πΉHow to Start Learning Deep Learning
Want to get started #learning_deep learning? Sure you do! Check out this great overview, advice, and list of resources.
Due to the recent achievements of artificial #neural_networks across many different tasks (such as face #recognition, object detection and Go), deep learning has become extremely popular. This post aims to be a starting point for those interested in learning more about it.
π»If you already have a basic understanding of linear algebra, #calculus, #probability and #programming: I recommend starting with Stanfordβs CS231n.
π»If you donβt have the relevant math background: There is an incredible amount of free material online that can be used to learn the required math knowledge. Gilbert Strangβs course on #linear_algebra is a great introduction to the field. For the other subjects, edX has courses from MIT on both calculus and probability.
πVia: @cedeeplearning
link: https://www.kdnuggets.com/2016/07/start-learning-deep-learning.html
Want to get started #learning_deep learning? Sure you do! Check out this great overview, advice, and list of resources.
Due to the recent achievements of artificial #neural_networks across many different tasks (such as face #recognition, object detection and Go), deep learning has become extremely popular. This post aims to be a starting point for those interested in learning more about it.
π»If you already have a basic understanding of linear algebra, #calculus, #probability and #programming: I recommend starting with Stanfordβs CS231n.
π»If you donβt have the relevant math background: There is an incredible amount of free material online that can be used to learn the required math knowledge. Gilbert Strangβs course on #linear_algebra is a great introduction to the field. For the other subjects, edX has courses from MIT on both calculus and probability.
πVia: @cedeeplearning
link: https://www.kdnuggets.com/2016/07/start-learning-deep-learning.html
πΉWhat is Nvidia Deep Learning AI ?
Nvidia Deep Learning AI is a suite of products dedicated to deep learning and machine intelligence. This lets industries and governments power their decisions with smart and predictive analytics to provide customers and constituents with elevated services. Nvidia Deep Learning AI lets users pull insights from big data. This lets them realize their true value by utilizing them in creating solutions for current and forecasted problems. This allows them to arm themselves with the knowledge that can prove to be instrumental at a time when a challenge arises. With Nvidia Deep Learning AI, organizations can achieve a high rate of success and even protect themselves from fraud and other finance-related risks.
πVia: @cedeeplearning
link: https://reviews.financesonline.com/p/nvidia-deep-learning-ai/
#deeplearning
#neuralnetworks
#AI
Nvidia Deep Learning AI is a suite of products dedicated to deep learning and machine intelligence. This lets industries and governments power their decisions with smart and predictive analytics to provide customers and constituents with elevated services. Nvidia Deep Learning AI lets users pull insights from big data. This lets them realize their true value by utilizing them in creating solutions for current and forecasted problems. This allows them to arm themselves with the knowledge that can prove to be instrumental at a time when a challenge arises. With Nvidia Deep Learning AI, organizations can achieve a high rate of success and even protect themselves from fraud and other finance-related risks.
πVia: @cedeeplearning
link: https://reviews.financesonline.com/p/nvidia-deep-learning-ai/
#deeplearning
#neuralnetworks
#AI
Cutting Edge Deep Learning pinned Β«π»Popular Deep Learning #Courses of 2019π» With #deep_learning and #AI on the forefront of the latest applications and demands for new business directions, additional #education is paramount for current machine learning engineers and #data_scientists. Theseβ¦Β»
π»10 Machine Learning Future Trends to Watch in 2020
1. Machine Learning Embedded in Most Applications
2. Trained Data as a Service
3. Continuous Retraining of Models
4. Machine Learning as a Service
5. Maturation of NLP
6. Machine Learning Automation
7. Specialized Hardware for Machine Learning
8. Automate Algorithm Selection and Testing Algorithms
9. Transparency and Trust
10. Machine Learning as an End-to-End Process
πVia: @cedeeplearning
link: https://addiai.com/machine-learning-future-trends/
#trend
#machinelearning
#deeplearning
#datascience
1. Machine Learning Embedded in Most Applications
2. Trained Data as a Service
3. Continuous Retraining of Models
4. Machine Learning as a Service
5. Maturation of NLP
6. Machine Learning Automation
7. Specialized Hardware for Machine Learning
8. Automate Algorithm Selection and Testing Algorithms
9. Transparency and Trust
10. Machine Learning as an End-to-End Process
πVia: @cedeeplearning
link: https://addiai.com/machine-learning-future-trends/
#trend
#machinelearning
#deeplearning
#datascience
π»Top Applications of Data Science in 2019
Data Science has huge applications in various industries like banking, finance, manufacturing, transport, e-commerce, education, etc. Here we will see how data science has transformed the world today. We will see how it has been revolutionizing the way we perceive data.
