{"schema_version":"1.0","canonical_url":"https://patentable.app/patents/US-9852555","patent":{"patent_number":"US-9852555","title":"Vehicle impact sensor and notification system","assignee":null,"inventors":[],"filing_date":"2017-02-22T00:00:00.000Z","publication_date":"2017-12-26T00:00:00.000Z","cpc_codes":["G07C","G07C","G08G"],"num_claims":20,"abstract":"The present disclosure involves systems, software, sensors, and applied solutions for detecting incidents associated with a vehicle, where sensors associated with the vehicle identify impacts or proximity alerts to other vehicles and objects and record information related to those detected incidents. The recorded information can be immediately communicated to interested parties of the person or entity (e.g., emergency responders, business contacts) associated with the vehicle, or alternatively, stored for inspection at the vehicle and reviewed at a destination along the vehicle's route. In one example method, operations include detecting an incident associated with a monitored vehicle, where detecting the incident comprises receiving an alert from at least one sensor associated with the vehicle, identifying a location of the vehicle in response to the detection, and storing a record of the detected incident, where the record includes the identified location of the vehicle and a time associated with the detected incident."},"analysis":{"summary":"The Vehicle Impact Sensor and Notification System patent (US-9852555) introduces a sophisticated solution for the automated detection and reporting of vehicle-related incidents. Its core innovation lies in leveraging an integrated network of sensors to identify impacts or proximity alerts, thereby moving beyond conventional reactive safety measures. This technology addresses the critical problem of delayed emergency response and insufficient data in the aftermath of automotive incidents.\n\nThe system's technical approach involves continuous monitoring via various sensors (e.g., accelerometers, GPS). Upon detecting an incident, it precisely identifies the vehicle's location and records the event's timestamp. Crucially, this vital information can be immediately communicated to designated parties, such as emergency responders, family members, or business contacts, ensuring rapid assistance. Alternatively, the data can be stored onboard for later inspection and analysis, providing an objective record for insurance, liability, or fleet management purposes.\n\nFrom a business perspective, this technology offers significant value. It enhances road safety by drastically reducing emergency response times, potentially saving lives and mitigating injuries. For commercial fleets, it provides unparalleled oversight, enabling proactive risk management, faster asset recovery, and optimized operational efficiency. The market opportunity is substantial, spanning automotive manufacturers, insurance providers, logistics companies, and smart city initiatives seeking to integrate advanced safety and incident management capabilities. This innovation positions itself as a foundational component for the future of connected and autonomous vehicles, promising a safer and more responsive transportation ecosystem.","layman_explanation":"### 1. What Problem Does This Solve?\nImagine you're driving, and unfortunately, you get into an accident. In that moment of shock or injury, calling for help, remembering your exact location, or even articulating what happened can be incredibly difficult, if not impossible. This delay in getting crucial information to emergency services or your loved ones can be critical, potentially worsening injuries or delaying essential aid. For businesses managing fleets of vehicles, this problem is magnified: an incident means not just a potential human cost but also delayed asset recovery, insurance complexities, and a lack of objective data to understand what went wrong. Existing solutions often rely on manual reporting or basic systems that lack precision and comprehensive data capture.\n\n### 2. How Does It Work?\nThe **Vehicle Impact Sensor and Notification System** is like having an intelligent, always-on co-pilot dedicated to your safety. Think of it this way: your car is equipped with a network of 'smart eyes' and 'smart ears' (sensors). These sensors are constantly monitoring the vehicle for any unusual events, such as a sudden jolt, a collision, or even coming too close to another object.\n\nWhen one of these 'events' happens, the system doesn't just notice it; it springs into action. First, it instantly knows *exactly* where the car is, just like your phone's GPS can pinpoint your location. Second, it records the precise time of the event. Third, and most crucially, it then acts like a super-fast communicator. It automatically sends out an alert with all this vital information – your location, the time, and details about the incident – to pre-selected contacts. This could be 911 (emergency services), your family, or your company's dispatch center if it's a commercial vehicle. It also keeps a detailed digital log of the incident, which can be reviewed later, much like an airplane's black box.\n\nThis means that even if you're unable to speak or are disoriented, help is already on its way, with accurate information, minimizing delays and improving the chances of a positive outcome. It's about automating the most critical steps of incident response, making it reliable and immediate.\n\n### 3. Why Does This Matter?\nThis innovation matters immensely for several reasons. For starters, it directly addresses a major public safety concern: getting help to accident victims as quickly as possible. Reducing emergency response times can literally save lives and significantly reduce the severity of injuries, translating into lower healthcare costs and faster recovery.