CN105698925A - A method, a system and a mobile terminal for ultraviolet ray intensity detection - Google Patents
A method, a system and a mobile terminal for ultraviolet ray intensity detection Download PDFInfo
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- CN105698925A CN105698925A CN201610057227.9A CN201610057227A CN105698925A CN 105698925 A CN105698925 A CN 105698925A CN 201610057227 A CN201610057227 A CN 201610057227A CN 105698925 A CN105698925 A CN 105698925A
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- G—PHYSICS
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- G01J—MEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRARED, VISIBLE OR ULTRAVIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
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- G—PHYSICS
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- G01J—MEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRARED, VISIBLE OR ULTRAVIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
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Abstract
The invention provides a method, a system and a mobile terminal for ultraviolet ray intensity detection. The method comprises the following steps: data of ultraviolet ray intensity is detected; in an off-line mode, calibration and analysis are carried out on the ultraviolet ray intensity data; and then the ultraviolet ray intensity is displayed at an LED display after analysis; in an online mode, the ultraviolet ray intensity data is sent to an intelligent terminal; ultraviolet ray intensity results returned by the intelligent terminal on the basis of the ultraviolet ray intensity data is received; and the ultraviolet ray intensity result is displayed. The technical scheme provided by the invention has advantages of providing convenience for users.
Description
Technical field
The present invention relates to electronics and the communications field, particularly relate to the method for a kind of uitraviolet intensity detection, system and mobile terminal。
Background technology
Along with the change of global climate and environment, ultraviolet is increasing to the harm of human health。Especially modern female increasingly pays close attention to the ultraviolet radiation infringement to skin, although has a lot of sunlight screening skin-protecting product can play certain Passive Defence effect, but there is no the sun-proof measure that convenient effective ultraviolet monitor function method is daily outdoor activities and provide reference。
More existing terminals are also with function of detecting ultraviolet light, but are primarily present following deficiency: one is that the uitraviolet intensity value exported does not have definite reference standard, and use value is not high;Two is to rely on intelligent terminal's process, video data, it is necessary to intelligent terminal opens wireless signal for a long time to keep communicating with UV detection terminal, adds continuation of the journey pressure and charge frequency, makes troubles to use, impracticable。
Summary of the invention
Thering is provided a kind of method that uitraviolet intensity detects, the method for described uitraviolet intensity detection have employed the technical scheme of ultraviolet intensity monitoring so that uses the equipment of the method that described uitraviolet intensity detects to have monitoring ultraviolet, advantage easy to use。
On the one hand, it is provided that the method for a kind of uitraviolet intensity detection, described method includes:
Detection uitraviolet intensity data;
Under offline mode, on light-emitting diode display, show uitraviolet intensity to after this uitraviolet intensity data calibration, analysis;
Under online mode, these uitraviolet intensity data are sent to intelligent terminal;Receive the uitraviolet intensity result that intelligent terminal returns according to these uitraviolet intensity data;Show this uitraviolet intensity result。
Optionally, described to this uitraviolet intensity data calibration, analyze after on light-emitting diode display, show that uitraviolet intensity specifically includes:
The meansigma methods of the uitraviolet intensity data of current detection and the uitraviolet intensity data of this detection compares, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show described meansigma methods, if the uitraviolet intensity data of current detection and the difference of meansigma methods are less than threshold value, then show this detection uitraviolet intensity data。
Optionally, described to this uitraviolet intensity data calibration, analyze after on light-emitting diode display, show that uitraviolet intensity specifically includes:
Seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, the uitraviolet intensity data of current detection and the difference of last detection uitraviolet intensity data meet as described in change curve, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。
Optionally, described to this uitraviolet intensity data calibration, analyze after on light-emitting diode display, show that uitraviolet intensity specifically includes:
The deviation Y of present ultraviolet intensity data is calculated according to formula 1, if deviation Y is more than setting threshold value, then give up present ultraviolet intensity data, the last uitraviolet intensity data of light-emitting diode display display, if deviation Y is less than setting threshold value, then light-emitting diode display display present ultraviolet intensity data;
Wherein, Y represents the percentage ratio of deviation, XiRepresent the uitraviolet intensity of current detection, Xi-1Represent the uitraviolet intensity of last time detection;Represent the meansigma methods of the uitraviolet intensity difference of adjacent two detections。
