![]() In order to create panoramic images, there are three different techniques. Moreover, it is a suitable technique to cover wide surveillance areas such as airports, big utility stores, and banks, etc., using 360° video surveillance systems. Panoramic images have a promising future in virtual tourism, parking assistance, medical image analysis and digital cities. The generation of 360° videos requires knowledge of different fields such as image processing, computer graphics, computer vision, virtual reality, and smart city surveillance. These researchers are contributing to different aspects of 360° videos such as quality enhancement, resolution, and different image acquisition kits to capture 360° videos. Giant video and search engine servers have started to support 360° videos, thereby attracting many researchers. With the rising popularity of virtual reality, 360° panorama generation has become a hot research area. Furthermore, we compared our proposed system with existing mono and stereo contents generation systems in both qualitative and quantitative perspectives, and the comparative measurements obtained verified the effectiveness of our system compared to existing mono and stereo generation systems. ![]() 360 panorama video loop software#We also developed stitching software that generates both mono and stereo panoramas using a single image stitching pipeline where the panorama generated by our proposed system is automatically straightened without visible seams. For stereo panorama generation, we propose a lightweight, cost-effective visual sensor kit that uses only three cameras to cover 360° of the surroundings. The hardware of our proposed image acquisition system is configured in such way that no user input is required to stitch multiple images. For mono panorama generation, we present a drone-mounted image acquisition sensor kit that consists of six cameras placed in a circular fashion with optimal overlapping gap. In this paper, we propose an economical 360° panorama generation system that generates both mono and stereo panoramas. However, these systems are equipped with expensive image sensor networks where multiple cameras are mounted in a circular rig with specific overlapping gaps. Recently, several 360° panorama generation systems have demonstrated reasonable quality generated panoramas. Also, easy access to different visual sensor kits and easily deployable image acquisition devices have played a vital role in the growth of interest in this area by the research community. In recent years, 360° videos have gained the attention of researchers due to their versatility and applications in real-world problems. ![]()
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