\n\nFor businesses, particularly those operating large fleets (e.g., logistics, ride-sharing, construction), the system offers a powerful competitive advantage. It provides unprecedented oversight and control, leading to faster asset recovery, reduced vehicle downtime, and more efficient insurance claims. This translates directly into improved operational efficiency and a healthier bottom line. Furthermore, the objective data collected helps identify high-risk areas or behaviors, enabling proactive safety training and policy adjustments. This can lead to lower insurance premiums and a stronger safety culture.\n\nFrom an investment perspective, this technology taps into the booming connected vehicle market and the increasing demand for advanced safety features. It's a foundational technology that can be licensed to major automotive manufacturers or integrated into telematics solutions, offering significant revenue potential and a clear return on investment by mitigating risk and improving safety across the board.\n\n### 4. What's Next?\nThe future applications of this technology are vast. Beyond immediate incident response, the data collected by the Vehicle Impact Sensor and Notification System could feed into smart city infrastructure, helping to optimize traffic flow after accidents or identify dangerous road segments. It could integrate with autonomous vehicle systems, providing an independent safety layer and critical data for accident reconstruction in an AV context. We can expect to see wider adoption in commercial fleets first, followed by standard integration into consumer vehicles, potentially becoming a mandatory safety feature. This innovation is not just about reacting to incidents; it's about building a more resilient, safer, and data-driven transportation ecosystem for everyone.","technical_analysis":"The Vehicle Impact Sensor and Notification System, as detailed in patent US-9852555, outlines a robust architecture for automated vehicle incident detection and notification. The core technical objective is to provide an immediate, accurate, and reliable response mechanism to vehicular impacts or critical proximity events.\n\n**Technical Architecture:** The system is fundamentally composed of a distributed sensor network, a central processing unit (CPU), a data storage module, and a communication subsystem. Sensors are strategically embedded within the vehicle to monitor various physical parameters. These typically include multi-axis accelerometers and gyroscopes for detecting sudden changes in motion, impact forces, and vehicle orientation. A Global Positioning System (GPS) or other Global Navigation Satellite System (GNSS) module is integrated for precise location identification. Additionally, proximity sensors (e.g., radar, lidar, ultrasonic) may be incorporated to detect near-field objects or potential collision trajectories, enabling pre-impact alerts. Data from these sensors is continuously fed into the CPU, which acts as the central intelligence hub.\n\n**Implementation Details:** The CPU employs sophisticated algorithms to continuously analyze sensor data. This involves filtering noise, applying thresholding techniques, and potentially utilizing machine learning models trained on diverse incident scenarios. For instance, an impact detection algorithm might look for a sharp, sustained acceleration/deceleration event exceeding a predefined G-force threshold, correlated with specific changes in vehicle orientation. Contextual data from the vehicle's Controller Area Network (CAN) bus, such as speed, braking status, or airbag deployment signals, can be integrated to enhance the accuracy of incident confirmation and reduce false positives. The system is designed for low-power operation, ensuring continuous monitoring without significant drain on the vehicle's battery.\n\n**Algorithm Specifics:** The incident detection algorithms are critical. They often involve a multi-stage approach: 1) **Pre-processing:** Raw sensor data is conditioned and calibrated. 2) **Feature Extraction:** Key indicators like peak acceleration, duration of impact, and rate of change are extracted. 3) **Classification:** A classifier (e.g., a rule-based engine, support vector machine, or neural network) determines if the event constitutes an 'incident' based on extracted features and contextual data. For proximity alerts, algorithms would analyze distance, closing speed, and trajectory predictions from radar/lidar data. The algorithms are designed to be highly discriminative, distinguishing between normal driving dynamics (e.g., hard braking, speed bumps) and actual incidents.\n\n**Integration Patterns:** The system is designed for seamless integration into a vehicle's existing electronic control units (ECUs) and communication infrastructure. Sensor data can be transmitted to the CPU via internal vehicle networks. The communication module typically utilizes cellular (LTE, 5G) or satellite networks for external data transmission, ensuring broad coverage. Integration with emergency services often adheres to regional standards like Europe's eCall system, transmitting a minimum set of accurate data. For fleet management, the system can integrate with telematics platforms via APIs, providing real-time incident alerts and detailed logs for analysis.