On the other hand, it is provided that the system of a kind of uitraviolet intensity detection, described system includes:
Ultraviolet detection module, is used for detecting uitraviolet intensity data;
Off-line analysis module, for, under offline mode, showing uitraviolet intensity to after this uitraviolet intensity data calibration, analysis on light-emitting diode display;
Communication module, under online mode, these uitraviolet intensity data are sent to intelligent terminal;Receive the uitraviolet intensity result that intelligent terminal returns according to these uitraviolet intensity data;Show this uitraviolet intensity result。
Optionally, described off-line analysis module specifically for,
The meansigma methods of the uitraviolet intensity data of current detection and the uitraviolet intensity data of this detection compares, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show described meansigma methods, if the uitraviolet intensity data of current detection and the difference of meansigma methods are less than threshold value, then show this detection uitraviolet intensity data。
Optionally, described off-line analysis module specifically for, seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, the uitraviolet intensity data of current detection and the difference of last detection uitraviolet intensity data meet as described in change curve, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。
Optionally, described off-line analysis module specifically for, the deviation Y of present ultraviolet intensity data is calculated according to formula 1, if deviation Y is more than setting threshold value, then give up present ultraviolet intensity data, the last uitraviolet intensity data of light-emitting diode display display, if deviation Y is less than setting threshold value, then light-emitting diode display display present ultraviolet intensity data;
Wherein, Y represents the percentage ratio of deviation, XiRepresent the uitraviolet intensity of current detection, Xi-1Represent the uitraviolet intensity of last time detection;Represent the meansigma methods of the uitraviolet intensity difference of adjacent two detections。
Further aspect, it is provided that a kind of mobile terminal, described mobile terminal specifically wraps the system of the uitraviolet intensity detection stated。
The method of the uitraviolet intensity detection provided according to each embodiment, the method has offline mode and online mode both of which, so it has, to realize scene many, save electricity, reduce mobile terminal amount of calculation, the advantage that user is easy to use。
Accompanying drawing explanation
In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings。
The flow chart of the ultraviolet ray intensity detecting method that Fig. 1 provides for one better embodiment of the present invention;
Fig. 2 realizes structure chart for the system of the method that the present invention the first better embodiment provides;
Fig. 3 is the ultraviolet display structural representation of the present invention the first better embodiment;
The flow chart of the uitraviolet intensity detection that Fig. 4 provides for the present invention the second better embodiment;
Fig. 5 is the structure chart of uitraviolet intensity provided by the invention detection system;
Fig. 6 is the structural representation of mobile terminal provided by the invention。
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments。Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention。
Consult Fig. 1, the method of the uitraviolet intensity detection that Fig. 1 provides for the present invention the first better embodiment, the method can be completed by mobile terminal, this mobile terminal includes but not limited to: mobile phone, panel computer, PDA (English full name: PersonalDigitalAssistant, Chinese: palm PC) etc.。The technology scene that the method realizes is as follows: a better embodiment of the present invention realizes in system as shown in Figure 2, wherein, this system includes: mobile terminal and intelligent terminal, and this mobile terminal specifically may include that microcontroller, UV sensor, light-emitting diode display, rechargeable battery and power circuit and wireless communication module;This intelligent terminal is by the wireless communication module wireless connections of radio communication with mobile terminal, wherein, the mode of these wireless connections includes but not limited to: GSM (English full name: globalsystemofmobilecommunications, Chinese: Global Systems for Mobile communications), CDMA (English full name: CodeDivisionMultipleAccess, Chinese: CDMA), WCDMA (English full name: WidebandCodeDivisionMultipleAccess, Chinese: Wideband-CDMA), LTE (English full name: LongTermEvolution, Chinese: Long Term Evolution), TD-LTE (English full name: TimeDivisionLongTermEvolution, Chinese: time-division Long Term Evolution) etc.。Above-mentioned intelligent terminal includes but is limited to: PC (English: PersonalComputer, Chinese: PC), server, cloud server etc.。UV sensor detection uitraviolet intensity, and pass data to microprocessor;Microprocessor receives uitraviolet intensity data, carries out the data calibration of necessity, analysis, result is being shown on light-emitting diode display, or is being uploaded to intelligent terminal by wireless communication module;Wireless communication module is responsible for match with intelligent terminal, shake hands, being connected, it is achieved data transmission and control operate;Light-emitting diode display is then responsible for showing uitraviolet intensity on mobile terminals;Rechargeable battery provides the method for this uitraviolet intensity of mains power detection as it is shown in figure 1, include for whole mobile terminal:
