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**Evaluating and Extending Unsupervised VideoSummarization Methods**
1. Evaluation unsupervised methods with different metric under same configuration.
2. Investigating effect of extracted features in unsupervised methods and extend it to perform better than baseline work.
3. Identify gaps form last step and try to fill by porposed solution by extending or modifying an existing model.
This study validates the recent work in unsupervised video summarization and extends the experiments with feature variation.
In our understanding, deep learning based approaches select frame-candidates for a video summary.
These frames are drawn with a probability that can be used to calculate the scaled importance for comparison with the basic truth as an evaluation.
However, most works in the literature focus on network architecture and follow the same feature extraction technique using the resulting deep features from one pretrained model.
At this point a notable gap of the existing approaches is feature variation, which this study explores.
Building on that, model variables like network architecture, optimizer, and activation functions can have an impact on the performance combined with different feature selection techniques that haven’t beenexplored yet.Further, the Evaluation of existing models is conducted using one metric,which may be not representative in video summarization task, since it could ignore key-frames in favor of other frames and still have a relatively high value. This work performs feature extraction using multiple pretrained neural models, and then measures the impact of them on current state-of-the-art works.Then,it evaluates the state-of-the-art works using different evaluation metrics.
Eventually, it aims to find an unsupervised video summarization method, in order to fill the gaps, and leverage the existing works.
* [Notes on SUM-GAN-AAE (Apostolidis et al. 2020)](https://gitlab.uni-hannover.de/hussainkanafani/unsupervised-video-summarization/-/wikis/SUM-GAN-AAE-(Apostolidis-et-al.-2020))
* [References and important findings](https://gitlab.uni-hannover.de/hussainkanafani/unsupervised-video-summarization/-/wikis/Findings)
* [Reproduce (Zhou et al. 2018)](https://gitlab.uni-hannover.de/hussainkanafani/unsupervised-video-summarization/-/wikis/Reproduce-(Zhou-et-al.-2018)%E2%80%8B)
* [Conda cheat sheet](https://gitlab.uni-hannover.de/hussainkanafani/unsupervised-video-summarization/-/wikis/Conda-cheat-sheet)