CN104848892A - Method and device for spectrum detection of user environment - Google Patents
Method and device for spectrum detection of user environment Download PDFInfo
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- 238000001228 spectrum Methods 0.000 title claims abstract description 42
- 238000000034 method Methods 0.000 title claims abstract description 34
- 238000001514 detection method Methods 0.000 title claims description 8
- 238000009877 rendering Methods 0.000 claims abstract description 44
- 238000005286 illumination Methods 0.000 claims abstract description 27
- 230000003595 spectral effect Effects 0.000 claims description 8
- 230000006870 function Effects 0.000 description 5
- 239000000843 powder Substances 0.000 description 4
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- 238000010586 diagram Methods 0.000 description 2
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Abstract
The embodiment of the invention discloses a method and a device for detecting user environment by spectrum, which are characterized in that ambient light information of the environment where a user is located is obtained by a light sensor, wherein the ambient light information at least comprises spectrum, color temperature, color rendering and/or illumination; according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment, whether the environment where the user is located is indoor or outdoor is judged, and therefore the indoor and outdoor positioning is achieved by utilizing the difference between the outdoor natural light and the indoor light.
Description
Technical Field
The embodiment of the invention relates to the technical field of mobile terminals, in particular to a method and a device for spectrum detection of user environment.
Background
At present, intelligence wearing equipment all possesses the locate function, for example children location wrist-watch can the current GPS of accurate location, LBS and WIFI etc. again. However, the positioning of the GPS must be performed outdoors, and the satellite signal cannot be received indoors, so that the GPS positioning cannot be realized, and the LBS or WIFI positioning mode is automatically switched to, but when the user goes outdoors, the user needs to switch to the outdoor GPS positioning in time, so that the user needs to be in an indoor or outdoor environment.
Disclosure of Invention
The embodiment of the invention aims to provide a method and a device for detecting a user environment by spectrum, aiming at solving the problem of accurately judging whether the environment where a user is located is indoor or outdoor.
To achieve the purpose, the embodiment of the invention adopts the following technical scheme:
a method of spectrally detecting a user environment, the method comprising:
acquiring ambient light information of an environment where a user is located through a light sensor, wherein the ambient light information at least comprises a spectrum, a color temperature, a color rendering property and/or an illumination;
and judging whether the environment where the user is located is indoor or outdoor according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment.
Preferably, the determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the ambient light information of the outdoor environment includes:
if the detected light of each wave band of the spectrum is uniform and the ultraviolet component is higher than a preset ultraviolet value, judging that the environment where the user is located is outdoor; or,
and if the detected light of each wave band of the spectrum is uniform and the infrared component is higher than the preset infrared value, judging that the environment where the user is located is outdoor.
Preferably, the determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the ambient light information of the outdoor environment includes:
if the color rendering of the detected spectrum is within 75 to 90 of the preset color rendering range, judging that the environment where the user is located is indoor;
if the color rendering of the detected ambient light is within the preset color rendering range 98-100, it is determined that the environment where the user is located is outdoor.
Preferably, the determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the ambient light information of the outdoor environment includes:
if the detected spectral illumination is not more than 2000 and the color temperature is not more than 6000K, judging that the environment where the user is located is indoor;
and if the detected ambient light illuminance exceeds 2000 and the detected color temperature exceeds 6000K, judging that the environment where the user is located is outdoor.
An apparatus for spectrally detecting a user's environment, the apparatus comprising:
the system comprises an acquisition unit, a processing unit and a control unit, wherein the acquisition unit is used for acquiring ambient light information of the environment where a user is located through a light sensor, and the ambient light information at least comprises a spectrum, a color temperature, a color rendering and/or an illumination;
and the judging unit is used for judging whether the environment where the user is located is indoor or outdoor according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment.
Preferably, the judging unit is configured to:
if the detected light of each wave band of the spectrum is uniform and the ultraviolet component is higher than a preset ultraviolet value, judging that the environment where the user is located is outdoor; or,
and if the detected light of each wave band of the spectrum is uniform and the infrared component is higher than the preset infrared value, judging that the environment where the user is located is outdoor.
Preferably, the judging unit is configured to:
if the color rendering of the detected spectrum is within 75 to 90 of the preset color rendering range, judging that the environment where the user is located is indoor;
if the color rendering of the detected ambient light is within the preset color rendering range 98-100, it is determined that the environment where the user is located is outdoor.
Preferably, the judging unit is configured to:
if the detected spectral illumination is not more than 2000 and the color temperature is not more than 6000K, judging that the environment where the user is located is indoor;
and if the detected ambient light illuminance exceeds 2000 and the detected color temperature exceeds 6000K, judging that the environment where the user is located is outdoor.
