ReadingGroup

From Deep Depth 116E167 Project Documentation
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Getting involved

To register your interest, to get announcements, etc. from me about it, send me an email on djduff@itu.edu.tr. Decision about a time slot during the week will be made just after the course registration period.

Proposed Schedule

The below schedule is only proposed, and subject to change.

  • Week of 11 Sept: Foley & Maitlin Chapter 6: Distance & Size Perception
  • Week of 18 Sept: Saxena, Min & Ng: Make3D
  • Week of 25 Sept: Michels, Saxena & Ng: High speed obstacle avoidance
  • Week of 02 Octr: Karsch, Liu & Kang: Depth Transfer
  • Week of 09 Octr: LeCun, Bottou, Bengio & Haffner: CNNs
  • Week of 16 Octr: Krizhevsky, Sutskever & Hinton: ImageNet/AlexNet
  • Week of 23 Octr: Simonyan & Zisserman: VGG-16
  • Week of 30 Octr: Break
  • Week of 06 Novr: Eigen, Puhrsch & Fergus: Depth map prediction
  • Week of 13 Novr: Shelhamer, Long & Darrell: Fully Convolutional Segmentation
  • Week of 20 Novr: He, Zhang, Ren & Sun: ResNet
  • Week of 27 Novr: Girshick, Donahue, Darrell & Malik: R-CNN
  • Week of 04 Decr: Liao, Huang, Wang, Kodagoda, Yu & Liu: Fuse with laser
  • Week of 11 Decr: Giuisti et al.: Forest trails CNN
  • Week of 18 Decr: Break
  • Week of 25 Decr: Cao, Wu & Shen: Fully convolutional depth 1
  • Week of 01 Jany: Laina et al.: Fully convolutional depth 2
  • Week of 08 Jany: Li, Klein & Yao: Fully convolutional depth 3
  • Week of 15 Jany: Goodfellow et al.: Generative Adversarial Nets
  • Week of 22 Jany: Dosovitskiy, Springenberg, Tatarchenko & Brox: Generating images
  • Week of 29 Jany: Break
  • Week of 06 Febr: Oord et al.: Pixel-RNN and Pixel-CNN


Details

Foley & Maitlin Chapter 6 - Distance & Size Perception

https://books.google.com.tr/books?id=jLBmCgAAQBAJ&printsec=frontcover Go to Chapter 6.

Because our project is about using machine learning to extract depth from a single image it pays to learn a bit about how humans do it.

Saxena, Min & Ng: Make3D

http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=4531745

This is the classic paper that brought machine learning to the problem of depth from a single image, quite successfully, considering previous attempts. It uses Markov Random Fields, which are a bit advanced but, importantly, quite slow.

Michels, Saxena & Ng: High speed obstacle avoidance

http://dl.acm.org/citation.cfm?id=1102426

Here the same authors focus on a related problem, that of determining open spaces for guiding a vehicle, again using machine learning techniques.

Karsch, Liu & Kang: Depth Transfer

http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=5551153

http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6787109

This is a nonparametric approach to depth from a single image. They search a database of images similar to the observed one then warp the image retrieved from the database to estimate the depth of the current image.

LeCun, Bottou, Bengio & Haffner: CNNs

http://ieeexplore.ieee.org/abstract/document/726791/

Here is the classic paper applying convolutional neural networks to image processing.

Krizhevsky, Sutskever & Hinton: ImageNet/AlexNet

https://papers.nips.cc/paper/4824-imagenet-classification-with-deep-convolutional-neural-networks.pdf

Here is when convolutional neural networks and deep learning really showed what it could do - the problem of image recognition.

Simonyan & Zisserman: VGG-16

http://arxiv.org/abs/1409.1556

A relatively recent "deep" deep net with 16 layers for image recognition. Note: successful recent networks have one thousand layers.

Eigen, Puhrsch & Fergus: Depth map prediction

https://www.cs.nyu.edu/~deigen/depth/

Finally, we apply deep neural convolutional networks to the problem that we are interested in.

Shelhamer, Long & Darrell: Fully Convolutional Segmentation

http://arxiv.org/abs/1605.06211

Here a related problem is solved, that of semantic segmentation, but this approach is applicable to our problem.

Loffe & Szegedy: Batch Normalization

https://arxiv.org/abs/1502.03167

A recent technique that has enabled powerful new methods and ultimately much deeper neural networks. Important stuff.

He, Zhang, Ren & Sun: ResNets

https://arxiv.org/abs/1512.03385

This work and variations on it have been the basis of the 1000 layer recent neural networks. Important stuff.

Girshick, Donahue, Darrell & Malik: R-CNN

https://arxiv.org/abs/1311.2524

We take a slight seque to check out how tracking has been done recently with neural networks. Note that Faster-RCNN and more recent alternatives use similar principles but do it faster.

Liao, Huang, Wang, Kodagoda, Yu & Liu: Fuse with laser

https://arxiv.org/abs/1611.02174

Here we see an interesting depth-from-single-image sensor fusion with robotics applications.

Giuisti et al.: Forest trails CNN

http://ieeexplore.ieee.org/document/7358076/

See also youtube.

Here we have a CNN-based update to the learn-to-navigate-from-images problem addressed by Saxena et al. above.

Cao, Wu & Shen: Fully convolutional depth 1

http://arxiv.org/abs/1605.02305

Here we start a series of recent papers that take different approaches using deep nets to depth from a single image.

Laina et al.: Fully convolutional depth 2

http://arxiv.org/abs/1606.00373

Here we start a series of recent papers that take different approaches using deep nets to depth from a single image.

Li, Klein & Yao: Fully convolutional depth 3

http://arxiv.org/abs/1607.00730

Here we start a series of recent papers that take different approaches using deep nets to depth from a single image.

Goodfellow et al.: Generative Adversarial Nets

https://papers.nips.cc/paper/5423-generative-adversarial-nets

Another important recent development that we may make use of.

Dosovitskiy, Springenberg, Tatarchenko & Brox: Generating images

https://arxiv.org/abs/1411.5928

A non-adversarial approach to the same problem.

Oord et al.: Pixel-RNN & Pixel-CNN

https://arxiv.org/abs/1601.06759

Producing distributions over images. We have always intended to do something like this for depth images.

http://arxiv.org/abs/1606.05328

List of interested people

(who I will contact with information about the schedule etc.)

  • Abdulmajeed K.
  • Alican M.
  • Anas M.
  • K. Bulut Ö.
  • Imaduddin A. M.
  • Tolga C.