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| Date | Name | Thumbnail | Size | User | Description | Versions |
|---|---|---|---|---|---|---|
| 22:30, 30 September 2018 | GoogLeNet slide58.png (file) |  |
185 KB | Omoreira | Slide 58. In: Fei-Fei Li, Justin Johnson, and Serena Yeung (2017). [http://cs231n.stanford.edu/slides/2017/cs231n_2017_lecture9.pdf Lecture 9: CNN Architectures] | 1 |
| 22:13, 30 September 2018 | NIN Fig2.png (file) |  |
57 KB | Omoreira | Figure 2: The overall structure of Network In Network. In this paper the NINs include the stacking of three mlpconv layers and one global average pooling layer. In:Min Lin, Qiang Chen, and Shuicheng Yan (2013). [https://arxi... | 1 |
| 22:12, 30 September 2018 | NIN Fig1.png (file) |  |
42 KB | Omoreira | Figure 1: Comparison of linear convolution layer and mlpconv layer. The linear convolution layer includes a linear filter while the mlpconv layer includes a micro network (we choose the multilayer perceptron in this paper).... | 1 |
| 21:46, 30 September 2018 | GoogLeNet Szegedy 2014.png (file) |  |
76 KB | Omoreira | Figure 3: GoogLeNet network with all the bells and whistles.In: Christian Szegedy, Wei Liu, Yangqing Jia, Pierre Sermanet , Scott Reed , Dragomir Anguelov, Dumitru Erhan, Vincent Vanhoucke, and Andrew Rabinovich... | 1 |
| 12:12, 30 September 2018 | AlexNet 2012.png (file) |  |
73 KB | Omoreira | Figure 2: An illustration of the architecture of our CNN, explicitly showing the delineation of responsibilities between the two GPUs. One GPU runs the layer-parts at the top of the figure while the other runs the [[NN Layer|la... | 1 |
| 11:38, 30 September 2018 | Alexnet Bhattacharyya2018.png (file) |  |
161 KB | Omoreira | Fig. 5: Detailed architecture of AlexNet as implemented in Python (top left), AlexNet implemented in MATLAB (top right) and the modified MATLAB layers (bottom). The dropout layers (not shown in the top left) are inserted after t... | 1 |
| 23:09, 23 September 2018 | Rao et al 2013 Algprithm1.png (file) |  |
67 KB | Omoreira | Nikhil Rao, Parikshit Shah, Stephen Wright, and Robert Nowak (2013, May). [http://nikrao.github.io/Publications_files/FOBA_ICASSP_SUBMITTED.pdf "A greedy forward-backward algorithm for atomic norm constrained minimization"]. In [https:/... | 1 |
| 22:31, 23 September 2018 | AIMA Algorithm15 4.png (file) |  |
65 KB | Omoreira | Retrieved from: http://aima.cs.berkeley.edu/algorithms.pdf | 1 |
| 21:40, 23 September 2018 | Collins 2013 fig1.png (file) |  |
57 KB | Omoreira | Figure 1: The forward-backward algorithm. In: Michael Collins. (2013). [http://www.cs.columbia.edu/~mcollins/courses/6998-2012/notes/fb.pdf "The Forward-backward Algorithm"]. Columbia Columbia Univ | 1 |
| 19:51, 2 September 2018 | 14047828 Alg551.png (file) |  |
69 KB | Omoreira | In: Jurgen Schmidhuber (2015). [https://arxiv.org/pdf/1404.7828.pdf "Deep learning in neural networks: An overview"]. Neural networks, 61, 85-117. [https://doi.org/10.1016/j.neunet.2014.09.003 DOI: 10.1016/j.neunet.2014.09.003] [https://arxiv.org/... | 1 |
| 02:08, 13 August 2018 | Szegedy Toshev Erhan 2013 Fig2.png (file) |  |
117 KB | Omoreira | Figure 2: After regressing to object masks across several scales and large image boxes, we perform object box extraction. The obtained boxes are refined by repeating the same procedure on the sub images, cropped via the current o... | 1 |
| 02:08, 13 August 2018 | Szegedy Toshev Erhan 2013 Fig1.png (file) |  |
69 KB | Omoreira | Figure 1: A schematic view of object detection as DNN-based regression. In: Christian Szegedy, Alexander Toshev, and Dumitru Erhan (2013). [https://pdfs.semanticscholar.org/713f/73ce5c3013d9fb796c21b981dc6629af0bd5.pdf "Deep neu... | 1 |