πVia: @cedeeplearning
link: https://addiai.com/data-science-applications/
#datascience
#machinearning
#application
#deeplearning
Data Science has huge applications in various industries like banking, finance, manufacturing, transport, e-commerce, education, etc. Here we will see how data science has transformed the world today. We will see how it has been revolutionizing the way we perceive data.
πVia: @cedeeplearning
link: https://addiai.com/data-science-applications/
#datascience
#machinearning
#application
#deeplearning
π»Predictions for Deep Learning in 2017
The first hugely successful consumer application of deep learning will come to market, a dominant #open-source deep-learning tool and library will take the developer community by storm, and more Deep Learning predictions.
Deep learning is all the rage as we move into 2017. Grounded in #multilayer #neural_networks, this technology is the foundation of artificial intelligence, #cognitive computing, and #real-time streaming #analytics in many of the most disruptive new #applications.
For data scientists, #deep_learning will be a top professional focus going forward. Here are my #predictions for the chief #trends in deep learning in the coming year: (π»click on the link to the rest)
link: https://www.kdnuggets.com/2016/12/ibm-predictions-deep-learning-2017.html
πVia: @cedeeplearning
The first hugely successful consumer application of deep learning will come to market, a dominant #open-source deep-learning tool and library will take the developer community by storm, and more Deep Learning predictions.
Deep learning is all the rage as we move into 2017. Grounded in #multilayer #neural_networks, this technology is the foundation of artificial intelligence, #cognitive computing, and #real-time streaming #analytics in many of the most disruptive new #applications.
For data scientists, #deep_learning will be a top professional focus going forward. Here are my #predictions for the chief #trends in deep learning in the coming year: (π»click on the link to the rest)
link: https://www.kdnuggets.com/2016/12/ibm-predictions-deep-learning-2017.html
πVia: @cedeeplearning
π»50 Must-Read Free Books For Every Data Scientist in 2020
1. The Element of Data Analytic Style1. The Element of Data Analytic Style
2. Foundations of Data Science
3. Mining of Massive Datasets
4. Python Data Science Handbook
5. Hands-on Machine Learning and Big Data
6. Think Stats
7. Think Bayes
8. Introduction to Linear Dynamical Systems
9. Convex Optimization
10. Essentials of Metaheuristics
.
.
.
link: https://www.kdnuggets.com/2020/03/50-must-read-free-books-every-data-scientist-2020.html
πVia: @cedeeplearning
#free_resources
#datascience
#machinelearning
#free
#python
1. The Element of Data Analytic Style1. The Element of Data Analytic Style
2. Foundations of Data Science
3. Mining of Massive Datasets
4. Python Data Science Handbook
5. Hands-on Machine Learning and Big Data
6. Think Stats
7. Think Bayes
8. Introduction to Linear Dynamical Systems
9. Convex Optimization
10. Essentials of Metaheuristics
.
.
.
link: https://www.kdnuggets.com/2020/03/50-must-read-free-books-every-data-scientist-2020.html
πVia: @cedeeplearning
#free_resources
#datascience
#machinelearning
#free
#python
π»Does Deep Learning Come from the Devil?
Deep learning has revolutionized #computer_vision and natural language processing (#NLP). Yet the #mathematics explaining its success remains elusive. At the Yandex conference on machine learning prospects and applications, Vladimir Vapnik offered a critical perspective.
