{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9854193","patent":{"patent_number":"US-9854193","title":"High definition camera and method","assignee":null,"inventors":[],"filing_date":"2015-11-25T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["H04N","H04N","H04N"],"num_claims":8,"abstract":"A high definition (HD) camera and a method for implementing the HD camera is described. A CMOS sensor of high frame rate captures frame images and provides light to N consecutive frame images with an interval of M consecutive frame images in the captured frame images using an auxiliary light source when the auxiliary light source is on. The auxiliary light source turns on and off according to a duty cycle. The M is 0 or a positive integer. The N is a positive integer. The mechanism has good light performances, reduced deformation of moving objects, and reduced costs."},"analysis":{"summary":"The High Definition Camera and Method patent (US Patent 9854193) introduces an innovative approach to capturing high-definition images of fast-moving objects. The core innovation lies in the strategic use of a CMOS sensor with a high frame rate, combined with an auxiliary light source that is precisely timed to illuminate specific frame images. This system addresses the problem of motion blur, a common issue in traditional high-speed cameras, by optimizing light performance and reducing the deformation of moving objects.\n\nThe key technical approach involves controlling the duty cycle of the auxiliary light source to ensure that each frame is adequately illuminated without introducing excessive motion blur. The parameters N and M, representing the number of consecutive frame images illuminated and the interval between these images, respectively, can be adjusted to optimize performance for different imaging scenarios. This flexibility makes the invention suitable for a wide range of applications, from sports broadcasting to industrial automation.\n\nThe business value of this technology lies in its ability to provide high-quality, high-speed imaging at a relatively low cost. By leveraging a CMOS sensor and an auxiliary light source, the invention avoids the need for complex and expensive hardware components. This makes it an attractive option for a wide range of applications, from consumer-grade cameras to professional-grade imaging equipment. The market opportunity for this technology is significant, as the demand for high-definition imaging continues to grow across various industries.\n\nThis patent has the potential to disrupt the camera industry by providing a more effective and cost-efficient solution for high-speed imaging. Its innovative approach to light management and motion artifact reduction makes it a valuable tool for capturing and analyzing the world around us. This technology is poised to play a crucial role in shaping the future of camera technology.","layman_explanation":"The High Definition Camera and Method patent addresses a common problem in imaging: capturing clear images of fast-moving objects. Traditional cameras often struggle with motion blur, which degrades image quality and makes it difficult to analyze or interpret the captured data. This is particularly problematic in applications such as sports broadcasting, industrial automation, and scientific research, where capturing fast-moving events with clarity is crucial.\n\nThis patent introduces a novel approach to solving this problem by combining a high-speed CMOS sensor with a precisely controlled auxiliary light source. The key innovation lies in the strategic use of this light source to illuminate specific frame images, effectively freezing the motion and reducing blur. Unlike traditional cameras that rely on continuous illumination, this invention selectively pulses the light source, allowing for precise control over the exposure time and minimizing motion-related artifacts.\n\nThe technology works by capturing a series of images at a high frame rate using a CMOS sensor. Simultaneously, an auxiliary light source, such as an LED or strobe, is pulsed in synchronization with the sensor. The timing and duration of these light pulses are carefully controlled to ensure that each frame is adequately illuminated without introducing excessive motion blur. The parameters N and M, representing the number of consecutive frame images illuminated and the interval between these images, can be adjusted to optimize performance for different imaging scenarios.\n\nThis matters because it enables the capture of high-quality images of fast-moving objects in a wide range of applications. In sports broadcasting, it allows for slow-motion replays with exceptional clarity and detail. In industrial automation, it enables more precise monitoring and control of manufacturing processes. In scientific research, it facilitates the study of fast-moving phenomena with unprecedented accuracy. The market impact is significant, as the demand for high-quality, high-speed imaging continues to grow across various industries. This patent offers a competitive advantage by providing a more effective and cost-efficient solution for capturing clear images of fast-moving objects. The potential ROI is substantial, as this technology can improve product quality, reduce production costs, and enhance the viewing experience.