| 01:55, 13 August 2018 | Dahl et al 2012 Fig1.png (file) |  |
140 KB | Omoreira | Fig. 1. Diagram of our hybrid architecture employing a deep neural network. The HMM models the sequential property of the speech signal, and the DNN models the scaled observation likelihood of all the senones (tied tri-phone sta... | 1 |
| 01:24, 13 August 2018 | Hinton Deng Yu et al 2012 Fig1.png (file) |  |
34 KB | Omoreira | [FIG1] The sequence of operations used to create a DBN with three hidden layers and to convert it to a pretrained DBN-DNN. First, a GRBM is trained to model a window of frames of [[real-valued acoustic co... | 1 |
| 00:23, 13 August 2018 | Jozefowicz et al 2016 Fig1.png (file) |  |
30 KB | Omoreira | <i>Figure 1</i>. A high-level diagram of the models presented in this paper. (a) is a standard LSTM LM. (b) represents an LM where both input and Softmax embeddi... | 1 |
| 21:06, 12 August 2018 | Hinton Salakhutdinov 2006 Fig1.png (file) |  |
104 KB | Omoreira | <B>Fig. 1.</B> Pretraining consists of learning a stack of restricted Boltzmann machines (RBMs), each having only one layer of feature detectors. The learned feature activations of one RBM are used as the ‘‘[[da... | 1 |
| 22:52, 5 August 2018 | Kim2018 Fig3 3.png (file) |  |
42 KB | Omoreira | Figure 3.3: Residual network, showing only the CNN architecture. In:Kyungna Kim (2018). [https://www2.eecs.berkeley.edu/Pubs/TechRpts/2018/EECS-2018-80.pdf "Arrhythmia Classification in Multi-Channel ECG Signals Using Deep Neural Networks"]. | 1 |
| 22:50, 5 August 2018 | Kim2018 Fig3 4.png (file) |  |
63 KB | Omoreira | Figure 3.4: Combined LSTM-CNN model (LSTM portion may be uni- or bidirectional). In: Kyungna Kim (2018). [https://www2.eecs.berkeley.edu/Pubs/TechRpts/2018/EECS-2018-80.pdf "Arrhythmia Classification in Multi-Channel ECG Signals Using Deep... | 1 |
| 22:30, 5 August 2018 | Kim2018 Fig3 2.png (file) |  |
54 KB | Omoreira | Figure 3.2: Bidirectional LSTM network with 2 stacked layers In: Kyungna Kim (2018). [https://www2.eecs.berkeley.edu/Pubs/TechRpts/2018/EECS-2018-80.pdf "Arrhythmia Classification in Multi-Channel ECG Signals Using Deep Neural Networks"]. | 1 |
| 16:39, 5 August 2018 | Bentley1975 Fig1b.png (file) |  |
17 KB | Omoreira | Fig1b Jon Louis Bentley (1975). [http://cgi.di.uoa.gr/~ad/MDE515/p509-bentley.pdf "Multidimensional binary search trees used for associative searching"]. Communications of the ACM, 18(9), 509-517. [https://doi.org/10.1145/361002.361007 DOI:10.1145/... | 1 |
| 16:38, 5 August 2018 | Bentley1975 Fig1a.png (file) |  |
20 KB | Omoreira | Fig1. Jon Louis Bentley (1975). [http://cgi.di.uoa.gr/~ad/MDE515/p509-bentley.pdf "Multidimensional binary search trees used for associative searching"]. Communications of the ACM, 18(9), 509-517. [https://doi.org/10.1145/361002.361007 DOI:10.1145... | 1 |
| 23:03, 29 July 2018 | 1801.02143 Fig5.png (file) |  |
159 KB | Omoreira | Fig. 5: SBU-LSTMs architecture necessarily consists of a BDLSTM layer and a LSTM layer. Masking layer for handling missing values and multiple [[LSTM]... | 1 |
| 21:29, 29 July 2018 | VGG1619.png (file) |  |
43 KB | Omoreira | In: Andrea Vedaldi, Karel Lenc, and Joao Henriques (2016). [https://www.robots.ox.ac.uk/~vgg/practicals/cnn-reg/#vgg-cnn-practical-image-regression VGG CNN Practical: Image Regression] | 1 |
| 21:06, 22 July 2018 | Malsburg 1973 Fig4.png (file) |  |
43 KB | Omoreira | '''Fig. 4'''. A small part of the simulated cortex, showing the hexagonal array of the E-cells (upper plane) and the I-cells (lower plane). The different symbols are used to designate those cells which are connected... | 1 |
| 20:27, 22 July 2018 | Kohonen 1982 Tab1.png (file) |  |
