@article{Sani_A. Lawan_Abdulrahman_2021, title={Peer-to-peer Approach for Distributed Privacy-preserving Deep Learning}, volume={40}, url={https://ijcjournal.org/index.php/InternationalJournalOfComputer/article/view/1873}, abstractNote={<p>The revolutionary advances in machine learning and Artificial Intelligence have enables people to rethink how we integrate information, analyze data, and use the resulting insights to improve decision making. Deep learning is the most effective, supervised, time and cost efficient machine learning approach which is becoming popular in building today’s applications such as self-driving cars, medical diagnosis systems, automatic speech recognition, machine translation, text-to-speech conversion and many others. On the other hand the success of deep learning among others depends on large volume of data available for training the model. Depending on the domain of application, the data needed for training the model may contain sensitive and private information whose privacy needs to be preserved. One of the challenges that need to be address in deep learning is how to ensure that the privacy of training data is preserved without sacrificing the accuracy of the model. In this work, we propose, design and implement a decentralized deep learning system using peer-to-peer architecture that enables multiple data owners to jointly train deep learning models without disclosing their training data to one another and at the same time benefit from each other’s dataset through exchanging model parameters during the training. We implemented our approach using two popular deep learning frameworks namely Keras and TensorFlow. We evaluated our approach on two popular datasets in deep learning community namely MNIST and Fashion-MNIST datasets. Using our approach, we were able to train models whose accuracy is relatively close to models trained under privacy-violating setting, while at the same time preserving the privacy of the training data.</p>}, number={1}, journal={International Journal of Computer (IJC)}, author={Sani, Mustapha Abdulkadir and A. Lawan, Abdulmalik and Abdulrahman, Salisu Mamman.}, year={2021}, month={May}, pages={91–108} }