πΉwe suggest you to tap the linkπΉ
link: https://www.kdnuggets.com/2015/10/deep-learning-vapnik-einstein-devil-yandex-conference.html
πVia: @cedeeplearning
#deeplearning
#machinelearning
#neuralnetworks
Deep learning has revolutionized #computer_vision and natural language processing (#NLP). Yet the #mathematics explaining its success remains elusive. At the Yandex conference on machine learning prospects and applications, Vladimir Vapnik offered a critical perspective.
πΉwe suggest you to tap the linkπΉ
link: https://www.kdnuggets.com/2015/10/deep-learning-vapnik-einstein-devil-yandex-conference.html
πVia: @cedeeplearning
#deeplearning
#machinelearning
#neuralnetworks
π»Top 10 Deep Learning Projects on #Github
The top 10 #deep_learning projects on Github include a number of #libraries, #frameworks, and education resources. Have a look at the tools others are using, and the resources they are learning from.
1. Caffe
2. Data Science IPython Notebooks
3. ConvNetJS
4. Keras
5. MXNet
6. Qix
7. Deeplearning4j
8. Machine Learning Tutorials
9. DeepLearnToolbox
10. LISA Lab Deep Learning Tutorials
link: https://www.kdnuggets.com/2016/01/top-10-deep-learning-github.html
πVia: @cedeeplearning
The top 10 #deep_learning projects on Github include a number of #libraries, #frameworks, and education resources. Have a look at the tools others are using, and the resources they are learning from.
1. Caffe
2. Data Science IPython Notebooks
3. ConvNetJS
4. Keras
5. MXNet
6. Qix
7. Deeplearning4j
8. Machine Learning Tutorials
9. DeepLearnToolbox
10. LISA Lab Deep Learning Tutorials
link: https://www.kdnuggets.com/2016/01/top-10-deep-learning-github.html
πVia: @cedeeplearning
βͺοΈBringing deep learning to life
MIT duo uses music, videos, and real-world examples to teach students the foundations of artificial intelligence.
πVia: @cedeeplearning
https://youtu.be/l82PxsKHxYc
MIT duo uses music, videos, and real-world examples to teach students the foundations of artificial intelligence.
πVia: @cedeeplearning
https://youtu.be/l82PxsKHxYc
YouTube
Barack Obama: Intro to Deep Learning | MIT 6.S191
MIT Introduction to Deep Learning 6.S191 (2020)
DISCLAIMER: The following video is synthetic and was created using deep learning with simultaneous speech-to-speech translation as well as video dialogue replacement (CannyAI).
** NOTE**: The audio qualityβ¦
DISCLAIMER: The following video is synthetic and was created using deep learning with simultaneous speech-to-speech translation as well as video dialogue replacement (CannyAI).
** NOTE**: The audio qualityβ¦
πΉMachine learning picks out hidden vibrations from earthquake data
Technique may help scientists more accurately map vast underground geologic structures.
Over the last century, scientists have developed methods to map the structures within the Earthβs crust, in order to identify resources such as oil reserves, geothermal sources, and, more recently, reservoirs where excess carbon dioxide could potentially be sequestered. They do so by tracking seismic waves that are produced naturally by earthquakes or artificially via explosives or underwater air guns.
link: http://news.mit.edu/2020/machine-learning-picks-out-hidden-vibrations-earthquake-data-0228
πVia: @cedeeplearning
#deeplearning
#neuralnetworks
#machinelearning
Technique may help scientists more accurately map vast underground geologic structures.
Over the last century, scientists have developed methods to map the structures within the Earthβs crust, in order to identify resources such as oil reserves, geothermal sources, and, more recently, reservoirs where excess carbon dioxide could potentially be sequestered. They do so by tracking seismic waves that are produced naturally by earthquakes or artificially via explosives or underwater air guns.
link: http://news.mit.edu/2020/machine-learning-picks-out-hidden-vibrations-earthquake-data-0228
πVia: @cedeeplearning
#deeplearning
#neuralnetworks
#machinelearning
π»Newly discovered enzyme βsquare danceβ helps generate #DNA building blocks
MIT #biochemists can trap and visualize an enzyme as it becomes active β an important development that may aid in future #drug development.
