Inductive transfer

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위키데이터

• ID : Q6027324

말뭉치

1. Transfer learning is a deep learning approach in which a model that has been trained for one task is used as a starting point to train a model for similar task.^[1]
2. Fine-tuning a network with transfer learning is usually much faster and easier than training a network from scratch.^[1]
3. The two commonly used approaches for deep learning are training a model from scratch and transfer learning.^[1]
4. Transfer learning is useful for tasks such object recognition, for which a variety of popular pretrained models, such as AlexNet and GoogLeNet, can be used as a starting point.^[1]
5. We'll take a look at what transfer learning is, how it works, why and when you it should be used.^[2]
6. Transfer Learning Transfer learning, used in machine learning, is the reuse of a pre-trained model on a new problem.^[2]
7. In transfer learning, a machine exploits the knowledge gained from a previous task to improve generalization about another.^[2]
8. In transfer learning, the knowledge of an already trained machine learning model is applied to a different but related problem.^[2]
9. Transfer learning is the same idea.^[3]
10. Recurrent neural networks, often used in speech recognition, can take advantage of transfer learning, as well.^[3]
11. In this tutorial, you will learn how to train a convolutional neural network for image classification using transfer learning.^[4]
12. Since we are using transfer learning, we should be able to generalize reasonably well.^[4]
13. Transfer learning consists of taking features learned on one problem, and leveraging them on a new, similar problem.^[5]
14. Transfer learning is typically used for tasks when your new dataset has too little data to train a full-scale model from scratch, and in such scenarios data augmentation is very important.^[5]
15. To solidify these concepts, let's walk you through a concrete end-to-end transfer learning & fine-tuning example.^[5]
16. One answer is transfer learning.^[6]
17. Transfer learning is a domain of AI.^[6]
18. It is probably the most used story of transfer learning practice at the moment and one of the hidden reasons why deep learning is such a success.^[6]
19. Indeed, deep learning architecture is very well suited for the transfer learning approach.^[6]
20. This methodology is called transfer learning.^[7]
21. The key concept behind transfer learning in data science is deep learning models.^[7]
22. In addition to being used to improve deep learning models, transfer learning is used in new methodologies for building and training machine learning models in general.^[7]
23. The basic idea of transfer learning is then to start with a deep learning network that is pre-initialized from training of a similar problem.^[8]
24. Transfer learning is the method of starting with a pre-trained model and training it for a new — related — problem domain.^[8]
25. Transfer learning is an important piece of many deep learning applications now and in the future.^[8]
26. The key to transfer learning is the generality of features within the learning model.^[8]
27. Following the same approach, a term was introduced Transfer Learning in the field of machine learning.^[9]
28. When dealing with transfer learning, we come across a phenomenon called freezing of layers.^[9]
29. When we use transfer learning in solving a problem, we select a pre-trained model as our base model.^[9]
30. Transfer learning is a very effective and fast way, to begin with, a problem.^[9]
31. Transfer learning has received attention of data scientists as a methodology for taking advantage of available training data/models from related tasks and applying them to the problem in hand1.^[10]
32. Example of classification tasks that has benefited from transfer learning include image2,3, web document4,5, brain-computer interface6,7, music8 and emotion9 classification.^[10]
33. Despite the above-mentioned applications, transfer learning in optimization problems has not been evaluated thoroughly except a few fields.^[10]
34. There are reports of the use of transfer learning in automatic hyper-parameter tuning problems23,24,25,26 to increase training speed and improve prediction accuracy.^[10]
35. Transfer learning is a well-established technique for training artificial neural networks (see e.g., Ref.^[11]
36. We focus on the CQ transfer learning scheme discussed in the previous section and we give a specific example.^[11]
37. This is a very small dataset (roughly 250 images), too small for training from scratch a classical or quantum model, however it is enough when using transfer learning approach.^[11]
38. We follow the transfer learning approach: First load the classical pre-trained network ResNet18 from the torchvision.models zoo.^[11]
39. This paper demonstrates the versatility of this type of regularizer across transfer learning scenarios.^[12]
40. Transfer Learning has been utilized by humans since time immemorial.^[13]
41. Though this field of transfer learning is relatively new to machine learning, humans have used this inherently in almost every situation.^[13]
42. We always try to apply the knowledge gained from our past experiences when we face a new problem or task and this is the basis of transfer learning.^[13]
43. To understand the basic notion of Transfer Learning, consider a model X is successfully trained to perform task A with model M1.^[13]
44. The authors cover historic methods as well as very recent methods, classifying them into a comprehensive ontology of transfer learning methods.^[14]
45. Hereafter, successful applications of the shotgun transfer learning in four different scenarios will be described.^[15]
46. We first report a successful application that illustrates the analytic workflow of the transfer learning and some of its potential.^[15]
47. Illustrative example of transfer learning for prediction of polymeric C P .^[15]
48. The left two panels show prediction performance of a directly supervised random forest and the best transfer learning model using 58 instances of the polymeric C P under 5-fold CV.^[15]
49. How do you decide what type of transfer learning you should perform on a new dataset?^[16]
50. This form of transfer learning used in deep learning is called inductive transfer.^[17]
51. To learn more, visit the Transfer learning guide.^[18]
52. Over the course of this blog post, I will first contrast transfer learning with machine learning's most pervasive and successful paradigm, supervised learning.^[19]
53. I will then outline reasons why transfer learning warrants our attention.^[19]
54. Subsequently, I will give a more technical definition and detail different transfer learning scenarios.^[19]
55. I will then provide examples of applications of transfer learning before delving into practical methods that can be used to transfer knowledge.^[19]