Step S101, mobile terminal detection uitraviolet intensity data;
The implementation of above-mentioned steps is specifically as follows, and uitraviolet intensity is detected the data obtaining uitraviolet intensity by the UV sensor of mobile terminal。In an embodiment of the present invention the first better embodiment, this UV sensor specifically can adopt SilconLabs UV sensor, in another embodiment of the present invention the first better embodiment, this UV sensor specifically can adopt GENICOM UV sensor。The specific embodiment of the invention does not limit to the concrete manifestation form of above-mentioned UV sensor。
Step S102, under offline mode, to this uitraviolet intensity data calibration, analyze after on light-emitting diode display, show uitraviolet intensity;
The concrete manifestation form of above-mentioned offline mode is, the signal of data network is very low or the signal of no data network, because now mobile terminal cannot be attached with intelligent terminal, so needing data are carried out the process of this locality, although mobile terminal process data can not be strong, but data can also be carried out preliminary process, obtain a conclusion for reference。In above-mentioned steps to this uitraviolet intensity data calibration, the specific implementation analyzed can be multiple, the specific embodiment of the invention does not limit to concrete calibration, analytical model, such as, in an embodiment of the present invention the first better embodiment, above-mentioned calibration, the specific implementation analyzed can be: the uitraviolet intensity data of current detection are compared with the meansigma methods of the uitraviolet intensity data of this detection, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show the meansigma methods of the uitraviolet intensity data of this detection, this reason is in that, for ultraviolet, the fluctuation of the uitraviolet intensity data in one sampling period should in a scope set, if the fluctuation of present sample is excessive, then illustrate that the accuracy of this time sampling is very low, needs are given up, to avoid user is caused misleading。In another embodiment of the present invention the first better embodiment, above-mentioned calibration, analysis specific implementation can be, seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, as the uitraviolet intensity data of current detection meet this change curve with the difference (hereinafter referred to as current difference) of last detection uitraviolet intensity data, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。The above-mentioned concrete manifestation form meeting change curve can be multiple, the change curve of such as difference is linear change, if then the coordinate points of current difference is also on the curve of linear change, then determine that it meets current curves, in like manner, when for other curves, it would however also be possible to employ similar judgment mode determines whether for meeting change curve, such as during parabola or during wavy curve, see namely whether the coordinate points of currency can determine whether to meet current curve in the scope of this curvilinear motion。
Step S103, under online mode, these uitraviolet intensity data are sent to intelligent terminal;
Step S104, intelligent terminal obtain uitraviolet intensity result, this uitraviolet intensity result are handed down to mobile terminal after these uitraviolet intensity data are processed;
The method that the data of above-mentioned intelligent terminal process includes but not limited to: the uitraviolet intensity data of current detection are compared with the meansigma methods of the uitraviolet intensity data of this detection, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show the meansigma methods of the uitraviolet intensity data of this detection, this reason is in that, for ultraviolet, the fluctuation of the uitraviolet intensity data in one sampling period should in a scope set, if the fluctuation of present sample is excessive, then illustrate that the accuracy of this time sampling is very low, needs are given up, to avoid user is caused misleading。The specific implementation that above-mentioned data process can be, seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, as the uitraviolet intensity data of current detection meet this change curve with the difference (hereinafter referred to as current difference) of last detection uitraviolet intensity data, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。The above-mentioned concrete manifestation form meeting change curve can be multiple, the change curve of such as difference is linear change, if then the coordinate points of current difference is also on the curve of linear change, then determine that it meets current curves, in like manner, when for other curves, it would however also be possible to employ similar judgment mode determines whether for meeting change curve, such as during parabola or during wavy curve, see namely whether the coordinate points of currency can determine whether to meet current curve in the scope of this curvilinear motion。
Step S105, mobile terminal show the result of this uitraviolet intensity。
The result of this uitraviolet intensity shows specifically can be as shown in Figure 3。Certainly in a practical situation, it is also possible to showing in other way, for instance by voice mode, or remind user by vibration mode, the present invention does not limit to the concrete manifestation form of above-mentioned display。