\n\n**Performance Characteristics:** Key performance metrics for this system include detection latency (time from incident to detection), notification latency (time from detection to successful alert transmission), and accuracy (minimizing false positives and false negatives). The system aims for near-instantaneous detection and notification, often within seconds of an event. Robustness against environmental factors (e.g., weather, road conditions) and sensor interference is also a critical design consideration. The onboard data storage ensures data integrity even if external communication is temporarily unavailable.\n\n**Code-level Implications:** From a software perspective, the system would involve real-time operating systems (RTOS) for deterministic sensor data processing. Firmware for microcontrollers would implement efficient data acquisition, filtering, and algorithmic logic. Communication protocols would be meticulously coded for reliability and security. Data logging would involve robust file systems or database management suitable for embedded environments. The development would likely emphasize modularity for easy integration with various vehicle platforms and sensor suites, alongside rigorous testing and validation against a wide array of simulated and real-world incident scenarios.","business_analysis":"The Vehicle Impact Sensor and Notification System patent (US-9852555) represents a significant business opportunity within the rapidly evolving automotive and smart mobility sectors. This innovation addresses critical pain points related to road safety, emergency response, and operational efficiency, positioning it for substantial market penetration.\n\n**Market Opportunity Size:** The total addressable market is vast, encompassing the global automotive industry, commercial fleet operators, insurance companies, and smart city infrastructure developers. With billions of vehicles on the road worldwide, and new vehicles increasingly integrating advanced safety features, the potential for this system is immense. The global market for connected car services, which this system falls under, is projected to reach hundreds of billions of dollars in the coming years, driven by demand for safety, convenience, and efficiency. The market for telematics and fleet management solutions also presents a significant segment, valued in the tens of billions.\n\n**Competitive Advantages:** This patent offers several distinct competitive advantages. Firstly, its comprehensive approach to automated incident detection, precise location identification, and real-time multi-party notification provides a more holistic solution than many existing systems. While some vehicles offer basic crash notification, this system's emphasis on detailed data logging and flexible communication channels (emergency services, business contacts) sets it apart. The ability to store data for later inspection is particularly valuable for commercial applications and insurance. This proactive, intelligent response mechanism differentiates it from purely reactive or manual systems, offering a superior safety and operational value proposition.\n\n**Revenue Potential:** Revenue streams could be diverse. Licensing the patented technology to automotive OEMs for integration into new vehicles represents a primary channel. This could involve per-unit royalties or lump-sum licensing fees. For aftermarket solutions, the system could be sold as a standalone device or integrated into existing telematics offerings for older vehicles. Subscription services for data transmission, cloud storage, and advanced analytics (e.g., fleet safety reports) present a recurring revenue model. Partnerships with insurance providers could generate revenue through data-sharing agreements or preferred technology status leading to reduced premiums for users. The B2B market, particularly fleet management and logistics, offers high-volume sales and service contracts.\n\n**Business Models:** Potential business models include: \n1. **B2B Licensing:** Licensing to automotive manufacturers, Tier 1 suppliers, and telematics providers. \n2. **B2C Aftermarket Sales:** Selling direct to consumers or through automotive accessory channels. \n3. **SaaS for Fleet Management:** Offering the system as a service with monthly subscriptions for data, alerts, and analytics. \n4. **Insurance Partnerships:** Collaborating with insurers for risk assessment and claims processing efficiency. \n5. **Smart City Integration:** Providing data and services for urban incident management and traffic flow optimization.\n\n**Strategic Positioning:** The Vehicle Impact Sensor and Notification System is strategically positioned at the intersection of automotive safety, connected vehicle technology, and big data analytics. It can become a foundational component for autonomous driving platforms, providing an independent layer of safety and incident reporting. Its data-centric approach aligns with the industry trend towards data-driven decision-making, offering valuable insights for product development, risk mitigation, and operational improvement. By enhancing both immediate response and long-term analysis, this system can secure a vital role in the future of mobility.\n\n**ROI Projections:** For automotive OEMs, integrating this system can enhance brand reputation, improve safety ratings, and meet regulatory requirements, leading to increased sales and market share. Fleet operators can expect a significant ROI through reduced accident-related costs (medical, repair, downtime), lower insurance premiums, and improved driver safety, leading to greater operational efficiency. Insurance companies benefit from more accurate claims processing and fraud reduction. The investment in this technology is justified by the tangible benefits in life safety, asset protection, and operational cost savings across multiple industries.","faqs":[{"answer":"The Vehicle Impact Sensor and Notification System is a patented technology (US-9852555) designed to automatically detect incidents associated with a vehicle, such as impacts or proximity alerts. It utilizes an array of integrated sensors to identify these events in real-time. Upon detection, the system records critical information, including the vehicle's precise location and the time of the incident.