56. In this example, we will see how each of these classifiers can be implemented in a transfer learning solution for image classification.^[20]
57. The three transfer categories discussed in the previous section outline different settings where transfer learning can be applied, and studied in detail.^[21]
58. In case of inductive transfer, modifications such as AdaBoost by Dai and their co-authors help utilize training instances from the source domain for improvements in the target task.^[21]
59. Inductive transfer techniques utilize the inductive biases of the source task to assist the target task.^[21]
60. These pre-trained networks/models form the basis of transfer learning in the context of deep learning, or what I like to call ‘deep transfer learning’.^[21]
61. In 1976 Stevo Bozinovski and Ante Fulgosi published a paper explicitly addressing transfer learning in neural networks training.^[22]
62. The paper gives a mathematical and geometrical model of transfer learning.^[22]
63. In 1981 a report was given on application of transfer learning in training a neural network on a dataset of images representing letters of computer terminals.^[22]
64. Both positive and negative transfer learning was experimentally demonstrated.^[22]
65. Combined with the idea of transfer learning, the problem of label-free transfer in the target domain was solved.^[23]
66. In Section 2 , the background information of transfer learning is outlined and the transfer scenarios are defined according to the data situation of the target domain and the source domain.^[23]
67. Transfer learning is a research problem in machine learning that focuses on storing knowledge gained while solving one problem and applying it to a different but related problem.^[24]
68. I stil have not made up my mind, but transfer learning is a topic that I will have to pursue further.^[24]
69. This is where a technique called ‘transfer learning’ comes in.^[25]
70. In transfer learning, you have a source model trained on a specific dataset.^[25]
71. Transfer learning means you’re not starting from scratch – thereby speeding up training time.^[25]
72. Beyond the observable benefits, perfecting transfer learning techniques could bring us closer to artificial general intelligence (AGI).^[25]
73. As described above, the ULMFiT is a three-stage transfer learning process that includes two types of models: language models and classification/regression models.^[26]
74. Recall that homogeneous transfer learning is the case where \({\mathcal{X}}_{{\mathcal{S}}} = {\mathcal{X}}_{{\mathcal{T}}}\).^[27]
75. In a transfer learning environment, there are scenarios where a feature in the source domain may have a different meaning in the target domain.^[27]
76. These transfer learning approaches only attempt to correct for marginal distribution differences between domains.^[27]
77. All transfer learning approaches perform better than the baseline approaches.^[27]
78. We also theoretically analyse the algorithmic stability and generalization bound of L2T, and empirically demonstrate its superiority over several state-of-the-art transfer learning algorithms.^[28]
79. Transfer Learning via Learning to Transfer.^[28]
80. This is where transfer learning comes into play.^[29]
81. Transfer learning doesn’t require huge compute resources.^[29]
82. When doing transfer learning, AI engineers freeze the first layers of the pretrained neural network.^[29]
83. Transfer learning wolves many of the problems of training AI models in an efficient and affordable way.^[29]
84. In this work, we extend transfer learning with semi-supervised learning to exploit unlabeled instances of (novel) categories with no or only a few labeled instances.^[30]
85. Transfer learning is a machine learning method that involves reusing an existing, trained neural network, developed for one task, as the foundation for another task.^[31]
86. The main challenge of transfer learning is to retain the existing knowledge in the model while adapting the model to your own task.^[31]
87. Transfer learning works with neural networks in a way that it does not with the simpler one-layer models such as logistic regression.^[31]
88. Transfer learning works with neural networks as the different layers of the network can be treated differently.^[31]
89. How to use transfer learning to build state-of-the-art customer service AI!^[32]
90. Transfer learning is a method that allows us to use the knowledge gained from other tasks in order to tackle new but similar problems quickly and effectively.^[32]
91. Solving the Finnish problem with transfer learning prompted us to develop our architecture to use a single model across all clients and regions.^[32]
92. More interestingly, by being able to apply ways of thinking from one task to another, transfer learning unlocks deep learning potential from smaller datasets.^[32]
93. Transfer learning, in which a network is trained on one task and re-purposed on another, is often used to produce neural network classifiers when data is scarce or full-scale training is too costly.^[33]
94. We consider robust transfer learning, in which we transfer not only performance but also robustness from a source model to a target domain.^[33]
95. Recently, transfer learning methods have been applied to reuse knowledge from performance models trained in one environment in another.^[34]
96. In this paper, we perform an empirical study to understand the effectiveness of different transfer learning strategies for building performance models of DNN systems.^[34]
97. Transfer learning is the application of knowledge gained from completing one task to help solve a different, but related, problem.^[35]
98. Through transfer learning, methods are developed to transfer knowledge from one or more of these source tasks to improve learning in a related target task.^[35]
99. Transfer learning theory During transfer learning, knowledge is leveraged from a source task to improve learning in a new task.^[35]
100. Transfer learning is an approach used in machine learning where a model that was created and trained for one task, is reused as the starting point for a secondary task.^[36]
101. Transfer learning is a widely used technique for improving the performance of neural networks when labeled training data is scarce.^[37]
102. When is transfer learning effective, and when is it not?^[37]
103. And if you’re going to do transfer learning, what task should you use for pretraining?^[37]
104. One of the settings we considered was that of meta-transfer learning, which is a combination of transfer learning and meta-learning.^[37]
105. Transfer learning reduces the size of a training dataset by utilizing the knowledge in a pre-trained neural network.^[38]
106. In some transfer learning cases, the pre-trained neural network for the source task has been trained by a large computer.^[38]

소스

메타데이터

위키데이터

• ID : Q6027324

Spacy 패턴 목록

• [{'LOWER': 'transfer'}, {'LEMMA': 'learning'}]
• [{'LOWER': 'inductive'}, {'LEMMA': 'transfer'}]