVTP3 #tensorflow #ai
✴️ @AI_Python_EN
✴️ @AI_Python_EN
image_2019-05-15_20-15-37.png
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Expression Conditional GAN for Facial Expression-to Expression Translation https://arxiv.org/pdf/1905.05416.pdf
✴️ @AI_Python_EN
✴️ @AI_Python_EN
In #DataScience textbooks I frequently read that #logisticregression (LR) is a misnomer because it's a classifier, not regression.
Some also are disdainful of the method, claiming its predictions are generally poor compared to other classifiers.
Both comments suggest the author became aware of LR through predictive analytics and is unfamiliar with its origins and the ways it is commonly used by statisticians and researchers.
LR, like the more familiar OLS regression introduced to us in Stats 101, is a member of the Generalized Linear Model (GLM) family. These are all regression methods. Regression methods for analyzing categorical data have been widely-used in many fields to help us understand phenomena.
Applied Logistic Regression (Hosmer and Lemeshow) Logistic Regression Models (Hilbe) are two classic books on LR.
Though not its original purpose, LR can also be used for classification. The output of LR are estimated probabilities of group membership. You can set the cutoff wherever you like - 0.50 is only a standard program default and inappropriate for imbalanced data.
The righthand side of the LR equation can also be modified to account for interactions and curvilinear relationships.
LR is not always the best choice for classification but often works very well.
My first serious use of LR was to both explain and predict, in this case, student loan default based on loan application data. I was not aware of the term "predictive analytics" at the time (early '80s) and it probably wasn't yet in use.
Explanation and prediction are not mutually exclusive, though historically LR and stats generally have been used more for explanation. Statisticians tend to frown on equations that don't make sense even if they predict well out of sample. It can be a warning sign.
An arbitrary distinction between "regression" and "classification" has emerged in recent years, the former being used when the dependent variable (label) is continuous or interval and the latter when it is categorical (e.g., purchased/didn't purchase). A statistician will tend to see both cases, as well as when the dependent variable is ordinal, count, or multinomial, as regression problems.
Discriminant analysis, which is related to MANOVA, was designed for classification but can also be used to help us understand a phenomenon.
There are many excellent books on GLM and categorical data analysis, and here are just a few:
- Generalized Linear Models and Extensions (Hardin and Hilbe)
- Generalized Linear Models & Generalized Estimating Equations (Garson)
- Regression Modeling Strategies (Harrell)
- Categorical Data Analysis (Agresti)
- Analyzing Categorical Data (Simonoff)
- Regression Models for Categorical Dependent Variables (Long and Freese)
✴️ @AI_Python_EN
Some also are disdainful of the method, claiming its predictions are generally poor compared to other classifiers.
Both comments suggest the author became aware of LR through predictive analytics and is unfamiliar with its origins and the ways it is commonly used by statisticians and researchers.
LR, like the more familiar OLS regression introduced to us in Stats 101, is a member of the Generalized Linear Model (GLM) family. These are all regression methods. Regression methods for analyzing categorical data have been widely-used in many fields to help us understand phenomena.
Applied Logistic Regression (Hosmer and Lemeshow) Logistic Regression Models (Hilbe) are two classic books on LR.
Though not its original purpose, LR can also be used for classification. The output of LR are estimated probabilities of group membership. You can set the cutoff wherever you like - 0.50 is only a standard program default and inappropriate for imbalanced data.
The righthand side of the LR equation can also be modified to account for interactions and curvilinear relationships.
LR is not always the best choice for classification but often works very well.
My first serious use of LR was to both explain and predict, in this case, student loan default based on loan application data. I was not aware of the term "predictive analytics" at the time (early '80s) and it probably wasn't yet in use.
Explanation and prediction are not mutually exclusive, though historically LR and stats generally have been used more for explanation. Statisticians tend to frown on equations that don't make sense even if they predict well out of sample. It can be a warning sign.
An arbitrary distinction between "regression" and "classification" has emerged in recent years, the former being used when the dependent variable (label) is continuous or interval and the latter when it is categorical (e.g., purchased/didn't purchase). A statistician will tend to see both cases, as well as when the dependent variable is ordinal, count, or multinomial, as regression problems.
Discriminant analysis, which is related to MANOVA, was designed for classification but can also be used to help us understand a phenomenon.
There are many excellent books on GLM and categorical data analysis, and here are just a few:
- Generalized Linear Models and Extensions (Hardin and Hilbe)
- Generalized Linear Models & Generalized Estimating Equations (Garson)
- Regression Modeling Strategies (Harrell)
- Categorical Data Analysis (Agresti)
- Analyzing Categorical Data (Simonoff)
- Regression Models for Categorical Dependent Variables (Long and Freese)
✴️ @AI_Python_EN
What Is Your Purpose of Visualizing Data?
Visualize data based on purpose
Detail
https://lnkd.in/fa95F8d
Alternative Reading
✅ Know Data Science
https://lnkd.in/fMHtxYP
✅ Understand How to answer Why
https://lnkd.in/f396Dqg
✅ Know Machine Learning Key Terminology
https://lnkd.in/fCihY9W
✅ Understand Machine Learning Implementation
https://lnkd.in/f5aUbBM
✅ Machine Learning on Retail
https://lnkd.in/fihPTJf
✅ Machine Learning on Marketing
https://lnkd.in/fUDGAQW
#datascience #visualization #machinelearning
✴️ @AI_Python_EN
Visualize data based on purpose
Detail
https://lnkd.in/fa95F8d
Alternative Reading
✅ Know Data Science
https://lnkd.in/fMHtxYP
✅ Understand How to answer Why
https://lnkd.in/f396Dqg
✅ Know Machine Learning Key Terminology
https://lnkd.in/fCihY9W
✅ Understand Machine Learning Implementation
https://lnkd.in/f5aUbBM
✅ Machine Learning on Retail
https://lnkd.in/fihPTJf
✅ Machine Learning on Marketing
https://lnkd.in/fUDGAQW
#datascience #visualization #machinelearning
✴️ @AI_Python_EN
Introducing Translatotron: An End-to-End Speech-to-Speech Translation Model
Blog by Ye Jia and Ron Weiss: https://lnkd.in/ePaGRZj
#ArtificialIntelligence #DeepLearning #MachineLearning
✴️ @AI_Python_EN
Blog by Ye Jia and Ron Weiss: https://lnkd.in/ePaGRZj
#ArtificialIntelligence #DeepLearning #MachineLearning
✴️ @AI_Python_EN
share knowledge on one of basic topic in Statistics and Machine Learning.