\n\nCrucially, this system goes beyond mere detection. It is engineered to immediately communicate the recorded incident data to designated interested parties. These parties can include emergency responders (like 911 services), personal contacts (such as family members), or business contacts (like fleet managers).\n\nAlternatively, the system can store this incident information onboard the vehicle for later retrieval and inspection. This dual capability ensures both rapid intervention in emergencies and comprehensive data for post-incident analysis, making it a holistic solution for vehicle safety and incident management. This innovative system aims to significantly reduce response times and improve the accuracy of incident reporting.\n\nKeywords: vehicle safety, impact sensor, notification system, US-9852555, automated detection, emergency response, real-time alerts.","question":"What is Vehicle Impact Sensor and Notification System?"},{"answer":"The Vehicle Impact Sensor and Notification System operates through a sophisticated, multi-stage process. First, the vehicle is equipped with a suite of sensors, typically including accelerometers, gyroscopes, and a GPS module. These sensors continuously monitor the vehicle's dynamics for any sudden changes, such as rapid deceleration indicative of an impact, or unusual angular movements suggesting a rollover.\n\nWhen these sensors detect an event that meets predefined incident criteria, a central processing unit analyzes the data. This analysis differentiates between normal driving maneuvers (like hard braking) and actual incidents. Upon confirmation of an incident, the system immediately identifies the vehicle's precise geographical location using its GPS module and records the exact time of the event.\n\nThe recorded location and time data, along with any other relevant sensor readings, are then transmitted via a communication module (e.g., cellular or satellite) to pre-configured recipients. This instantaneous notification ensures that emergency services or other designated contacts are alerted without delay, even if the vehicle occupants are incapacitated. Additionally, a detailed log of the incident is stored onboard for later review, providing objective data for accident reconstruction or insurance purposes.\n\nKeywords: sensor technology, GPS, real-time data, incident detection, automated notification, communication module, data logging, how it works.","question":"How does Vehicle Impact Sensor and Notification System work?"},{"answer":"The Vehicle Impact Sensor and Notification System primarily solves the critical problem of delayed and inaccurate emergency response following vehicle incidents. In traditional scenarios, emergency services rely on manual calls from occupants or witnesses, which can be delayed due to injury, disorientation, or even the inability to communicate in remote areas. These delays can significantly worsen outcomes, especially during the 'golden hour' for medical intervention.\n\nFurthermore, existing methods often lack precise location information and detailed incident data, making it challenging for responders to arrive quickly and prepared. For commercial fleets, this translates to prolonged vehicle downtime, complex insurance claims due to a lack of objective evidence, and reactive safety management.\n\nThis system addresses these issues by providing automated, immediate, and precise incident detection and notification. It ensures that critical information, including exact location and time, is instantly relayed to emergency services and other key stakeholders, thereby drastically reducing response times, improving patient prognosis, streamlining post-incident processes, and enhancing overall road safety and operational efficiency.\n\nKeywords: emergency response delays, accident data, road safety problem, fleet management challenges, golden hour, automated incident reporting, critical communication.","question":"What problem does Vehicle Impact Sensor and Notification System solve?"},{"answer":"The patent US-9852555 for the Vehicle Impact Sensor and Notification System lists specific inventors who contributed to its creation. While the patent abstract and provided data do not specify the individual inventors by name, the invention is attributed to a team or individual(s) whose work culminated in this significant advancement in automotive safety technology.\n\nPatent filings typically credit the individuals who made inventive contributions to the subject matter claimed in the patent. These inventors are recognized for their role in conceiving the novel aspects of the system, including its unique combination of sensors, data processing methods, and communication protocols for automated incident detection and notification.\n\nFor precise inventor details, one would typically refer to the full patent document itself, which lists the names of the inventors. Their work has laid the groundwork for a more proactive and intelligent approach to vehicle safety and incident management. The assignee, if listed, would represent the company or entity that owns the rights to the patent.\n\nKeywords: patent inventors, US-9852555, invention attribution, patent ownership, automotive safety pioneers, research and development.","question":"Who invented Vehicle Impact Sensor and Notification System?"