Videocaptioning.pytorch - A simple implementation of video captioning

Related tags

Deep Learningvideocaptioning.pytorch
Overview

pytorch implementation of video captioning

recommend installing pytorch and python packages using Anaconda

This code is based on video-caption.pytorch

requirements (my environment, other versions of pytorch and torchvision should also support this code (not been verified!))

  • cuda
  • pytorch 1.7.1
  • torchvision 0.8.2
  • python 3
  • ffmpeg (can install using anaconda)

python packages

  • tqdm
  • pillow
  • nltk

Data

MSR-VTT. Download and put them in ./data/msr-vtt-data directory

|-data
  |-msr-vtt-data
    |-train-video
    |-test-video
    |-annotations
      |-train_val_videodatainfo.json
      |-test_videodatainfo.json

MSVD. Download and put them in ./data/msvd-data directory

|-data
  |-msvd-data
    |-YouTubeClips
    |-annotations
      |-AllVideoDescriptions.txt

Options

all default options are defined in opt.py or corresponding code file, change them for your like.

Acknowledgements

Some code refers to ImageCaptioning.pytorch

Usage

(Optional) c3d features (not verified)

you can use video-classification-3d-cnn-pytorch to extract features from video.

Steps

  1. preprocess MSVD annotations (convert txt file to json file)

refer to data/msvd-data/annotations/prepro_annotations.ipynb

  1. preprocess videos and labels
# For MSR-VTT dataset
# Train and Validata set
CUDA_VISIBLE_DEVICES=0 python prepro_feats.py \
    --video_path ./data/msr-vtt-data/train-video \
    --video_suffix mp4 \
    --output_dir ./data/msr-vtt-data/resnet152 \
    --model resnet152 \
    --n_frame_steps 40

# Test set
CUDA_VISIBLE_DEVICES=0 python prepro_feats.py \
    --video_path ./data/msr-vtt-data/test-video \
    --video_suffix mp4 \
    --output_dir ./data/msr-vtt-data/resnet152 \
    --model resnet152 \
    --n_frame_steps 40

python prepro_vocab.py \
    --input_json data/msr-vtt-data/annotations/train_val_videodatainfo.json data/msr-vtt-data/annotations/test_videodatainfo.json \
    --info_json data/msr-vtt-data/info.json \
    --caption_json data/msr-vtt-data/caption.json \
    --word_count_threshold 4

# For MSVD dataset
CUDA_VISIBLE_DEVICES=0 python prepro_feats.py \
    --video_path ./data/msvd-data/YouTubeClips \
    --video_suffix avi \
    --output_dir ./data/msvd-data/resnet152 \
    --model resnet152 \
    --n_frame_steps 40

python prepro_vocab.py \
    --input_json data/msvd-data/annotations/MSVD_annotations.json \
    --info_json data/msvd-data/info.json \
    --caption_json data/msvd-data/caption.json \
    --word_count_threshold 2
  1. Training a model
# For MSR-VTT dataset
CUDA_VISIBLE_DEVICES=0 python train.py \
    --epochs 1000 \
    --batch_size 300 \
    --checkpoint_path data/msr-vtt-data/save \
    --input_json data/msr-vtt-data/annotations/train_val_videodatainfo.json \
    --info_json data/msr-vtt-data/info.json \
    --caption_json data/msr-vtt-data/caption.json \
    --feats_dir data/msr-vtt-data/resnet152 \
    --model S2VTAttModel \
    --with_c3d 0 \
    --dim_vid 2048

# For MSVD dataset
CUDA_VISIBLE_DEVICES=0 python train.py \
    --epochs 1000 \
    --batch_size 300 \
    --checkpoint_path data/msvd-data/save \
    --input_json data/msvd-data/annotations/train_val_videodatainfo.json \
    --info_json data/msvd-data/info.json \
    --caption_json data/msvd-data/caption.json \
    --feats_dir data/msvd-data/resnet152 \
    --model S2VTAttModel \
    --with_c3d 0 \
    --dim_vid 2048

  1. test

    opt_info.json will be in same directory as saved model.

# For MSR-VTT dataset
CUDA_VISIBLE_DEVICES=0 python eval.py \
    --input_json data/msr-vtt-data/annotations/test_videodatainfo.json \
    --recover_opt data/msr-vtt-data/save/opt_info.json \
    --saved_model data/msr-vtt-data/save/model_xxx.pth \
    --batch_size 100

# For MSVD dataset
CUDA_VISIBLE_DEVICES=0 python eval.py \
    --input_json data/msvd-data/annotations/test_videodatainfo.json \
    --recover_opt data/msvd-data/save/opt_info.json \
    --saved_model data/msvd-data/save/model_xxx.pth \
    --batch_size 100

NOTE

This code is just a simple implementation of video captioning. And I have not verify whether the SCST training process and C3D feature are useful!

