Print Email Facebook Twitter Efficient Content-Based Image Retrieval from Videos using Compact Deep Learning Networks with Re-ranking Title Efficient Content-Based Image Retrieval from Videos using Compact Deep Learning Networks with Re-ranking Author Barokas Profeta, Doruk (TU Delft Electrical Engineering, Mathematics and Computer Science) Contributor Dauwels, J.H.G. (mentor) Degree granting institution Delft University of Technology Corporate name Delft University of Technology Programme Electrical Engineering | Signals and Systems Date 2023-09-20 Abstract The rise of streaming and video technologies has underscored the significance of efficient access and navigation of digital content, particularly for scholars in fields like history and art. Scholars actively seek streamlined approaches to index, retrieve, and explore digital content, with a focus on locating specific instances. The process of searching for specific instances in video search is complex that requires the analysis of video sequences and the identification of relevant video segments. Advanced techniques and algorithms are necessary to ensure effective content-based retrieval of the required information.In response to the escalating demand for accurate and swift access to relevant visual data within the vast spectrum of video resources, our research has been dedicated to the development of novel, efficient content-based image retrieval methods tailored for videos by integrating deep learning methodologies. Our comprehensive system contains two crucial components: keyframe extraction and content-based image retrieval. Keyframe extraction involves identifying significant frames within videos, while content-based image retrieval enables the retrieval of similar frames to a query image through feature extraction and ranking.A unique aspect of our research lies in the exploration and analysis of a diverse range of feature extraction techniques derived from compact deep learning networks. We have compared our proposed method with state-of-the-art retrieval systems, evaluating performance metrics in terms of both accuracy and speed. Our method harnesses the power of compact deep learning network features in the initial ranking stage, effectively sublisting frames, and subsequently introduces re-ranking using a larger network. This innovative approach promises to deliver the best of both worlds: exceptional efficiency without compromising retrieval accuracy. Subject Content-Based Video Image RetrievalContent-Based Image RetrievalEfficient Feature ExtractionCBVIRCBIRImage searchVideo searchImage retrieval from videoRe-ranking To reference this document use: http://resolver.tudelft.nl/uuid:751092b8-1b3d-4335-98bd-cc26e69d374c Part of collection Student theses Document type master thesis Rights © 2023 Doruk Barokas Profeta Files PDF MSc_Thesis_DBP.pdf 16.16 MB Close viewer /islandora/object/uuid:751092b8-1b3d-4335-98bd-cc26e69d374c/datastream/OBJ/view