{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9854656","patent":{"patent_number":"US-9854656","title":"Detection of X-ray radiation","assignee":null,"inventors":[],"filing_date":"2014-09-04T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["A61B","A61B","G01N"],"num_claims":20,"abstract":"An X-ray detector is disclosed, including a detection unit to generate a detection signal for incident X-ray radiation; a signal analysis module to determine a set of count rates for incident X-ray radiation based upon the detection signal and signal analysis parameters for X-ray radiation; and a switchover control unit for switching between first signal analysis parameters and second signal analysis parameters. When an amount of X-ray radiation is incident on the detection module, a first set of count rates is generated for a first time interval based upon first signal analysis parameters and a second set of count rates is generated for a second time interval based upon second signal analysis parameters, different from the first signal analysis parameters. An X-ray imaging system including the detector; a method for determining count rates for X-ray radiation; and a method for calibrating signal analysis parameters are also disclosed."},"analysis":{"summary":"The Detection of X-ray Radiation patent introduces an innovative X-ray detector designed to enhance sensitivity and precision while minimizing radiation exposure. The core innovation lies in a dynamic signal analysis system that adjusts signal analysis parameters based on the amount of incident X-ray radiation. This is achieved through a detection unit, a signal analysis module, and a switchover control unit.\n\nThe problem being solved is the inherent trade-off between image quality and radiation exposure in traditional X-ray detectors. Existing detectors often struggle to provide sufficient image quality at lower radiation doses, leading to potential diagnostic errors and increased patient risk. The technology addresses these challenges by introducing a novel approach to signal analysis and switchover control.\n\nThe key technical approach involves a switchover control unit that switches between first and second signal analysis parameters, optimizing performance in both low-dose and high-dose scenarios. The signal analysis module determines a set of count rates for incident X-ray radiation based upon the detection signal and the selected signal analysis parameters. This allows for more accurate and detailed images, particularly at lower radiation doses.\n\nThe business value and applications of this patent are significant. It can improve diagnostic accuracy, reduce radiation exposure, and enhance patient outcomes in medical imaging. The technology can also be applied in industrial and security settings, where X-ray detection is used for non-destructive testing and threat detection. The market opportunity is substantial, as the demand for more advanced imaging technologies continues to grow.\n\nThis innovation represents a significant step forward in X-ray detection technology, paving the way for more advanced and effective imaging solutions. Its ability to dynamically adjust to varying radiation levels, improve diagnostic accuracy, and reduce radiation exposure makes it a valuable asset in a wide range of applications. Further development and adoption of this technology will undoubtedly lead to improved outcomes in healthcare, industry, and security.","layman_explanation":"The Detection of X-ray Radiation patent addresses a fundamental challenge in medical imaging: achieving high-quality X-ray images while minimizing patient exposure to harmful radiation.\n\n**What Problem Does This Solve?**\nX-ray imaging is a crucial diagnostic tool, but it involves exposing patients to ionizing radiation. While the benefits of accurate diagnosis often outweigh the risks, minimizing radiation exposure is always a priority. Traditional X-ray systems often require a trade-off: higher radiation doses for clearer images, or lower doses with potentially compromised image quality. This patent aims to break that trade-off.\n\n**How Does It Work?**\nImagine a camera that automatically adjusts its settings based on the lighting conditions. In bright sunlight, it reduces the exposure to prevent overexposure. In dim light, it increases the exposure to capture more detail. This patent works similarly. It's a system that dynamically adjusts the way X-ray signals are analyzed based on the amount of radiation being used. It has a 'switchover' mechanism that selects the best settings for both low and high radiation levels. This allows the system to capture clear images even with lower radiation doses.\n\n**Why Does This Matter?**\nThis innovation has significant implications for the healthcare industry. It allows doctors to obtain more accurate diagnoses while reducing the risk of radiation-induced side effects for patients. This can lead to earlier detection of diseases, more effective treatment interventions, and improved patient outcomes. The technology can also be applied in industrial and security settings, where X-ray detection is used for non-destructive testing and threat detection.