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公开(公告)号:US10988960B1
公开(公告)日:2021-04-27
申请号:US16996879
申请日:2020-08-18
Inventor: Leo N. Chan , Kristopher Keith Gaudin , Roxane Lyons , William J. Leise , John A. Nepomuceno , Rajiv C. Shah , Edward P. Matesevac, III , Jennifer Criswell Kellett , Steven C. Cielocha , Jeremy Myers , Matthew S. Megyese , Jennifer L. Crawford
Abstract: An automatic alarm system for a vehicle includes a sensor adapted to detect electromagnetic data, a computer system, and an automatic alarm mechanism. The computer system receives data from the sensor. A computer processor compares the electromagnetic data detected by the sensor with known patterns of electromagnetic data emitted by emergency vehicles that are stored in a library. The automatic alarm mechanism activates in response to the processor determining that the comparison matches a known pattern of electromagnetic data for an emergency vehicle resulting in the computer processor sending a first signal to activate an alarm of the vehicle.
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公开(公告)号:US10818113B1
公开(公告)日:2020-10-27
申请号:US16665719
申请日:2019-10-28
Inventor: John A. Nepomuceno , Leo Chan , Steven C. Cielocha , Roxane Lyons , Matthew S. Megyese , William J. Leise , Jennifer Criswell Kellett , Kristopher Keith Gaudin , Jennifer L. Crawford , Jeremy Myers , Edward P. Matesevac, III , Rajiv C. Shah
IPC: E05B77/54 , B60Q1/52 , G07C9/00 , B60Q9/00 , G01S13/931 , G08G1/0965 , G08G1/16 , E05B81/64 , B60R25/10 , G01S13/93
Abstract: Systems and methods for providing awareness of emergency vehicles are provided. Sensors located around a vehicle may detect moving objects that pose potentially dangerous situations for the vehicle occupants and for the object. This can cause the doors to lock automatically in order to make the situation safer. Additionally, electromagnetic radiation sensors located around the vehicle may detect the lights and sounds of emergency vehicles. If the electromagnetic data from the electromagnetic radiation sensors match a known pattern of electromagnetic data emitted by emergency vehicles stored in a library an alarm may be sounded through the speakers of the vehicle in order to alert the vehicle occupants of an emergency vehicle in the vicinity.
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公开(公告)号:US10584518B1
公开(公告)日:2020-03-10
申请号:US16288602
申请日:2019-02-28
Inventor: Leo Chan , Kristopher Keith Gaudin , Roxane Lyons , William J. Leise , John A. Nepomuceno , Rajiv C. Shah , Edward P. Matesevac, III , Jennifer Criswell Kellett , Steven C. Cielocha , Jeremy Myers , Matthew S. Megyese , Jennifer L. Crawford
Abstract: An automatic alarm system for a vehicle includes a sensor adapted to detect electromagnetic data, a computer system, and an automatic alarm mechanism. The computer system receives data from the sensor. A computer process analyzes the data from the sensor to determine whether a pattern from the electromagnetic data has been detected, accesses a library of known patterns of electromagnetic data emitted by emergency vehicles, and compares the pattern of electromagnetic data detected by the sensor with the known patterns of electromagnetic data emitted by emergency vehicles that are stored in the library. The automatic alarm mechanism activates in response to the processor determining that the comparison matches a known pattern of electromagnetic data for an emergency vehicle resulting in the computer processor sending a first signal to activate an alarm.
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公开(公告)号:US10403150B1
公开(公告)日:2019-09-03
申请号:US16223578
申请日:2018-12-18
Inventor: John A. Nepomuceno , Leo Chan , Steven C. Cielocha , Roxane Lyons , Matthew S. Megyese , William J. Leise , Jennifer Criswell Kellett , Kristopher Keith Gaudin , Jennifer L. Crawford , Jeremy Myers , Edward P. Matesevac, III , Rajiv C. Shah
Abstract: Systems and methods are disclosed for identifying high risk parking lots. High risk parking lots may be, for example, parking lots that pose a higher than average risk of collisions and/or theft. Auto insurance claim data may be analyzed to identify hazardous areas. A virtual navigation of roads within the hazardous area may be identified. Public parking lots within the virtual navigation map may be defined, with each public parking lot determined as either in a hazardous area or not. A vehicle may be determined to be approaching or parking in a parking lot in a hazardous area, and a nearby public parking lot not associated with the hazardous area may be selected instead. A route from a current position to the nearby public parking lot may be generated, and the vehicle may be routed to the nearby public parking lot. As a result, collisions and thefts may be reduced.
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公开(公告)号:US10222228B1
公开(公告)日:2019-03-05
申请号:US15482512
申请日:2017-04-07
Inventor: Leo Nelson Chan , Kristopher Keith Gaudin , Roxane Lyons , William J. Leise , John A. Nepomuceno , Rajiv C. Shah , Edward P. Matesevac, III , Jennifer Criswell Kellett , Steven C. Cielocha , Jeremy Myers , Matthew S. Megyese , Jennifer L. Crawford
Abstract: Systems and methods are disclosed for educating vehicle drivers. Auto insurance claim data may be analyzed to identify hazardous areas associated with an abnormally high amount or severity of vehicle collisions. A virtual navigation map of roads within the hazardous areas may be built or generated. A common cause of several vehicle collisions at a hazardous area may be identified, and a virtual reconstruction of a scenario involving the common cause and/or a road map of collisions locations of may be created. The virtual reconstruction of the scenario may be displayed on a driver education virtual simulator to enhance driver education and reduce the likelihood of vehicle collisions.
