This is a project based on ConvNets used to identify whether a road is clean or dirty. We have used MobileNet as our base architecture and the weights are based on imagenet.

Last update: Nov 06, 2022

Overview

PROJECT TITLE: CLEAN/DIRTY ROAD DETECTION USING TRANSFER LEARNING

Description:

This is a project based on ConvNets used to identify whether a road is clean or dirty. We have used MobileNet as our base architecture and the weights are based on imagenet.

Dataset download.
Tools and Libraries.
Code.
References.

1. Dataset download

We have used web scraping techniques to download 238 images of both clean and dirty roads. This dataset was completely used for training the model.

2. Tools and Libraries

In this project we will be using the Keras Deep Learning Library and we will be running it on top of the Tensorflow backend.
Others include:

Numpy
Matplotlib
OpenCV

3. Code

ClassifierModel.py is the main code which encapsulates the CNN architecture that was used for this project.

We have used keras.applications.mobilenet_v2 to import the MobileNetV2 architecture for our base model, with training = False.
On top of it, we have added two dense layers consisting of 512 and 256 units both having ReLU activation followed by Dropout.
The output layer is a simple 2 unit softmax layer.

Training Accuracy and Loss

We have used keras.losses.CategoricalCrossentropy as our loss function, keras.optimizers.Adam as Optimizer and trained the model for 15 epochs.

This is a project based on ConvNets used to identify whether a road is clean or dirty. We have used MobileNet as our base architecture and the weights are based on imagenet.

Related tags

Overview

PROJECT TITLE: CLEAN/DIRTY ROAD DETECTION USING TRANSFER LEARNING

Description:

Contents

1. Dataset download

2. Tools and Libraries

3. Code

Training Accuracy and Loss

4. References

Owner

Faizal Karim

Free-duolingo-plus - Duolingo account creator that uses your invite code to get you free duolingo plus

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This is a project based on ConvNets used to identify whether a road is clean or dirty. We have used MobileNet as our base architecture and the weights are based on imagenet.

Related tags

Overview

PROJECT TITLE: CLEAN/DIRTY ROAD DETECTION USING TRANSFER LEARNING

Description:

Contents

1. Dataset download

2. Tools and Libraries

3. Code

Training Accuracy and Loss

4. References

Owner

Faizal Karim

Free-duolingo-plus - Duolingo account creator that uses your invite code to get you free duolingo plus

Efficient 6-DoF Grasp Generation in Cluttered Scenes

A chemical analysis of lipophilicities & molecule drawings including ML

A framework for the elicitation, specification, formalization and understanding of requirements.

The personal repository of the work: *DanceNet3D: Music Based Dance Generation with Parametric Motion Transformer*.

Dirty Pixels: Towards End-to-End Image Processing and Perception

Deep Latent Force Models

TensorFlow port of PyTorch Image Models (timm) - image models with pretrained weights.

Food Drinks and groceries Images Multi Lingual (FooDI-ML) dataset.

Deep generative models of 3D grids for structure-based drug discovery

Official repository of IMPROVING DEEP IMAGE MATTING VIA LOCAL SMOOTHNESS ASSUMPTION.

3D Pose Estimation for Vehicles

tf2onnx - Convert TensorFlow, Keras and Tflite models to ONNX.

Learning the Beauty in Songs: Neural Singing Voice Beautifier; ACL 2022 (Main conference); Official code

Python script for performing depth completion from sparse depth and rgb images using the msg_chn_wacv20. model in Tensorflow Lite.

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PyTorch implementation of "PatchGame: Learning to Signal Mid-level Patches in Referential Games" to appear in NeurIPS 2021

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