no code implementations • 15 Mar 2022 • Ahmed Osman, Jane Crowley, George Gordon
In future we expect that application of techniques such as domain adaptation or training on hybrid real-synthetic datasets will create a powerful tool for fast, accurate production of optical property maps from real clinical imaging systems.
2 code implementations • 16 Mar 2020 • Leila Arras, Ahmed Osman, Wojciech Samek
The rise of deep learning in today's applications entailed an increasing need in explaining the model's decisions beyond prediction performances in order to foster trust and accountability.
1 code implementation • 27 Jul 2019 • Simon Wiedemann, Heiner Kirchoffer, Stefan Matlage, Paul Haase, Arturo Marban, Talmaj Marinc, David Neumann, Tung Nguyen, Ahmed Osman, Detlev Marpe, Heiko Schwarz, Thomas Wiegand, Wojciech Samek
The field of video compression has developed some of the most sophisticated and efficient compression algorithms known in the literature, enabling very high compressibility for little loss of information.
no code implementations • 15 May 2019 • Simon Wiedemann, Heiner Kirchhoffer, Stefan Matlage, Paul Haase, Arturo Marban, Talmaj Marinc, David Neumann, Ahmed Osman, Detlev Marpe, Heiko Schwarz, Thomas Wiegand, Wojciech Samek
We present DeepCABAC, a novel context-adaptive binary arithmetic coder for compressing deep neural networks.
1 code implementation • WS 2019 • Leila Arras, Ahmed Osman, Klaus-Robert Müller, Wojciech Samek
Recently, several methods have been proposed to explain the predictions of recurrent neural networks (RNNs), in particular of LSTMs.
1 code implementation • 1 Feb 2018 • Ahmed Osman, Wojciech Samek
First, we introduce a baseline VQA model with visual attention and test the performance difference between convolutional and recurrent attention on the VQA 2. 0 dataset.
no code implementations • 12 Jun 2015 • Harsh Agrawal, Clint Solomon Mathialagan, Yash Goyal, Neelima Chavali, Prakriti Banik, Akrit Mohapatra, Ahmed Osman, Dhruv Batra
We are witnessing a proliferation of massive visual data.