\n\nFuture applications of this technology may include integration with advanced image processing techniques, such as deblurring algorithms and super-resolution imaging. This could further enhance the quality of high-speed images and lead to new insights into fast-moving phenomena. The market adoption timeline is expected to be relatively rapid, as the benefits of this technology are readily apparent. Investment implications include opportunities for licensing, product development, and service offerings.","technical_analysis":"The High Definition Camera and Method patent (US Patent 9854193) details a system for capturing high-definition images of fast-moving objects with reduced motion blur. The technology centers around a CMOS sensor operating at a high frame rate, coupled with an auxiliary light source that is strategically pulsed to illuminate specific frame images. The precise control of the light source's duty cycle is key to optimizing light performance and minimizing the deformation of moving objects.\n\nThe system architecture consists of a CMOS sensor, an auxiliary light source (typically an LED or strobe), a timing circuit, and an image processing unit. The CMOS sensor captures frame images at a high frame rate, providing the raw data for subsequent processing. The auxiliary light source is controlled by the timing circuit, which determines when and for how long the light is emitted. This circuit is synchronized with the CMOS sensor to ensure that the light pulses coincide with the capture of consecutive frames.\n\nThe parameters N and M, representing the number of consecutive frame images illuminated and the interval between these images, are configurable to optimize performance. For example, when capturing extremely fast-moving objects, it may be necessary to reduce the duration of the light pulses and increase the interval between them to minimize motion blur. Conversely, when capturing images in low-light conditions, it may be necessary to increase the duration of the light pulses and reduce the interval between them to maximize light sensitivity.\n\nThe algorithm used to control the auxiliary light source is relatively straightforward. The timing circuit generates a series of pulses that are synchronized with the CMOS sensor's frame rate. The duration of each pulse is determined by the parameter N, while the interval between pulses is determined by the parameter M. These parameters can be adjusted to optimize performance. The implementation details involve careful selection of the CMOS sensor and auxiliary light source, as well as precise calibration of the timing circuit. Code-level implications include the development of efficient algorithms for controlling the light source and processing the captured images.\n\nThe performance characteristics of the High Definition Camera and Method patent are significantly improved compared to traditional high-speed cameras. The technology minimizes motion blur, improves light sensitivity, and reduces the deformation of moving objects. This makes it a valuable tool for a wide range of applications, from sports broadcasting to industrial automation.","business_analysis":"The High Definition Camera and Method patent (US Patent 9854193) presents a significant market opportunity in the high-speed imaging sector. The technology addresses the persistent challenge of motion blur, which limits the performance of traditional high-speed cameras. By providing a more effective and cost-efficient solution for capturing clear images of fast-moving objects, this patent has the potential to disrupt the camera industry.\n\nThe market opportunity size for high-speed imaging is substantial, with applications in various industries including sports broadcasting, industrial automation, scientific research, and medical imaging. The competitive advantages of this technology include reduced motion blur, improved light sensitivity, and cost-effectiveness. These advantages position the High Definition Camera and Method patent as a compelling alternative to existing high-speed camera systems.\n\nThe revenue potential for this technology is significant, with opportunities for licensing, product development, and service offerings. The business models that can be applied to this patent include licensing the technology to camera manufacturers, developing and selling high-speed camera systems, and providing imaging services to various industries. The strategic positioning of this technology is to target applications where high-quality, high-speed imaging is critical.\n\nThe ROI projections for this patent are favorable, with the potential for significant returns on investment. The market adoption timeline is expected to be relatively rapid, as the benefits of this technology are readily apparent. The key to success will be to effectively market the technology and build strong partnerships with industry players.","faqs":null,"topics":["high definition camera","CMOS sensor","motion blur reduction","high-speed imaging","auxiliary light source"],"tech_cluster":null},"seo":{"title":"High Definition Camera and Method - Patent US-9854193","description":"Explore the High Definition Camera and Method patent for high-speed, clear imaging. Reduces motion blur and enhances light sensitivity. Full analysis & claims.","keywords":["high definition camera","CMOS sensor","motion blur reduction","high-speed imaging","auxiliary light source","patent","patent US-9854193"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9854193","license":"CC-BY-4.0-like","license_terms":"AI-generated analysis on this page (summary, layman_explanation, technical_analysis, business_analysis, faqs) may be reused with attribution and a visible link back to the canonical URL above. Patent abstracts, claims, and bibliographic data are USPTO public domain.","required_link":"https://patentable.app/patents/US-9854193","citation_suggestion":"Patentable. \"High definition camera and method\" (US-9854193). https://patentable.app/patents/US-9854193","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9854193","json":"https://patentable.app/api/llm-context/US-9854193","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-30T05:07:51.989Z"}