A wearable device comprises the device for spectrum detection of the user environment.
The embodiment of the invention obtains the ambient light information of the environment where the user is located through a light sensor, wherein the ambient light information at least comprises a spectrum, a color temperature, a color rendering and/or an illumination; according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment, whether the environment where the user is located is indoor or outdoor is judged, and therefore the indoor and outdoor positioning is achieved by utilizing the difference between the outdoor natural light and the indoor light.
Drawings
FIG. 1 is a schematic flow chart of a first embodiment of a method for spectrally detecting a user environment in accordance with an embodiment of the present invention;
fig. 2 is a schematic structural diagram of an apparatus for spectrally detecting a user environment according to an embodiment of the present invention.
Detailed Description
The embodiments of the present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad invention. It should be further noted that, for convenience of description, only some structures, not all structures, relating to the embodiments of the present invention are shown in the drawings.
Referring to fig. 1, fig. 1 is a schematic flow chart of a method of a first embodiment of a method for spectrum sensing a user environment according to an embodiment of the present invention.
In a first embodiment, the method of spectrally detecting a user environment comprises:
step 101, acquiring ambient light information of an environment where a user is located through a light sensor, wherein the ambient light information at least comprises a spectrum, a color temperature, a color rendering and/or an illumination;
step 102, judging whether the environment where the user is located is indoor or outdoor according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment.
Preferably, the determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the ambient light information of the outdoor environment includes:
if the detected light of each wave band of the spectrum is uniform and the ultraviolet component is higher than a preset ultraviolet value, judging that the environment where the user is located is outdoor; or,
and if the detected light of each wave band of the spectrum is uniform and the infrared component is higher than the preset infrared value, judging that the environment where the user is located is outdoor.
Specifically, the first condition is spectral detection, light rays in each wavelength band of the spectrum of sunlight are relatively uniform, especially ultraviolet components are usually high, and other light components are not obviously strong or weak. The spectrum of the light mostly uses blue light emitted by the diode to excite the fluorescent powder due to the light emitting principle and the application mode, and the white light is mostly the fluorescent powder with three primary colors with high color rendering, but the ultraviolet components and the components with shorter wavelength are less. Sunlight has strong infrared rays which far exceed the infrared ray intensity of artificial lamplight, and the point is also obvious difference. In terms of weather conditions such as cloudy days and cloudy days, the ultraviolet rays have weak points only due to illumination, namely light and shade, but the infrared part is far larger than the light, and the frequency spectrum distribution is also more uniform than the light.
Preferably, the determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the ambient light information of the outdoor environment includes:
if the color rendering of the detected spectrum is within 75 to 90 of the preset color rendering range, judging that the environment where the user is located is indoor;
if the color rendering of the detected ambient light is within the preset color rendering range 98-100, it is determined that the environment where the user is located is outdoor.
Specifically, the color rendering of sunlight is defined as 100, the light sensation measurement has an error basically not lower than 98%, and most of market and family life lights have color rendering of basically 75-90, which is greatly different from natural light. Color rendering is also called color rendering index, and is a measure for restoring the real color of an object viewed under the light.
Preferably, the determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the ambient light information of the outdoor environment includes:
if the detected spectral illumination is not more than 2000 and the color temperature is not more than 6000K, judging that the environment where the user is located is indoor;
and if the detected ambient light illuminance exceeds 2000 and the detected color temperature exceeds 6000K, judging that the environment where the user is located is outdoor.
Specifically, as for the illumination and the color temperature, the difference is very large in the morning and evening according to the brightness, but the illumination of normal daily lamplight can only reach the standard, because the energy conservation is not too high, the artificial illumination basically cannot exceed 2000, the color temperature cannot exceed 6000K, but the color temperature and the illumination of sunlight can far exceed the value in most of the day, so that the auxiliary judgment can be realized.
By utilizing the parameters, whether the indoor lighting or the outdoor natural lighting is performed can be judged, the indoor and outdoor are distinguished, the GPS is started at any time interval according to the tested indoor and outdoor conditions, or the LBS positioning mode is switched to the GPS mode, the GPS does not need to try positioning all the time, and the electric quantity is wasted.
Furthermore, the method can be applied to function reminding of leaving the building or indoor places according to the measured indoor and outdoor conditions, and compared with the method of simply judging whether reminding is carried out indoors or outdoors by positioning, the method can be combined with the function reminding to judge more accurately.
