Your search keyword '"Adama, David Ada"' showing total 5 results

1. Mitigating Adversarial Attacks in Deepfake Detection: An Exploration of Perturbation and AI Techniques

Author

Dhesi, Saminder, Fontes, Laura, Machado, Pedro, Ihianle, Isibor Kennedy, Tash, Farhad Fassihi, Adama, David Ada, Dhesi, Saminder, Fontes, Laura, Machado, Pedro, Ihianle, Isibor Kennedy, Tash, Farhad Fassihi, and Adama, David Ada

Abstract

Deep learning constitutes a pivotal component within the realm of machine learning, offering remarkable capabilities in tasks ranging from image recognition to natural language processing. However, this very strength also renders deep learning models susceptible to adversarial examples, a phenomenon pervasive across a diverse array of applications. These adversarial examples are characterized by subtle perturbations artfully injected into clean images or videos, thereby causing deep learning algorithms to misclassify or produce erroneous outputs. This susceptibility extends beyond the confines of digital domains, as adversarial examples can also be strategically designed to target human cognition, leading to the creation of deceptive media, such as deepfakes. Deepfakes, in particular, have emerged as a potent tool to manipulate public opinion and tarnish the reputations of public figures, underscoring the urgent need to address the security and ethical implications associated with adversarial examples. This article delves into the multifaceted world of adversarial examples, elucidating the underlying principles behind their capacity to deceive deep learning algorithms. We explore the various manifestations of this phenomenon, from their insidious role in compromising model reliability to their impact in shaping the contemporary landscape of disinformation and misinformation. To illustrate progress in combating adversarial examples, we showcase the development of a tailored Convolutional Neural Network (CNN) designed explicitly to detect deepfakes, a pivotal step towards enhancing model robustness in the face of adversarial threats. Impressively, this custom CNN has achieved a precision rate of 76.2% on the DFDC dataset.

Published

2023

2. Estimating the Power Consumption of Heterogeneous Devices when performing AI Inference

Author

Machado, Pedro, Matic, Ivica, de Lemos, Francisco, Ihianle, Isibor Kennedy, Adama, David Ada, Machado, Pedro, Matic, Ivica, de Lemos, Francisco, Ihianle, Isibor Kennedy, and Adama, David Ada

Abstract

Modern-day life is driven by electronic devices connected to the internet. The emerging research field of the Internet-of-Things (IoT) has become popular, just as there has been a steady increase in the number of connected devices. Since many of these devices are utilised to perform CV tasks, it is essential to understand their power consumption against performance. We report the power consumption profile and analysis of the NVIDIA Jetson Nano board while performing object classification. The authors present an extensive analysis regarding power consumption per frame and the output in frames per second using YOLOv5 models. The results show that the YOLOv5n outperforms other YOLOV5 variants in terms of throughput (i.e. 12.34 fps) and low power consumption (i.e. 0.154 mWh/frame).

Published

2022

3. Towards Achieving Thermal Comfort through Physiologically Cloud based controlled HVAC System

Author

Ihianle, Isibor Kennedy, Machado, Pedro, Owa, Kayode, Adama, David Ada, Ihianle, Isibor Kennedy, Machado, Pedro, Owa, Kayode, and Adama, David Ada

Abstract

Thermal comfort in shared spaces is essential to occupants well-being and necessary in the management of energy consumption. Existing thermal control systems for indoor shared spaces adjust temperature set points mechanically, making it difficult to intelligently achieve thermal comfort for all. Recent studies have shown that thermal comfort in a shared space is difficult to achieve due to individual preferences and the inability of occupants to reach a thermal compromise on temperature set points. This paper proposes a thermal comfort system to automatically adjust the temperature set-points in a shared space whilst recognising individual preferences. The control strategy of the proposed system is based on an algorithm to adjust the temperature set point of the shared space using the individual thermal preferences and predicted thermal comfort value of the occupants. The thermal preferences of the occupants are determined first and used as part of the occupants profile, which is mapped to thermal comfort values predicted from the occupants measured physiological data and environmental data. A consensus is reached by the algorithm to find the optimal temperature set-point, which takes into account individual thermal preferences and their physiological responses.

Published

2022

4. Deep Learning approach for Classifying Trusses and Runners of Strawberries

Author

Pomykala, Jakub, de Lemos, Francisco, Ihianle, Isibor Kennedy, Adama, David Ada, Machado, Pedro, Pomykala, Jakub, de Lemos, Francisco, Ihianle, Isibor Kennedy, Adama, David Ada, and Machado, Pedro

Abstract

The use of artificial intelligence in the agricultural sector has been growing at a rapid rate to automate farming activities. Emergent farming technologies focus on mapping and classification of plants, fruits, diseases, and soil types. Although, assisted harvesting and pruning applications using deep learning algorithms are in the early development stages, there is a demand for solutions to automate such processes. This paper proposes the use of Deep Learning for the classification of trusses and runners of strawberry plants using semantic segmentation and dataset augmentation. The proposed approach is based on the use of noises (i.e. Gaussian, Speckle, Poisson and Salt-and-Pepper) to artificially augment the dataset and compensate the low number of data samples and increase the overall classification performance. The results are evaluated using mean average of precision, recall and F1 score. The proposed approach achieved 91%, 95% and 92% on precision, recall and F1 score, respectively, for truss detection using the ResNet101 with dataset augmentation utilising Salt-and-Pepper noise; and 83%, 53% and 65% on precision, recall and F1 score, respectively, for truss detection using the ResNet50 with dataset augmentation utilising Poisson noise.

Published

2022

5. Real-Time Gesture Recognition with Virtual Glove Markers

Author

McKinnon, Finlay, Adama, David Ada, Machado, Pedro, Ihianle, Isibor Kennedy, McKinnon, Finlay, Adama, David Ada, Machado, Pedro, and Ihianle, Isibor Kennedy

Abstract

Due to the universal non-verbal natural communication approach that allows for effective communication between humans, gesture recognition technology has been steadily developing over the previous few decades. Many different strategies have been presented in research articles based on gesture recognition to try to create an effective system to send non-verbal natural communication information to computers, using both physical sensors and computer vision. Hyper accurate real-time systems, on the other hand, have only recently began to occupy the study field, with each adopting a range of methodologies due to past limits such as usability, cost, speed, and accuracy. A real-time computer vision-based human-computer interaction tool for gesture recognition applications that acts as a natural user interface is proposed. Virtual glove markers on users hands will be created and used as input to a deep learning model for the real-time recognition of gestures. The results obtained show that the proposed system would be effective in real-time applications including social interaction through telepresence and rehabilitation.

Published

2022