49 KB | Omoreira | '''Table 1'''. Formation of frequency maps in Simulation 4. The resonators (20 in number) corresponded to second-order filters with quality factor Q=2.5 and resonant frequencies selected at random from the range [1,2]. The [[Tra... | 1 |
| 20:26, 22 July 2018 | Kohonen 1982 Fig6.png (file) |  |
47 KB | Omoreira | '''Fig. 6'''. Illustration of the one-dimensional system used in the selforganized formation of a frequency map. In:Teuvo Kohonen (1982). [https://cioslab.vcu.edu/alg/Visualize/kohonen-82.pdf "Self-Organized Formation of Topologically... | 1 |
| 18:32, 22 July 2018 | Fukushima 1988 Fig7.png (file) |  |
149 KB | Omoreira | Figure 7. One-dimensional view of interconnections between cells of different cell-planes. Only one cell-plane is drawn in each layer.<P> In: [[Kunih... | 1 |
| 01:28, 22 July 2018 | Krizhevsky et al 2012 CNN Fig2.png (file) |  |
80 KB | Omoreira | Figure 2: An illustration of the architecture of our CNN, explicitly showing the delineation of responsibilities between the two GPUs. One GPU runs the layer-parts at the top of the figure while the other runs the layer-parts at the bottom.... | 1 |
| 01:08, 22 July 2018 | Lawrence at al FaceRecognition Fig5.png (file) |  |
276 KB | Omoreira | Fig. 5. A typical convolutional network. In: Steve Lawrence, C. Lee Giles, Ah Chung Tsoi, and Andrew D. Back. (1997). [http://www.cs.cmu.edu/afs/cs/user/bhiksha/WWW/courses/deeplearning/Fall.2016/pdfs/Lawrence_et_al.pdf "Face Recogn... | 1 |
| 21:43, 15 July 2018 | Graves PhDthesis Fig3.4.png (file) |  |
50 KB | Omoreira | Figure 3.4: <B>Standard and bidirectional RNNs</B> In: Alex Graves (2008). [http://www.cs.toronto.edu/~graves/phd.pdf "Supervised Sequence Labelling with Recurrent Neural Networks", PhD Thesis] | 1 |
| 19:50, 15 July 2018 | wang 2016 slide19.png (file) |  |
220 KB | Omoreira | In: Tingwu Wang (2016) Recurrent Neural Network Tutorial: http://www.cs.toronto.edu/~tingwuwang/rnn_tutorial.pdf | 1 |
| 22:11, 8 July 2018 | LSTM Gers 2002 Fig1.png (file) |  |
91 KB | Omoreira | * (Gers et al., 2002) ⇒ Felix A. Gers, Nicol N. Schraudolph, and Jurgen Schmidhuber (2002). [http://www.jmlr.org/papers/volume3/gers02a/gers02a.pdf "Learning precise timing with LSTM recurrent networks"]. Journal of machine learnin... | 1 |
| 21:52, 8 July 2018 | LSTM Hochreiter Schmidhuber 1997 Fig1.png (file) |  |
60 KB | Omoreira | * (Hochreiter & Schmidhuber,1997) ⇒ Sepp Hochreiter and Jourgen Schmidhuber (1997). [http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.676.4320&rep=rep1&type=pdf "Long short-term memory"]. Neural computation, 9(8), 1735-1780. **... | 1 |
| 21:01, 8 July 2018 | arxiv 1412.3555 Fig1.png (file) |  |
40 KB | Omoreira | * Chung et al., 2014) ⇒ Junyoung Chung, Caglar Gulcehre, KyungHyun Cho, and Yoshua Bengio. (2014). [https://arxiv.org/pdf/1412.3555.pdf "Empirical Evaluation of Gated Recurrent Neural Networks on Sequence Modeling"]. In: Proce... | 1 |
| 22:48, 1 July 2018 | icassp2015 fanbo 1009 Fig3.png (file) |  |
25 KB | Omoreira | Fig 3 In: Bo Fan, Lijuan Wang, Frank K. Soong, and Lei Xie (2015, April). [https://www.microsoft.com/en-us/research/wp-content/uploads/2015/04/icassp2015_fanbo_1009.pdf "Photo-real talking head with deep bidirectional LSTM"]. In Aco... | 1 |
| 16:27, 1 July 2018 | 1074356 Fig2.png (file) |  |
63 KB | Omoreira | Fig. 2 In: Baldi et al., 1999 | 1 |
| 14:02, 1 July 2018 | BRNN Mike Paliwal 1997 Fig3.png (file) |  |
210 KB | Omoreira | Fig 3. In: Mike Schuster, and Kuldip K. Paliwal. (1997). “[https://ai.intel.com/wp-content/uploads/sites/53/2017/06/BRNN.pdf Bidirectional Recurrent Neural Networks].” In: IEEE Transactions on Signal Processing Journal, 45(11).... | 1 |