In addition, at night, only time and elimination methods can be adopted, firstly, the method is distinguished from time points, whether a night judgment mode is started or not is judged, lights are generally turned on indoors according to the habit of people, if the illumination reaches certain intensity and other differences are obvious enough, the method is judged to be indoors, if the light is weak, the method is defaulted to be outdoors, GPS signals are started for trial, if the positioning cannot be carried out, the method is defaulted to be indoors in the same light mode, and if the light changes greatly, the method is judged again. The watch may be a terminal device such as a mobile phone, and the mobile phone is generally exposed to the environment when in use, so that the shielding is not considered.
The embodiment of the invention obtains the ambient light information of the environment where the user is located through a light sensor, wherein the ambient light information at least comprises a spectrum, a color temperature, a color rendering and/or an illumination; according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment, whether the environment where the user is located is indoor or outdoor is judged, and therefore the indoor and outdoor positioning is achieved by utilizing the difference between the outdoor natural light and the indoor light.
Referring to fig. 2, fig. 2 is a schematic structural diagram of an apparatus for spectrally detecting a user environment according to an embodiment of the present invention. The device for spectrally detecting the user environment comprises:
the acquiring unit 201 is configured to acquire, through a light sensor, ambient light information of an environment where a user is located, where the ambient light information at least includes a spectrum, a color temperature, a color rendering, and/or an illuminance;
the determining unit 202 is configured to determine whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the pre-stored ambient light information of the outdoor environment.
Preferably, the judging unit 202 is configured to:
if the detected light of each wave band of the spectrum is uniform and the ultraviolet component is higher than a preset ultraviolet value, judging that the environment where the user is located is outdoor; or,
and if the detected light of each wave band of the spectrum is uniform and the infrared component is higher than the preset infrared value, judging that the environment where the user is located is outdoor.
Specifically, the first condition is spectral detection, light rays in each wavelength band of the spectrum of sunlight are relatively uniform, especially ultraviolet components are usually high, and other light components are not obviously strong or weak. The spectrum of the light mostly uses blue light emitted by the diode to excite the fluorescent powder due to the light emitting principle and the application mode, and the white light is mostly the fluorescent powder with three primary colors with high color rendering, but the ultraviolet components and the components with shorter wavelength are less. Sunlight has strong infrared rays which far exceed the infrared ray intensity of artificial lamplight, and the point is also obvious difference. In terms of weather conditions such as cloudy days and cloudy days, the ultraviolet rays have weak points only due to illumination, namely light and shade, but the infrared part is far larger than the light, and the frequency spectrum distribution is also more uniform than the light.
Preferably, the judging unit is configured to:
if the color rendering of the detected spectrum is within 75 to 90 of the preset color rendering range, judging that the environment where the user is located is indoor;
if the color rendering of the detected ambient light is within the preset color rendering range 98-100, it is determined that the environment where the user is located is outdoor.
Specifically, the color rendering of sunlight is defined as 100, the light sensation measurement has an error basically not lower than 98%, and most of market and family life lights have color rendering of basically 75-90, which is greatly different from natural light. Color rendering is also called color rendering index, and is a measure for restoring the real color of an object viewed under the light.
Preferably, the judging unit is configured to:
if the detected spectral illumination is not more than 2000 and the color temperature is not more than 6000K, judging that the environment where the user is located is indoor;
and if the detected ambient light illuminance exceeds 2000 and the detected color temperature exceeds 6000K, judging that the environment where the user is located is outdoor.
Specifically, as for the illumination and the color temperature, the difference is very large in the morning and evening according to the brightness, but the illumination of normal daily lamplight can only reach the standard, because the energy conservation is not too high, the artificial illumination basically cannot exceed 2000, the color temperature cannot exceed 6000K, but the color temperature and the illumination of sunlight can far exceed the value in most of the day, so that the auxiliary judgment can be realized.
By utilizing the parameters, whether the indoor lighting or the outdoor natural lighting is performed can be judged, the indoor and outdoor are distinguished, the GPS is started at any time interval according to the tested indoor and outdoor conditions, or the LBS positioning mode is switched to the GPS mode, the GPS does not need to try positioning all the time, and the electric quantity is wasted.
Furthermore, the method can be applied to function reminding of leaving the building or indoor places according to the measured indoor and outdoor conditions, and compared with the method of simply judging whether reminding is carried out indoors or outdoors by positioning, the method can be combined with the function reminding to judge more accurately.
In addition, at night, only time and elimination methods can be adopted, firstly, the method is distinguished from time points, whether a night judgment mode is started or not is judged, lights are generally turned on indoors according to the habit of people, if the illumination reaches certain intensity and other differences are obvious enough, the method is judged to be indoors, if the light is weak, the method is defaulted to be outdoors, GPS signals are started for trial, if the positioning cannot be carried out, the method is defaulted to be indoors in the same light mode, and if the light changes greatly, the method is judged again. The watch may be a terminal device such as a mobile phone, and the mobile phone is generally exposed to the environment when in use, so that the shielding is not considered.
