Picture processing for enhancement and recognition

Recent years have been characterized by an incredible growth in computing power and storage capabilities, communication speed and bandwidth availability, either for desktop platform or mobile device. The combination of these factors have led to a new era of multimedia applications: browsing of huge image archives, consultation of online video databases, location based services and many other. Multimedia is almost everywhere and requires high quality data, easy retrieval of multimedia contents, increase in network access capacity and bandwidth per user. To meet all the mentioned requirements many efforts have to be made in various research areas, ranging from signal processing, image and video analysis, communication protocols, etc. The research activity developed during these three years concerns the field of multimedia signal processing, with particular attention to image and video analysis and processing. Two main topics have been faced: the first is relating to image and video reconstruction/restoration (using super resolution techniques) in web based application for multimedia contents' fruition; the second is relating to image analysis for location based systems in indoor scenario. The first topic is relating to image and video processing, in particular the focus has been put on the development of algorithm for super resolution reconstruction of image and video sequences in order to make easier the fruition of multimedia data over the web. On one hand, latest years have been characterized by an incredible proliferation and surprising success of user generated multimedia contents, and also distributed and collaborative multimedia database over the web. This brought to serious issues related to their management and maintenance: bandwidth limitation and service costs are important factors when dealing with mobile multimedia contents’ fruition. On the other hand, the current multimedia consumer market has been characterized by the advent of cheap but rather high-quality high definition displays. However, this trend is only partially supported by the deployment of high-resolution multimedia services, thus the resulting disparity between content and display formats have to be addressed and older productions need to be either re-mastered or postprocessed in order to be broadcasted for HD exploitation. In the presented scenario, superresolution reconstruction represents a major solution. Image or video super resolution techniques allow restoring the original spatial resolution from low-resolution compressed data. In this way, both content and service providers, not to tell the final users, are relieved from the burden of providing and supporting large multimedia data transfer. The second topic addressed during my Phd research activity is related to the implementation of an image based positioning system for an indoor navigator. As modern mobile device become faster, classical signal processing is suggested to be used for new applications, such location based service. The exponential growth of wearable devices, such as smartphone and PDA in general, equipped with embedded motion (accelerometers) and rotation (gyroscopes) sensors, Internet connection and high-resolution cameras makes it ideal for INS (Inertial Navigation System) applications aiming to support the localization/navigation of objects and/or users in an indoor environment where common localization systems, such as GPS (Global Positioning System), fail. Thus the need to use alternative positioning techniques. A series of intensive tests have been carried out, showing how modern signal processing techniques can be successfully applied in different scenarios, from image and video enhancement up to image recognition for localization purpose, providing low costs solutions and ensuring real-time performance.