| 23:45, 24 June 2018 | Smith-Miles Tan Fig2.png (file) |  |
83 KB | Omoreira | 2 | |
| 19:36, 24 June 2018 | deductive vs inductive.png (file) |  |
87 KB | Omoreira | In: http://www.personal.kent.edu/~rmuhamma/Algorithms/MyAlgorithms/DeductInduct.htm Retrieved:2018-6-24. | 1 |
| 19:04, 24 June 2018 | Klauer Tab Inductive Reasoning Tasks.png (file) |  |
32 KB | Omoreira | Table 1 In: Haverty, L. A., Koedinger, K. R., Klahr, D., & Alibali, M. W. (2000). [https://onlinelibrary.wiley.com/doi/pdf/10.1207/s15516709cog2402_3 "Solving inductive reasoning problems in mathematics: Not-so-trivial pursuit"]. Cognitive Science, 24(... | 1 |
| 23:10, 17 June 2018 | LSTM-arXiv1603.01354.png (file) |  |
97 KB | Omoreira | Figure 2: Schematic of LSTM unit. In: Xuezhe Ma,& Eduard Hovy (2016). [https://arxiv.org/pdf/1603.01354.pdf "End-to-end sequence labeling via bi-directional lstm-cnns-crf"]. arXiv preprint [https://arxiv.org/abs/1603.01354 arXiv:1603.01... | 1 |
| 22:44, 17 June 2018 | N16-1030 fig1.png (file) |  |
49 KB | Omoreira | Figure 1: Main architecture of the network. Word embeddings are given to a bidirectional LSTM. <math>l_i</math> represents the word <i>i</i> and its left context, <math>r_i</math> represents the word <i>i</i> and its right context. [[Concat... | 1 |
| 22:33, 17 June 2018 | BLSTM-CRF-arXiv-160301354.png (file) |  |
41 KB | Omoreira | Figure 3: The main architecture of our neural network. The character representation for each word is computed by the CNN in Figure 1. Then the character representation vector is concatenated with the [[word emb... | 1 |
| 22:31, 17 June 2018 | CNN-arXiv-160301354.png (file) |  |
28 KB | Omoreira | Figure 1: The convolution neural network for extracting character-level representations of words. Dashed arrows indicate a dropout layer applied before character embeddings are input to CNN. In: (Ma & Hovy, 2016) ⇒ [[Xuez... | 1 |
| 23:04, 10 June 2018 | 1707.06799 Tab12.png (file) |  |
55 KB | Omoreira | Tab 12 In: Nils Reimers, and Iryna Gurevych. (2017). [https://arxiv.org/pdf/1707.06799.pdf "Optimal hyperparameters for deep lstm-networks for sequence labeling tasks"]. arXiv preprint [https://arxiv.org/abs/1707.06799 arXiv:1707.06799]. | 1 |
| 23:03, 10 June 2018 | 1707.06799 Fig7.png (file) |  |
87 KB | Omoreira | Figure 7 In: Nils Reimers, and Iryna Gurevych. (2017). [https://arxiv.org/pdf/1707.06799.pdf "Optimal hyperparameters for deep lstm-networks for sequence labeling tasks"]. arXiv preprint [https://arxiv.org/abs/1707.06799 arXiv:1707.06799]. | 1 |
| 22:49, 10 June 2018 | 1707.06799 Fig1.png (file) |  |
66 KB | Omoreira | Figure 1 In: Nils Reimers, and Iryna Gurevych. (2017). [https://arxiv.org/pdf/1707.06799.pdf "Optimal hyperparameters for deep lstm-networks for sequence labeling tasks"]. arXiv preprint [https://arxiv.org/abs/1707.06799 arXiv:1707.06799]. | 1 |
| 17:55, 10 June 2018 | pes.png (file) |  |
68 KB | Omoreira | Table 1.2: Features of Retrospective and Prospective Methods. In: (GAO, 1990) ⇒ US General Accounting Office. (1990). [https://www.gao.gov/special.pubs/10_1_10.PDF "Prospective Evaluation Methods: The prospective evaluation synthe | 1 |
| 22:46, 3 June 2018 | LSTM-Cell.png (file) |  |
32 KB | Omoreira | Figure 2: A Long Short-Term Memory Cell. In: Zhiheng Huang, Wei Xu, Kai Yu (2015). [https://arxiv.org/pdf/1508.01991.pdf "Bidirectional LSTM-CRF models for sequence tagging (PDF)"] | 1 |
| 22:16, 3 June 2018 | BI-LSTM.png (file) |  |
33 KB | Omoreira | Figure 4: A bidirectional LSTM network. In: Zhiheng Huang, Wei Xu, Kai Yu (2015). [https://arxiv.org/pdf/1508.01991.pdf "Bidirectional LSTM-CRF models for sequence tagging (PDF)"]. arXiv preprint [https://arxiv.org/abs/1508.01991 arXiv:1508.01991] | 1 |