"Assumptions of Linear Regression"
Understanding the assumptions is very important for anybody to build a robust model and improve the performance.
#machinelearning #AIML #statistics #artificialintelligence
https://lnkd.in/eJupcDZ
✴️ @AI_Python_EN
"Assumptions of Linear Regression"
Understanding the assumptions is very important for anybody to build a robust model and improve the performance.
#machinelearning #AIML #statistics #artificialintelligence
https://lnkd.in/eJupcDZ
✴️ @AI_Python_EN
Machine learning in acoustics: a review
Bianco et al.: https://lnkd.in/eJVSiSx
#ArtificialIntelligence #SignalProcessing #MachineLearning #SpeechProcessing
✴️ @AI_Python_EN
Bianco et al.: https://lnkd.in/eJVSiSx
#ArtificialIntelligence #SignalProcessing #MachineLearning #SpeechProcessing
✴️ @AI_Python_EN
6 Tools to Speed Up Your Python Code (With Links)
👉 Intel Distribution for #Python - https://lnkd.in/gk6EB2P
Optimizes Python for Intel architectures using low-level, high-performance libraries like MKL. Can provide massive speedup for linear algebra routines and ML algorithms.
👉 Numba - https://numba.pydata.org/
Just-in-time compiler (using LLVM) for Python. Replaces slow Python code with optimized machine code at runtime. Super easy to use.
👉 swiftapply - https://lnkd.in/gFK285E
Automatically vectorizes apply calls, or replaces them with the best alternative.
👉 Dask - https://dask.org
Provides parallelism for analytics by extending arrays, dataframes, and lists to "parallel" versions that are ready for distributed environments, plus provides a dynamic task scheduler.
👉 Cython - http://cython.org/
Compile Python into C extensions. General use tool that can have more flexibility and power than simpler alternatives, at the cost of difficulty.
👉 PySpark - https://lnkd.in/gRjExzR
Runs Python code on distributed Spark clusters. Great for processing big data sets.
✴️ @AI_Python_EN
👉 Intel Distribution for #Python - https://lnkd.in/gk6EB2P
Optimizes Python for Intel architectures using low-level, high-performance libraries like MKL. Can provide massive speedup for linear algebra routines and ML algorithms.
👉 Numba - https://numba.pydata.org/
Just-in-time compiler (using LLVM) for Python. Replaces slow Python code with optimized machine code at runtime. Super easy to use.
👉 swiftapply - https://lnkd.in/gFK285E
Automatically vectorizes apply calls, or replaces them with the best alternative.
👉 Dask - https://dask.org
Provides parallelism for analytics by extending arrays, dataframes, and lists to "parallel" versions that are ready for distributed environments, plus provides a dynamic task scheduler.
👉 Cython - http://cython.org/
Compile Python into C extensions. General use tool that can have more flexibility and power than simpler alternatives, at the cost of difficulty.
👉 PySpark - https://lnkd.in/gRjExzR
Runs Python code on distributed Spark clusters. Great for processing big data sets.
✴️ @AI_Python_EN
A curated list of resources dedicated to Natural Language Processing
✅ Using #NLP in different languages 🇨🇦🇧🇴🇧🇦🇧🇼🇧🇷🇮🇴🇧🇳🇧🇮
✅ Libraries in different languages (C++, Java, NodeJS, R, Scala, Python, ...)
✅ Guidelines and usefull tutorials
👉 https://github.com/keon/awesome-nlp
✴️ @AI_Python_EN
✅ Using #NLP in different languages 🇨🇦🇧🇴🇧🇦🇧🇼🇧🇷🇮🇴🇧🇳🇧🇮
✅ Libraries in different languages (C++, Java, NodeJS, R, Scala, Python, ...)
✅ Guidelines and usefull tutorials
👉 https://github.com/keon/awesome-nlp
✴️ @AI_Python_EN
A comprehensive list of pytorch related content on github,such as different models,implementations,helper libraries,tutorials etc.
One of the best github repos in pytorch
✅ #NLP & #SpeechProcessing
✅ CV and datasets
✅ Probabilistic/Generative Libraries (more than 100 related libraries)
✅ Tutorials & examples
✅ more than 300 Paper implementations
👉 https://github.com/bharathgs/Awesome-pytorch-list
✴️ @AI_Python_EN
One of the best github repos in pytorch
✅ #NLP & #SpeechProcessing
✅ CV and datasets
✅ Probabilistic/Generative Libraries (more than 100 related libraries)
✅ Tutorials & examples
✅ more than 300 Paper implementations
👉 https://github.com/bharathgs/Awesome-pytorch-list
✴️ @AI_Python_EN
Matrices as Tensor Network Diagrams
By MATH3MA: https://lnkd.in/eY_3daS
#matrix #matrices #tensors #vectors
✴️ @AI_Python_EN
By MATH3MA: https://lnkd.in/eY_3daS
#matrix #matrices #tensors #vectors
✴️ @AI_Python_EN