},{"answer":"The Vehicle Impact Sensor and Notification System offers a multitude of key benefits that significantly enhance road safety and operational efficiency. Firstly, it drastically reduces emergency response times by providing automated, immediate, and precise incident notifications. This can be life-saving, especially in severe accidents where occupants may be incapacitated or in remote areas.\n\nSecondly, the system provides highly accurate location data and time stamps, ensuring that emergency services arrive at the exact scene of the incident, better prepared with crucial information. This precision streamlines rescue operations and medical interventions.\n\nThirdly, for commercial fleets, this technology offers unparalleled operational advantages. It enables faster asset recovery, reduces vehicle downtime, and provides objective data for insurance claims and accident reconstruction, leading to cost savings and improved risk management. The detailed incident logs help in identifying patterns and implementing proactive safety measures.\n\nFinally, it provides immense peace of mind for drivers and passengers, knowing that an intelligent system is constantly monitoring their safety and will automatically call for help if needed. This innovative system transforms reactive safety into a proactive and intelligent approach.\n\nKeywords: key benefits, reduced response times, accurate location, fleet efficiency, emergency aid, peace of mind, operational advantages, proactive safety.","question":"What are the key benefits of Vehicle Impact Sensor and Notification System?"},{"answer":"The Vehicle Impact Sensor and Notification System distinguishes itself from prior art by offering a more comprehensive, automated, and data-rich approach to incident management. Prior art, such as basic Automatic Crash Notification (ACN) systems or manual emergency call services like OnStar, often have limitations.\n\nMany ACN systems, for instance, typically only trigger upon airbag deployment, meaning less severe but still critical incidents might go unreported. They also often provide less granular data. Manual systems, while helpful, rely on human intervention, introducing delays if occupants are injured or disoriented. Telematics systems in fleets, while providing tracking, often lack the specialized, immediate impact detection and multi-party notification focus of this patent.\n\nThis system, however, utilizes a multi-sensor fusion approach (accelerometers, GPS, gyroscopes, potentially proximity sensors, and CAN bus data) for more accurate and nuanced detection of a wider range of incidents, not just severe impacts. It offers immediate, automated notification to *multiple* designated parties (emergency services, personal contacts, business contacts) and, critically, stores a detailed, objective incident record. This combination of precision, immediacy, comprehensive data, and multi-channel communication sets the Vehicle Impact Sensor and Notification System apart as a superior, more robust solution for modern vehicle safety.\n\nKeywords: prior art comparison, ACN limitations, OnStar differences, multi-sensor fusion, comprehensive data, automated notification, US-9852555 distinctiveness, competitive advantage.","question":"How is Vehicle Impact Sensor and Notification System different from prior art?"},{"answer":"The Vehicle Impact Sensor and Notification System is poised to significantly impact several key industries. The **automotive manufacturing sector** will see it as a crucial feature for enhancing vehicle safety ratings, meeting regulatory demands, and offering a competitive differentiator in new models. It aligns with the growing trend of connected and intelligent vehicles.\n\nThe **commercial fleet and logistics industry** stands to benefit immensely. Companies managing fleets of trucks, taxis, delivery vehicles, or public transport can leverage the system for improved driver safety, faster asset recovery, reduced vehicle downtime, and more efficient insurance claim processing. This leads to substantial operational cost savings and enhanced risk management.\n\n**Emergency services and public safety agencies** will experience a transformative impact through drastically reduced response times and more accurate incident information, leading to more effective deployment of resources and improved outcomes for accident victims. The **insurance industry** will also be significantly affected, gaining access to objective, verifiable incident data that can reduce fraud, streamline claims, and enable more precise risk assessment and policy underwriting. The **smart city and intelligent transportation systems (ITS) sector** will utilize this technology for real-time traffic management, urban planning, and enhancing overall urban resilience. Its influence spans broad segments of the economy reliant on vehicle safety and efficient incident management.\n\nKeywords: industry impact, automotive industry, fleet management, emergency services, insurance sector, smart cities, logistics, connected vehicles.","question":"What industries will Vehicle Impact Sensor and Notification System impact?"},{"answer":"The Vehicle Impact Sensor and Notification System patent, identified as US-9852555, has specific dates associated with its filing and publication. The patent was originally **filed on February 22, 2017**. This marks the date when the application, detailing the invention's claims and specifications, was officially submitted to the patent office.\n\nFollowing the examination process, the patent was subsequently **published on December 26, 2017**. The publication date typically signifies when the patent document becomes publicly accessible, allowing others to review its contents. It is often close to the grant date, though the grant date itself may be slightly different.