How do you capture a cellular process that transpires in the blink of an eye? Biochemists at #MIT have devised a way to trap and #visualize a vital enzyme at the moment it becomes active β informing drug development and revealing how biological systems store and transfer energy.
link: http://news.mit.edu/2020/enzyme-square-dance-helps-generate-dna-building-blocks-0330
πVia: @cedeeplearning
#deeplearning
#neuralnetworks
#python
#statistics
#bioinformatics
MIT #biochemists can trap and visualize an enzyme as it becomes active β an important development that may aid in future #drug development.
How do you capture a cellular process that transpires in the blink of an eye? Biochemists at #MIT have devised a way to trap and #visualize a vital enzyme at the moment it becomes active β informing drug development and revealing how biological systems store and transfer energy.
link: http://news.mit.edu/2020/enzyme-square-dance-helps-generate-dna-building-blocks-0330
πVia: @cedeeplearning
#deeplearning
#neuralnetworks
#python
#statistics
#bioinformatics
π The challenge of markerless human motion tracking is the high dimensionality of the search space. Thus, efficient exploration in the search space is of great significance. In this paper, a motion capturing algorithm is proposed for upper body motion tracking. The proposed system tracks human motion based on monocular silhouette-matching, and it is built on the top of a hierarchical particle filter, within which a novel deterministic resampling strategy (#DRS) is applied
βββββββββββββββ
πVia: @cedeeplearning
πOther social media: https://linktr.ee/cedeeplearning
Link: http://arxiv.org/abs/2002.09554
βββββββββββββββ
πVia: @cedeeplearning
πOther social media: https://linktr.ee/cedeeplearning
Link: http://arxiv.org/abs/2002.09554
A Multi-Channel Neural Graphical Event Model with Negative Evidence
Event datasets are sequences of events of various types occurring irregularly over the time-line, and they are increasingly prevalent in numerous domains. A novel multi-channel RNN that optimally reinforces the negative evidence of no observable events with the introduction of fake event epochs within each consecutive inter-event interval.
βββββββββββββ-
Via: @cedeeplearning
Other social media: https://linktr.ee/cedeeplearning
Link: http://arxiv.org/abs/2002.09575
Event datasets are sequences of events of various types occurring irregularly over the time-line, and they are increasingly prevalent in numerous domains. A novel multi-channel RNN that optimally reinforces the negative evidence of no observable events with the introduction of fake event epochs within each consecutive inter-event interval.
βββββββββββββ-
Via: @cedeeplearning
Other social media: https://linktr.ee/cedeeplearning
Link: http://arxiv.org/abs/2002.09575
Cutting Edge Deep Learning pinned Β«βͺοΈBringing deep learning to life MIT duo uses music, videos, and real-world examples to teach students the foundations of artificial intelligence. πVia: @cedeeplearning https://youtu.be/l82PxsKHxYcΒ»
πΉDeep Learning Allows for Cell Analysis Without Labeling
A new microscopy program requires no fluorescent markers to identify cell type, nuclei, and other characteristics. Micrographs of fluorescently labeled cells are undoubtedly beautiful, but they require invasive and sometimes disruptive or deadly protocols to get their glow. To avoid such perturbations, researchers have developed a computer program that can distinguish between cell types and identify subcellular structures, among other featuresβall without the fluorescent probes our human eyes rely on.
ββββββββββββββ-
link: https://www.the-scientist.com/the-nutshell/deep-learning-allows-for-cell-analysis-without-labeling-30252
πVia: @cedeeplearning
A new microscopy program requires no fluorescent markers to identify cell type, nuclei, and other characteristics. Micrographs of fluorescently labeled cells are undoubtedly beautiful, but they require invasive and sometimes disruptive or deadly protocols to get their glow. To avoid such perturbations, researchers have developed a computer program that can distinguish between cell types and identify subcellular structures, among other featuresβall without the fluorescent probes our human eyes rely on.
