Moisture sensor and/or defogger with Bayesian improvements, and related methods
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B60S-001/08
B60S-001/02
B60Q-001/14
B32B-017/10
G01D-005/24
출원번호
US-0543415
(2012-07-06)
등록번호
US-9371032
(2016-06-21)
발명자
/ 주소
Veerasamy, Vijayen S.
출원인 / 주소
Guardian Industries Corp.
대리인 / 주소
Nixon & Vanderhye P.C.
인용정보
피인용 횟수 :
1인용 특허 :
40
초록▼
In certain example embodiments, moisture sensors, defoggers, etc., and/or related methods, are provided. More particularly, certain example embodiments relate to moisture sensors and/or defoggers that may be used in various applications such as, for example, refrigerator/freezer merchandisers, vehic
In certain example embodiments, moisture sensors, defoggers, etc., and/or related methods, are provided. More particularly, certain example embodiments relate to moisture sensors and/or defoggers that may be used in various applications such as, for example, refrigerator/freezer merchandisers, vehicle windows, building windows, etc. When condensation or moisture is detected, an appropriate action may be taken (e.g., actuating windshield wipers, turning on a defroster, triggering the heating of a merchandiser door or window, etc.). Bayesian approaches optionally may be implemented in certain example embodiments in an attempt to improve moisture detection accuracy. For instance, models of various types of disturbances may be developed and, based on live data and a priori information known about the model, a probability of the model being accurate is calculated. If a threshold value is met, the model may be considered a match and, optionally, a corresponding appropriate action may be taken.
대표청구항▼
1. A method of detecting moisture on a glass substrate, the method comprising: providing a parameterized model (M) for a possible moisture-related disturbance;providing background information (I) concerning the model, I being known a priori;calculating a prior probability of M given I, P(M|I);collec
1. A method of detecting moisture on a glass substrate, the method comprising: providing a parameterized model (M) for a possible moisture-related disturbance;providing background information (I) concerning the model, I being known a priori;calculating a prior probability of M given I, P(M|I);collecting data from at least one sensor (D) connected to the substrate;computing a probability of the model given D and I, P(M|D,I);repeating the computing of P(M|D,I) as additional data is collected; andaccepting the model if P(M|D,I) meets or exceeds a predetermined threshold, and otherwise rejecting the model,wherein the glass substrate is a part of a vehicle window, building window, or merchandiser; andwherein acceptance of the model triggers an action to be taken relative to the glass substrate, the action being selected from the group consisting of: (i) causing a wiper to remove moisture from a vehicle window, (ii) heating the glass substrate, and (iii) defrosting the glass substrate. 2. The method of claim 1, wherein the at least one sensor is configured to sense disturbances in an electric field proximate the substrate for a given frame in time. 3. The method of claim 2, further comprising simplifying the data for each frame to point source disturbances having position and intensity values. 4. The method of claim 1, wherein D is proportional to the product of a prior probability distribution and a maximum likelihood distribution. 5. The method of claim 1, wherein P(M|D,I) is calculated as P(M|I)P(D|M,I)/P(D|I), where:P(M|I) is a prior distribution,P(D|M,I) is a likelihood function when considered as a function of M, andP(D|I) is evidence. 6. The method of claim 1, wherein the at least one sensor includes a capacitive sensor configured to measure a disturbance in the capacitive field set up by the sensor, the capacitive field having different detected intensities at different positions in the field. 7. The method of claim 1, wherein the at least one sensor includes a light sensor. 8. The method of claim 1, further comprising activating a heater if the model is accepted, so as to facilitate removal of condensation on the substrate. 9. A method of detecting moisture on a glass substrate, the method comprising: providing a plurality of parameterized models (Mx) for different possible disturbances;providing background information (Ix) concerning each of the models;calculating a prior probability of Mx given Ix, P(Mx|Ix);collecting data from at least one sensor (D) connected to the substrate;computing a probability of each said model given D and Ix, P(Mx|D,Ix);repeating the computing of P(Mx|D,Ix) as additional data is collected;comparing the probability of each said model to a predetermined threshold;accepting or rejecting each said model based on the comparing; andwhen a particular model is accepted, causing an action to be taken relative to the glass substrate in dependence on the particular model that is accepted, the action being selected from the group consisting of: (i) causing a wiper to remove moisture from a vehicle window, (ii) heating the glass substrate, (iii) defrosting the glass substrate, and (iv) turning on or off vehicle lights. 10. The method of claim 9, wherein parameterized models are provided for both moisture-related disturbances and non-moisture-related disturbances. 11. The method of claim 10, wherein the moisture-related disturbances include the presence of liquid condensation, frost, and ice. 12. The method of claim 10, wherein the non-moisture-related disturbances include EMI and human touch. 13. An electronic device located in close relative proximity to a glass substrate, the device comprising: a first memory location storing a plurality of parameterized models (Mx) for different possible disturbances;a second memory location storing background information (Ix) concerning each of the models;at least one sensor configured to collect data from at least one sensor (D) connected to the substrate; andat least one processor configured to: calculate a prior probability of Mx given Ix, P(Mx|Ix);compute a probability of each said model given D and Ix, P(Mx|D,Ix);repeat computations of P(Mx|D,Ix) as additional data is collected by the at least one sensor;compare the probability of each said model to a predetermined threshold; andaccept or reject each said model based on the comparison, wherein acceptance of a model triggers an action to be taken relative to the glass substrate, the action being selected from the group consisting of: (i) causing a wiper to remove moisture from a vehicle window, (ii) heating the glass substrate, (iii) defrosting the glass substrate, and (iv) turning on or off vehicle lights. 14. The device of claim 13, wherein parameterized models are stored for both moisture-related disturbances and non-moisture-related disturbances. 15. The device of claim 14, wherein: the moisture-related disturbances include the presence of liquid condensation, frost, and ice, andthe non-moisture-related disturbances include EMI and human touch. 16. A non-transitory computer readable storage medium tangibly storing instructions that, when executed by at least one processor, perform a method according to claim 1.
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