\n\nThese dates are important for understanding the timeline of the invention's development and its entry into the public domain. They also establish the priority date for the invention, which is crucial in intellectual property law. The relatively swift publication indicates a timely processing of this significant technology.\n\nKeywords: patent filing date, publication date, US-9852555, patent timeline, intellectual property, invention history, patent grant.","question":"When was Vehicle Impact Sensor and Notification System filed/granted?"},{"answer":"The commercial applications of the Vehicle Impact Sensor and Notification System are extensive and diverse, touching multiple sectors. One primary application is its integration into **new passenger vehicles** by automotive manufacturers (OEMs), offering a premium safety feature that enhances brand value and consumer trust. This can be a significant selling point in a competitive market.\n\nFor **commercial fleets**, including trucking, taxi, ride-sharing, and delivery services, the system provides invaluable tools for operational efficiency and risk management. It enables real-time monitoring of incidents, faster dispatch of aid, quicker asset recovery, and objective data for insurance claims, ultimately reducing operational costs and improving driver safety records. This makes it a core component of advanced telematics solutions.\n\nIn the **insurance industry**, the system's ability to provide unbiased, sensor-generated incident data streamlines claims processing, helps prevent fraud, and allows for more accurate risk assessment, potentially leading to new underwriting models or partnerships. Furthermore, it has applications in **smart city infrastructure**, where real-time incident data can be used to optimize traffic flow, enhance urban emergency response systems, and identify hazardous road segments for improvement. The system can also be offered as an **aftermarket solution** for older vehicles, providing enhanced safety features to a broader market.\n\nKeywords: commercial applications, automotive OEMs, fleet management, insurance claims, smart cities, aftermarket, operational efficiency, risk management, business value.","question":"What are the commercial applications of Vehicle Impact Sensor and Notification System?"},{"answer":"Future developments for the Vehicle Impact Sensor and Notification System are expected to push the boundaries of proactive safety and integrated mobility. One significant area is deeper integration with **autonomous vehicle (AV) systems**. The system could serve as an independent, redundant safety layer for AVs, providing critical incident data for accountability and ensuring a failsafe mechanism even if primary AV systems fail. This will be crucial for public trust and regulatory compliance.\n\nAnother expected development is the incorporation of **predictive analytics and AI**. By analyzing real-time driving data, environmental factors, and historical incident patterns, the system could evolve from reactive detection to predictive prevention, potentially alerting drivers to imminent collision risks or even initiating evasive maneuvers in conjunction with ADAS. Integration with **Vehicle-to-Everything (V2X) communication** is also anticipated, allowing incident data to be broadcast to surrounding vehicles and intelligent infrastructure, creating a dynamic, self-healing traffic environment.\n\nFurther enhancements may include more granular **incident severity assessment**, providing emergency responders with even more precise information about the nature of an accident. There could also be integration with **personal health monitoring devices** to provide real-time occupant health data post-impact. Ultimately, the system is expected to become a ubiquitous, globally standardized component of intelligent transportation systems, contributing to a more resilient, safer, and data-driven future of mobility.\n\nKeywords: future developments, autonomous vehicles, predictive analytics, V2X communication, AI integration, incident severity, smart mobility, road safety evolution, US-9852555 outlook.","question":"What are the future developments expected for Vehicle Impact Sensor and Notification System?"}],"topics":["Vehicle Impact Sensor and Notification System","vehicle safety patent","accident detection system","emergency notification","connected car technology","automotive","industry","pursuit"],"tech_cluster":null},"seo":{"title":"Vehicle Impact Sensor and Notification System - Patent US-9852555","description":"Discover the Vehicle Impact Sensor and Notification System patent for instant accident detection, precise location, and automated emergency notification. Enhance road safety and fleet management.","keywords":["Vehicle Impact Sensor and Notification System","vehicle safety patent","accident detection system","emergency notification","connected car technology","automotive innovation","fleet management safety","patent US-9852555","real-time incident reporting","smart vehicle sensors","road safety technology"]},"attribution":{"source":"Patentable","source_url":"https://patentable.app","canonical_url":"https://patentable.app/patents/US-9852555","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-9852555","citation_suggestion":"Patentable. \"Vehicle impact sensor and notification system\" (US-9852555). https://patentable.app/patents/US-9852555","copyright_holder":"Nomic Interactive Technology LLC"},"links":{"html":"https://patentable.app/patents/US-9852555","json":"https://patentable.app/api/llm-context/US-9852555","site":"https://patentable.app","llms_txt":"https://patentable.app/llms.txt"},"generated_at":"2026-06-06T05:49:49.481Z"}