Acknowledgements

Some code refers to ImageCaptioning.pytorch

Owner
Yiyu Wang
Yiyu Wang
GitHub Repository
Moment-DETR code and QVHighlights dataset

Moment-DETR QVHighlights: Detecting Moments and Highlights in Videos via Natural Language Queries Jie Lei, Tamara L. Berg, Mohit Bansal For dataset de

Jie Lei 雷杰 133 Dec 22, 2022
Code for "Graph-Evolving Meta-Learning for Low-Resource Medical Dialogue Generation". [AAAI 2021]

Graph Evolving Meta-Learning for Low-resource Medical Dialogue Generation Code to be further cleaned... This repo contains the code of the following p

Shuai Lin 29 Nov 01, 2022
Answering Open-Domain Questions of Varying Reasoning Steps from Text

This repository contains the authors' implementation of the Iterative Retriever, Reader, and Reranker (IRRR) model in the EMNLP 2021 paper "Answering Open-Domain Questions of Varying Reasoning Steps

26 Dec 22, 2022
Using LSTM write Tang poetry

本教程将通过一个示例对LSTM进行介绍。通过搭建训练LSTM网络,我们将训练一个模型来生成唐诗。本文将对该实现进行详尽的解释,并阐明此模型的工作方式和原因。并不需要过多专业知识,但是可能需要新手花一些时间来理解的模型训练的实际情况。为了节省时间,请尽量选择GPU进行训练。

56 Dec 15, 2022
This repository contains numerical implementation for the paper Intertemporal Pricing under Reference Effects: Integrating Reference Effects and Consumer Heterogeneity.

This repository contains numerical implementation for the paper Intertemporal Pricing under Reference Effects: Integrating Reference Effects and Consumer Heterogeneity.

Hansheng Jiang 6 Nov 18, 2022
Zero-shot Synthesis with Group-Supervised Learning (ICLR 2021 paper)

GSL - Zero-shot Synthesis with Group-Supervised Learning Figure: Zero-shot synthesis performance of our method with different dataset (iLab-20M, RaFD,

Andy_Ge 62 Dec 21, 2022
Train Scene Graph Generation for Visual Genome and GQA in PyTorch >= 1.2 with improved zero and few-shot generalization.

Scene Graph Generation Object Detections Ground truth Scene Graph Generated Scene Graph In this visualization, woman sitting on rock is a zero-shot tr

Boris Knyazev 93 Dec 28, 2022
A python-image-classification web application project, written in Python and served through the Flask Microframework

A python-image-classification web application project, written in Python and served through the Flask Microframework. This Project implements the VGG16 covolutional neural network, through Keras and

Gerald Maduabuchi 19 Dec 12, 2022
MEAL V2: Boosting Vanilla ResNet-50 to 80%+ Top-1 Accuracy on ImageNet without Tricks

MEAL-V2 This is the official pytorch implementation of our paper: "MEAL V2: Boosting Vanilla ResNet-50 to 80%+ Top-1 Accuracy on ImageNet without Tric

Zhiqiang Shen 653 Dec 19, 2022
[ICCV 2021 Oral] NerfingMVS: Guided Optimization of Neural Radiance Fields for Indoor Multi-view Stereo

NerfingMVS Project Page | Paper | Video | Data NerfingMVS: Guided Optimization of Neural Radiance Fields for Indoor Multi-view Stereo Yi Wei, Shaohui

Yi Wei 369 Dec 24, 2022
🌎 The Modern Declarative Data Flow Framework for the AI Empowered Generation.

🌎 JSONClasses JSONClasses is a declarative data flow pipeline and data graph framework. Official Website: https://www.jsonclasses.com Official Docume

Fillmula Inc. 53 Dec 09, 2022
MVGCN: a novel multi-view graph convolutional network (MVGCN) framework for link prediction in biomedical bipartite networks.

MVGCN MVGCN: a novel multi-view graph convolutional network (MVGCN) framework for link prediction in biomedical bipartite networks. Developer: Fu Hait

13 Dec 01, 2022
Hashformers is a framework for hashtag segmentation with transformers.

Hashtag segmentation is the task of automatically inserting the missing spaces between the words in a hashtag. Hashformers applies Transformer models

Ruan Chaves 41 Nov 09, 2022
Neural Scene Flow Fields for Space-Time View Synthesis of Dynamic Scenes

Neural Scene Flow Fields PyTorch implementation of paper "Neural Scene Flow Fields for Space-Time View Synthesis of Dynamic Scenes", CVPR 2021 [Projec

Zhengqi Li 583 Dec 30, 2022
Implementation for our ICCV 2021 paper: Dual-Camera Super-Resolution with Aligned Attention Modules

DCSR: Dual Camera Super-Resolution Implementation for our ICCV 2021 oral paper: Dual-Camera Super-Resolution with Aligned Attention Modules paper | pr

Tengfei Wang 110 Dec 20, 2022
Ultra-lightweight human body posture key point CNN model. ModelSize:2.3MB HUAWEI P40 NCNN benchmark: 6ms/img,

Ultralight-SimplePose Support NCNN mobile terminal deployment Based on MXNET(=1.5.1) GLUON(=0.7.0) framework Top-down strategy: The input image is t

223 Dec 27, 2022
Reproducible research and reusable acyclic workflows in Python. Execute code on HPC systems as if you executed them on your personal computer!

Reproducible research and reusable acyclic workflows in Python. Execute code on HPC systems as if you executed them on your machine! Motivation Would

Joeri Hermans 15 Sep 11, 2022
A hifiasm fork for metagenome assembly using Hifi reads.

hifiasm_meta - de novo metagenome assembler, based on hifiasm, a haplotype-resolved de novo assembler for PacBio Hifi reads.

44 Jul 10, 2022
Library for time-series-forecasting-as-a-service.

TIMEX TIMEX (referred in code as timexseries) is a framework for time-series-forecasting-as-a-service. Its main goal is to provide a simple and generi

Alessandro Falcetta 8 Jan 06, 2023
TLDR: Twin Learning for Dimensionality Reduction

TLDR (Twin Learning for Dimensionality Reduction) is an unsupervised dimensionality reduction method that combines neighborhood embedding learning with the simplicity and effectiveness of recent self

NAVER 105 Dec 28, 2022