ββββββββββββββ-
link: https://www.the-scientist.com/the-nutshell/deep-learning-allows-for-cell-analysis-without-labeling-30252
πVia: @cedeeplearning
πΉArtificial Intelligence Sees More in Microscopy than Humans Do
Deep learning is really dominant at the moment. Itβs really changing the field of image analysis. Deep learning approaches in development by big players in the tech industry can be used by biologists to extract more information from the images they create.
βββββββββββββββββ
link: https://www.the-scientist.com/features/artificial-intelligence-sees-more-in-microscopy-than-humans-do-65746
πVia: @cedeeplearning
Deep learning is really dominant at the moment. Itβs really changing the field of image analysis. Deep learning approaches in development by big players in the tech industry can be used by biologists to extract more information from the images they create.
βββββββββββββββββ
link: https://www.the-scientist.com/features/artificial-intelligence-sees-more-in-microscopy-than-humans-do-65746
πVia: @cedeeplearning
π»Some quick tips for #TensorFlow
some quick tips, mostly focused on performance, that reveal common pitfalls and may boost your model and #training performance to new levels. We'll start with preprocessing and your input pipeline, visit graph construction and move on to debugging and performance #optimizations.
1. Preprocessing and input pipelines
Keep #preprocessing clean and lean
2. Watch your queues
3. Graph construction and training
Finalize your graph
4. Profile your #graph
5. Watch your memory
6. #Debugging
Print is your friend
7. Set an operation execution timeout
βββββββββββββββββ
link: https://www.deeplearningweekly.com/blog/tensorflow-quick-tips/
πVia: @cedeeplearning
#deeplearning
#neuralnetworks
#machinelearning
some quick tips, mostly focused on performance, that reveal common pitfalls and may boost your model and #training performance to new levels. We'll start with preprocessing and your input pipeline, visit graph construction and move on to debugging and performance #optimizations.
1. Preprocessing and input pipelines
Keep #preprocessing clean and lean
2. Watch your queues
3. Graph construction and training
Finalize your graph
4. Profile your #graph
5. Watch your memory
6. #Debugging
Print is your friend
7. Set an operation execution timeout
βββββββββββββββββ
link: https://www.deeplearningweekly.com/blog/tensorflow-quick-tips/
πVia: @cedeeplearning
#deeplearning
#neuralnetworks
#machinelearning
πΉFinding a good read among billions of choices
As natural language processing techniques improve, suggestions are getting speedier and more relevant. With the MIT-IBM Watson AI Lab and his Geometric Data Processing Group at MIT, Solomon recently presented a new technique for cutting through massive amounts of text at the Conference on Neural Information Processing Systems (NeurIPS). Their method combines three popular text-analysis tools β topic modeling, word embeddings, and optimal transport β to deliver better, faster results than competing methods on a popular benchmark for classifying documents. If an algorithm knows what you liked in the past, it can scan the millions of possibilities for something similar. As natural language processing techniques improve, those βyou might also likeβ suggestions are getting speedier and more relevant.
ββββββββββββββββ
link: http://news.mit.edu/2019/finding-good-read-among-billions-of-choices-1220
πVia: @cedeeplearning
#deepelarning
#NLP
#neuralnetworks
As natural language processing techniques improve, suggestions are getting speedier and more relevant. With the MIT-IBM Watson AI Lab and his Geometric Data Processing Group at MIT, Solomon recently presented a new technique for cutting through massive amounts of text at the Conference on Neural Information Processing Systems (NeurIPS). Their method combines three popular text-analysis tools β topic modeling, word embeddings, and optimal transport β to deliver better, faster results than competing methods on a popular benchmark for classifying documents. If an algorithm knows what you liked in the past, it can scan the millions of possibilities for something similar. As natural language processing techniques improve, those βyou might also likeβ suggestions are getting speedier and more relevant.
ββββββββββββββββ
link: http://news.mit.edu/2019/finding-good-read-among-billions-of-choices-1220
πVia: @cedeeplearning
#deepelarning
#NLP
#neuralnetworks