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Patent Agency Ranking
公开(公告)号:US11851041B1
公开(公告)日:2023-12-26
申请号:US15482470
申请日:2017-04-07
Inventor: Leo Nelson Chan , Kristopher Keith Gaudin , Roxane Lyons , William J. Leise , John A. Nepomuceno , Rajiv C. Shah , Edward P. Matesevac, III , Jennifer Criswell Kellett , Steven Cielocha , Jeremy Myers , Matthew S. Megyese , Jennifer L. Crawford
IPC: B60T8/172 , F16H59/66 , B60T8/1755 , G05D1/02 , B60T8/17 , B60W40/06 , B60W50/14 , G01W1/10 , G01N19/02 , G06T7/41
CPC classification number: B60T8/1725 , B60T8/1701 , B60T8/17558 , B60W40/06 , B60W50/14 , F16H59/66 , G01N19/02 , G01W1/10 , G05D1/0223 , G05D1/0246 , G06T7/41 , B60T2210/12 , B60W2555/20 , G06T2207/30252
Abstract: Systems and methods are disclosed for estimating slipperiness of a road surface. This estimate may be obtained using an image sensor mounted on a vehicle. The estimated road slipperiness may be utilized when calculating a risk index for the road, or for an area including the road. If a predetermined threshold for slipperiness is exceeded, corrective actions may be taken. For instance, warnings may be generated to human drivers that are in control of driving vehicle, and autonomous vehicles may automatically adjust vehicle speed based upon road slipperiness detected.
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公开(公告)号:US20230325936A1
公开(公告)日:2023-10-12
申请号:US18209258
申请日:2023-06-13
Inventor: John A. Nepomuceno , Rajiv C. Shah , Leo Nelson Chan , Steven Cielocha , Roxane Lyons , Matthew S. Megyese , William J. Leise , Jennifer Criswell Kellett , Kristopher Keith Gaudin , Jennifer L. Crawford , Jeremy Myers , Edward P. Matesevac, III
CPC classification number: G06Q40/08 , B60Q9/008 , G05D1/0214 , G05D1/0061 , G01C21/3697 , G05D1/0257 , G01S19/13
Abstract: Systems and methods relate to, inter alia, calculating a collision risk index for an area based upon historical traffic data. The systems and methods may further generate a notification to automatically engage or disengage an autonomous, or semi-autonomous, vehicle control feature in a vehicle based upon the collision risk index for the area. The systems and methods may further transmit the notification to a device of the vehicle to facilitate automatically engaging or disengaging an autonomous, or semi-autonomous, vehicle control feature in the vehicle as the vehicle approaches the area. As a result, vehicle collisions may be reduced, and vehicle safety enhanced.
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公开(公告)号:US20230042735A1
公开(公告)日:2023-02-09
申请号:US17966536
申请日:2022-10-14
Inventor: Kristopher Keith Gaudin , Roxane Lyons , William J. Leise , John A. Nepomuceno , Rajiv C. Shah , Edward P. Matesevac, III , Jennifer Criswell Kellett , Jeremy Myers , Matthew S. Megyese , Leo Nelson Chan , Steven Cielocha , Jennifer L. Crawford
IPC: B60T8/172 , G01N19/02 , G05D1/02 , G01W1/10 , B60W40/06 , B60T8/17 , G06T7/41 , B60W50/14 , F16H59/66 , B60T8/1755
Abstract: Systems and methods are disclosed for estimating slipperiness of a road surface. This estimate may be obtained using an image sensor mounted on a vehicle. The estimated road slipperiness may be utilized when calculating a risk index for the road, or for an area including the road. If a predetermined threshold for slipperiness is exceeded, corrective actions may be taken. For instance, warnings may be generated to human drivers that are in control of driving vehicle, and autonomous vehicles may automatically adjust vehicle speed based upon road slipperiness detected.
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公开(公告)号:US20210270620A1
公开(公告)日:2021-09-02
申请号:US15482309
申请日:2017-04-07
Inventor: John A. Nepomuceno , Rajiv C. Shah , Leo Nelson Chan , Steven Cielocha , Roxane Lyons , Matthew S. Megyese , William J. Leise , Jennifer Criswell Kellett , Kristopher Keith Gaudin , Jennifer L. Crawford , Jeremy Myers , Edward P. Matesevac, III
Abstract: Systems and methods relate to, inter alia, calculating a number of expected collisions in an area over a time period. The systems and methods may further determine a number of observed collisions in the area over the time period. The systems and methods may further calculate a risk index for the area based upon a comparison between the number of expected collisions and the number of observed collisions. The systems and methods may further generate a notification of a travel route for a vehicle based on the risk index.
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公开(公告)号:US10991181B1
公开(公告)日:2021-04-27
申请号:US17012933
申请日:2020-09-04
Inventor: John A. Nepomuceno , Leo N. Chan , Steven C. Cielocha , Roxane Lyons , Matthew S. Megyese , William J. Leise , Jennifer Criswell Kellett , Kristopher Keith Gaudin , Jennifer L. Crawford , Jeremy Myers , Edward P. Matesevac, III , Rajiv C. Shah
IPC: E05B77/54 , B60R25/10 , G07C9/00 , G08G1/16 , B60Q1/52 , G01S13/931 , B60Q9/00 , E05B81/64 , G08G1/0965
Abstract: Systems and methods for control systems for facilitating situational awareness of a vehicle are provided. Sensors located around a stationary vehicle may detect moving objects that pose potentially dangerous situations for the vehicle occupants and for the object. This can cause the doors to lock automatically in order to make the situation safer. Additionally, electromagnetic radiation sensors located around the vehicle may detect the lights and sounds of emergency vehicles. If the electromagnetic data from the electromagnetic radiation sensors match a known pattern of electromagnetic data emitted by emergency vehicles stored in a library an alarm may be sounded through the speakers of the vehicle in order to alert the vehicle occupants of an emergency vehicle in the vicinity.
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