Source: Deep Learning on Medium
Course Instructor Information
Nishan Pantha has been into the AI research and engineering for more than 3 years and is also a co-founder for MPercept Technology and the open community AIDevNepal that has revolutionzed the AI workshops and connections in Nepal.
- email: email@example.com
- Twitter: @nishparadox
- Github: NISH1001
- Linkedin: nishparadox
- Personal Site: http://nishanpantha.com.np/
Nishan has been a core instructor in MPercept Academy. He has been teaching and supervising Artificial Intelligence courses since Academy’s inception.
What is Object Classification
It is a process where a system tries to predict what an image is. That is, a classifier that predicts the label of the image.
In a simple term, if you have a classifier for cat-dog prediction, the system (or the classifier) predicts (tries to predict) the label of any test image fed to it. Here, it will either be a dog or a cat.
Remember: For any classifier, it will only predict the class label on which it was trained on. So, in the above case, despite showing an image of an elephant, the classifier will either output dog or a cat. To recognize the elephant, the whole system will have to be trained from scratch (or loaded from pre-trained model) on elephants’ dataset.
Approaches for object classification:
We can apply any existing ML/DL techniques for classification problem. Some of which are:
- Binary classification on image features
- SVM on image features
- Artificial Neural Networks on image features
- Convolutional Neural Networks on raw image
Among this, CNN has been proven to be one of the best architectures for image classification. To get the scale of how good CNNs are, just know that latest state of the art models in some ways incorporate CNN.
Object detection is a computer technology related to computer vision and image processing that deals with detecting instances of semantic objects of a certain class (such as humans, buildings, or cars) in digital images and videos. Well-researched domains of object detection include face detection and pedestrian detection. Object detection has applications in many areas of computer vision, including image retrieval and video surveillance.
In a more convenient sense, it is the process of detecting every objects in the scene along with classifying their labels and finding the bounding box (or polygons) of that object.
The last section consists of latest techniques like:
- Mask RCNN
You Only Look Once is a state-of-the-art, real-time object detection system. It was originally developed around 2015 that outperformed every other techniques at that time.
YOLO has its own, neat, architecture based on CNN and anchor boxes and is proven to be on-the-go object detection technique for widely used problems. With the timeline, it has become faster and better with its versions named as:
- YOLO V1
- YOLO V2
- YOLO V3
YOLO V2 is better than V1 in terms of accuracy and speed.
YOLO V3 is not faster than V2 but is more accurate than V2.
How Does YOLO Work
Prior detection systems repurpose classifiers or localizers to perform detection. They apply the model to an image at multiple locations and scales. High scoring regions of the image are considered detections.
YOLO uses a totally different approach. It applies a single neural network to the full image. This network divides the image into regions and predicts bounding boxes and probabilities for each region. These bounding boxes are weighted by the predicted probabilities.
YOLO V3 is more accurate. Following picture depicts the overall architecture for YOLO V3:
Where to get YOLO
YOLO binaries (and sources) can be downloaded from following sources:
YOLO is based on darknet, built in C. Darknet is an open source neural network framework written in C and CUDA.
How to Use YOLO
I) Clone the Repository
git clone https://github.com/pjreddie/darknet
II) Compile The Source
We can directly compile the source using
make. Just go the the directory where darknet is cloned and run the command:
Remember: make makes use of the Makefile which consists of instructions to compile the C source files.
After completion of the make process, you will get a file named darknet which is a binary and executable file. You can use this binary executable to run the YOLO.
III) Make darknet Executable
While running the command
./darknet, if you are getting
permission error, it means the user does not have exeutable permission for running the binary. Just hit the following command
chmod u+x darknet
After this, you will be able to run the darknet executable
I) Configuration Files
YOLO is entirely plug-n-play, that is you can configure YOLO to detect any type of objects. In fact you can also modify the CNN architecture itself and play around. YOLO does this by making use of configuration files under cfg/.
The configuration files end with
.cfg extension which YOLO can parse.
These configuration files consists of mainly:
- CNN Architectures (layers and activations)
- Anchor Boxes
- Number of classes
- Learning Rate
- Optimization Technique
- input size
- probability score threshold
- batch sizes
Based on different versions, there can be many configurations from V1 to V3 to full training to tiny layers. You can download different configurations out of which following are the two:
- YOLOV3 (full) : https://github.com/pjreddie/darknet/blob/master/cfg/yolov3.cfg
- Tiny YOLO V3: https://github.com/pjreddie/darknet/blob/master/cfg/yolov3-tiny.cfg
Each configuration has corresponding pre-trained weights.
Here, only YOLO V3 is referenced.
To get full weights for YOLO V3, download it from https://pjreddie.com/media/files/yolov3.weights.
This is the weight trained on full 9000+ classes.
This is the weight trained on only 80 classes. You can get the weight for YOLO V3 from here https://pjreddie.com/media/files/yolov3-tiny.weights.
As told earlier, everything is run using
darknet exeutable file.
Suppose we have an image named test.jpeg, then we can try predicting the objects as:
./darknet detect yolov3-tiny.cfg yolov3-tiny.weights test.jpeg
.cfg are inside
Suppose, you have the yolov3-tiny inside the directory
weights/ then, the command will be:
./darknet detect cfg/yolov3-tiny.cfg weights/yolov3-tiny.weights test.jpeg
Once done, there will be an image named predictions.jpeg in the same directory as of
You can view the prediction classes along with corresponding bounding boxes.
The trianing is a bit more complex because we have to get things and configurations right. Following command does everything:
./darknet detector train custom/cfg/obj.data custom/cfg/tiny-yolo.cfg custom/tiny-yolo_100.weights
Training Command Breakdown
Here, .cfg and .weights are what they meant to be — configuration and weight files as mentioned earlier.
Everything happens using the obj.data file which has content like:
train = custom/cfg/train.txt
valid = custom/cfg/test.txt
names = obj.names
backup = backup/
This file consists of list of class names. Example:
This file consists of list of training images that we are going to feed into the network. The content is similar as:
Here, train-images/ consists of all the training images.
Along with the images, this directory also consists of text file for bounding box corresponding to the image.
So, you will have
custom/train-images/11.txt whose content can be:
0 0.32502480158730157 0.3950066137566138 0.12896825396825398 0.09523809523809523
Here the first number represents the id of class of corresponding in obj.names.
The remaining numbers represent the bounding box. If there were multiple boxes of multiple classes, it’d be like:
0 0.32502480158730157 0.3950066137566138 0.12896825396825398 0.09523809523809523
0 0.52502480158730157 0.3950066137566138 0.12896825396825398 0.09523809523809523
1 0.32502480158730157 0.3950066137566138 0.12896825396825398 0.09523809523809523
This file consist of list of test images.
Note on .cfg
Note, in .cfg, you have to change the number of classes to the total found in obj.names.
So, that is how you can run YOLO. Remember all the above command was tested in a Linux system. The process is similar for windows systems too.
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