A wearable device comprises the device for spectrum detection of the user environment.
The embodiment of the invention obtains the ambient light information of the environment where the user is located through a light sensor, wherein the ambient light information at least comprises a spectrum, a color temperature, a color rendering and/or an illumination; according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment, whether the environment where the user is located is indoor or outdoor is judged, and therefore the indoor and outdoor positioning is achieved by utilizing the difference between the outdoor natural light and the indoor light.
The technical principle of the embodiment of the present invention is described above in conjunction with the specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of the embodiments of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive step, and these embodiments will fall within the scope of the present invention.
Claims (9)
1. A method of spectrally detecting a user's environment, the method comprising:
acquiring ambient light information of an environment where a user is located through a light sensor, wherein the ambient light information at least comprises a spectrum, a color temperature, a color rendering property and/or an illumination;
and judging whether the environment where the user is located is indoor or outdoor according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment.
2. The method of claim 1, wherein determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the pre-stored ambient light information of the outdoor environment comprises:
if the detected light of each wave band of the spectrum is uniform and the ultraviolet component is higher than a preset ultraviolet value, judging that the environment where the user is located is outdoor; or,
and if the detected light of each wave band of the spectrum is uniform and the infrared component is higher than the preset infrared value, judging that the environment where the user is located is outdoor.
3. The method of claim 1, wherein determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the pre-stored ambient light information of the outdoor environment comprises:
if the color rendering of the detected spectrum is within 75 to 90 of the preset color rendering range, judging that the environment where the user is located is indoor;
if the color rendering of the detected ambient light is within the preset color rendering range 98-100, it is determined that the environment where the user is located is outdoor.
4. The method of claim 1, wherein determining whether the environment where the user is located is indoor or outdoor according to the pre-stored ambient light information of the indoor environment and the pre-stored ambient light information of the outdoor environment comprises:
if the detected ambient light illumination is not more than 2000 and the color temperature is not more than 6000K, judging that the environment where the user is located is indoor;
and if the detected ambient light illuminance exceeds 2000 and the detected color temperature exceeds 6000K, judging that the environment where the user is located is outdoor.
5. An apparatus for spectrally detecting a user's environment, said apparatus comprising:
the system comprises an acquisition unit, a processing unit and a control unit, wherein the acquisition unit is used for acquiring ambient light information of the environment where a user is located through a light sensor, and the ambient light information at least comprises a spectrum, a color temperature, a color rendering and/or an illumination;
and the judging unit is used for judging whether the environment where the user is located is indoor or outdoor according to the pre-stored environment light information of the indoor environment and the environment light information of the outdoor environment.
6. The apparatus of claim 5, wherein the determining unit is configured to:
if the detected light of each wave band of the spectrum is uniform and the ultraviolet component is higher than a preset ultraviolet value, judging that the environment where the user is located is outdoor; or,
and if the detected light of each wave band of the spectrum is uniform and the infrared component is higher than the preset infrared value, judging that the environment where the user is located is outdoor.
7. The apparatus of claim 5, wherein the determining unit is configured to:
if the color rendering of the detected spectrum is within 75 to 90 of the preset color rendering range, judging that the environment where the user is located is indoor;
if the color rendering of the detected ambient light is within the preset color rendering range 98-100, it is determined that the environment where the user is located is outdoor.
8. The apparatus of claim 5, wherein the determining unit is configured to:
if the detected spectral illumination is not more than 2000 and the color temperature is not more than 6000K, judging that the environment where the user is located is indoor;
and if the detected ambient light illuminance exceeds 2000 and the detected color temperature exceeds 6000K, judging that the environment where the user is located is outdoor.
9. A wearable device comprising the spectral user environment detection apparatus of any of claims 5 to 8.
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CN109141631A (en) * | 2018-10-22 | 2019-01-04 | 广东小天才科技有限公司 | Activity time monitoring method and system |
CN109141631B (en) * | 2018-10-22 | 2021-07-27 | 广东小天才科技有限公司 | Activity time monitoring method and system |
CN109348407A (en) * | 2018-10-26 | 2019-02-15 | 广东小天才科技有限公司 | Outdoor activity time reminding method, device, equipment and medium of wearable equipment |
WO2021103954A1 (en) * | 2019-11-26 | 2021-06-03 | Oppo广东移动通信有限公司 | Method and apparatus for determining light source infromation, electronic device, and storage medium |
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