\n\n**What's Next?**\nThe Detection of X-ray Radiation technology is poised to play a significant role in shaping the future of X-ray detection. Further development and adoption of this technology will likely lead to even more advanced imaging solutions with improved diagnostic accuracy and reduced radiation exposure. This could pave the way for new applications of X-ray technology in various fields.","technical_analysis":"The Detection of X-ray Radiation patent presents a sophisticated approach to enhancing X-ray detection by dynamically adjusting signal analysis parameters. The system architecture comprises a detection unit, a signal analysis module, and a switchover control unit. The detection unit generates a signal in response to incident X-ray radiation. The signal analysis module then processes this signal to determine count rates, crucial for image reconstruction. The core innovation is the switchover control unit, which selects between different sets of signal analysis parameters depending on the intensity of the incident radiation.\n\nImplementation details involve sophisticated algorithms for signal processing and control logic for the switchover unit. The algorithm specifics for signal analysis are not explicitly detailed in the abstract but would likely involve techniques such as noise reduction, background subtraction, and edge enhancement. The switchover control unit would require a thresholding mechanism to determine when to switch between parameter sets, optimizing for low-dose and high-dose scenarios.\n\nIntegration patterns would involve seamless incorporation into existing X-ray imaging systems. This could be achieved through software updates or hardware modifications. Performance characteristics would be evaluated based on metrics such as signal-to-noise ratio (SNR), spatial resolution, and radiation dose reduction. Code-level implications would involve developing efficient algorithms for signal processing and implementing robust control logic for the switchover unit.\n\nFrom a technical perspective, this patent offers a promising approach to improving X-ray detection. The dynamic adjustment of signal analysis parameters has the potential to significantly enhance image quality while minimizing radiation exposure. This could lead to more accurate diagnoses and improved patient outcomes. Further research and development in this area are warranted to explore the full potential of this technology.","business_analysis":"The Detection of X-ray Radiation patent presents a compelling business opportunity in the medical imaging market. The market opportunity size is substantial, as the demand for more advanced imaging technologies continues to grow. The global medical imaging market is projected to reach billions of dollars in the coming years, driven by factors such as an aging population, increasing prevalence of chronic diseases, and technological advancements.\n\nThe competitive advantages of this technology include improved diagnostic accuracy, reduced radiation exposure, and enhanced patient outcomes. These advantages can translate into increased market share and revenue potential for companies that adopt this technology. The business models that can be employed include licensing the technology to medical device manufacturers, developing and selling X-ray imaging systems incorporating the technology, and providing imaging services using the technology.\n\nThe strategic positioning of this technology is strong, as it addresses a critical need in the medical imaging market: the trade-off between image quality and radiation exposure. By providing a solution that improves both image quality and reduces radiation exposure, this technology can capture a significant share of the market.\n\nROI projections for this technology are favorable, as the improved diagnostic accuracy and reduced radiation exposure can lead to cost savings for healthcare providers. The increased market share and revenue potential can also generate significant returns for investors. Overall, the Detection of X-ray Radiation patent presents a promising business opportunity with substantial market potential and favorable ROI projections.","faqs":null,"topics":["X-ray detection","medical imaging","radiation exposure","signal analysis","diagnostic accuracy","detection","radiation","patent"],"tech_cluster":null},"seo":{"title":"Detection of X-ray Radiation - Enhanced Imaging Patent","description":"Discover the Detection of X-ray Radiation patent: improved X-ray detection with dynamic signal analysis for clearer images & reduced radiation exposure.","keywords":["X-ray detection","medical imaging","radiation exposure","signal analysis","diagnostic accuracy","imaging technology","patent","patent US-9854656"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9854656","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-9854656","citation_suggestion":"Patentable. \"Detection of X-ray radiation\" (US-9854656). https://patentable.app/patents/US-9854656","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9854656","json":"https://patentable.app/api/llm-context/US-9854656","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-05-31T23:10:23.919Z"}