International Journal For Multidisciplinary Research

E-ISSN: 2582-2160     Impact Factor: 9.24

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Volume 7 Issue 3
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A Deep Learning Framework For Detecting Synthetic Audio - Visual Media

Author(s) Ms. Greeshma chandu A.I, Ms. Arathi Chandran R.I.
Country India
Abstract The rapid advancement of deepfake technology has introduced significant challenges to digital forensics, especially within law enforcement agencies. Deepfakes— manipulated audio, video, and image content that appears authentic but is entirely fabricated—pose serious risks to investigations, public trust, and security. To address this growing concern, the development of an integrated software solution for deepfake detection in audio, video, and image formats is crucial for cyber police departments. This software will utilize advanced Machine Learning algorithms, Artificial Intelligence, and forensic analysis techniques to identify signs of tampering and manipulation across various forms of media. The proposed software will feature a multi-layered detection system capable of analyzing pixel abnormalities and auditory cues. Leveraging Deep Learning and Neural Networks, the software will be trained on large datasets to accurately detect deepfake patterns and differentiate them from genuine media. By using deep learning models like CNNs for visual feature extraction and RNNs for audio feature extraction, this approach improves the detection of inconsistencies in deepfake videos, making it an effective solution in the fight against misinformation. Additionally, the system will integrate with existing digital forensics tools to support police investigations, allowing officers to quickly verify the authenticity of digital evidence. By providing police departments with cutting-edge detection capabilities, this solution aims to combat the misuse of deepfake technology in criminal activities such as fraud, identity theft, blackmail, and misinformation campaigns
Keywords Deepfake Detection, Digital Forensics, Convolutional Neural Networks (CNNs), Recurrent Neural Networks (RNNs)
Field Computer > Artificial Intelligence / Simulation / Virtual Reality
Published In Volume 7, Issue 3, May-June 2025
Published On 2025-06-22
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E-ISSN 2582-2160
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