The mode that the present invention the first better embodiment adopts has off line and online mode, the combination of this both of which can adapt to multiple environment, such as at mountain environment, due to poor signal, offline mode is adopted can very directly to react its ultraviolet data, such as in city, owing to signal is good, then can adopt online mode, which reduces the data amount of calculation of mobile terminal, always save the electricity of mobile terminal, improve the stand-by time of mobile terminal, ultraviolet data can be monitored so the first better embodiment provided by the invention has and be capable of several scenes, the advantage saving electricity。
The method consulting a kind of uitraviolet intensity detection that Fig. 4, Fig. 4 provide for the present invention the second better embodiment, the method is completed by mobile terminal, and this mobile terminal includes but not limited to: mobile phone, panel computer, PDA etc.。The method as shown in Figure 4, including:
Step S401, detection uitraviolet intensity data;
The implementation of above-mentioned steps is specifically as follows, and uitraviolet intensity is detected the data obtaining uitraviolet intensity by the UV sensor of mobile terminal。In an embodiment of the present invention the first better embodiment, this UV sensor specifically can adopt SilconLabs UV sensor, in another embodiment of the present invention the first better embodiment, this UV sensor specifically can adopt GENICOM UV sensor。The specific embodiment of the invention does not limit to the concrete manifestation form of above-mentioned UV sensor。
Step S402, under offline mode, to this uitraviolet intensity data calibration, analyze after on light-emitting diode display, show uitraviolet intensity;
The concrete manifestation form of above-mentioned offline mode is, the signal of data network is very low or the signal of no data network, because now mobile terminal cannot be attached with intelligent terminal, so needing data are carried out the process of this locality, although mobile terminal process data can not be strong, but data can also be carried out preliminary process, obtain a conclusion for reference。In above-mentioned steps to this uitraviolet intensity data calibration, the specific implementation analyzed can be multiple, the specific embodiment of the invention does not limit to concrete calibration, analytical model, such as, in an embodiment of the present invention the first better embodiment, above-mentioned calibration, the specific implementation analyzed can be: the uitraviolet intensity data of current detection are compared with the meansigma methods of the uitraviolet intensity data of this detection, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show the meansigma methods of the uitraviolet intensity data of this detection, this reason is in that, for ultraviolet, the fluctuation of the uitraviolet intensity data in one sampling period should in a scope set, if the fluctuation of present sample is excessive, then illustrate that the accuracy of this time sampling is very low, needs are given up, to avoid user is caused misleading。In another embodiment of the present invention the first better embodiment, above-mentioned calibration, analysis specific implementation can be, seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, as the uitraviolet intensity data of current detection meet this change curve with the difference (hereinafter referred to as current difference) of last detection uitraviolet intensity data, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。The above-mentioned concrete manifestation form meeting change curve can be multiple, the change curve of such as difference is linear change, if then the coordinate points of current difference is also on the curve of linear change, then determine that it meets current curves, in like manner, when for other curves, it would however also be possible to employ similar judgment mode determines whether for meeting change curve, such as during parabola or during wavy curve, see namely whether the coordinate points of currency can determine whether to meet current curve in the scope of this curvilinear motion。
Uitraviolet intensity data, under online mode, are sent to intelligent terminal by step S403;
Step S404, receives the uitraviolet intensity result that intelligent terminal returns according to these uitraviolet intensity data;
Step S405, show this uitraviolet intensity result。
The mode that the present invention the second better embodiment adopts has off line and online mode, the combination of this both of which can adapt to multiple environment, such as at mountain environment, due to poor signal, offline mode is adopted can very directly to react its ultraviolet data, such as in city, owing to signal is good, then can adopt online mode, which reduces the data amount of calculation of mobile terminal, always save the electricity of mobile terminal, improve the stand-by time of mobile terminal, ultraviolet data can be monitored so the first better embodiment provided by the invention has and be capable of several scenes, the advantage saving electricity。
Preferably, on light-emitting diode display, show that uitraviolet intensity specifically may include that to after this uitraviolet intensity data calibration, analysis
The deviation Y of present ultraviolet intensity data is calculated according to formula 1, if deviation Y is more than setting threshold value, then give up present ultraviolet intensity data, the last uitraviolet intensity data of light-emitting diode display display, if deviation Y is less than setting threshold value, then light-emitting diode display display present ultraviolet intensity data;
Wherein, Y represents the percentage ratio of deviation, XiRepresent the uitraviolet intensity of current detection, Xi-1Represent the uitraviolet intensity of last time detection;Represent the meansigma methods of the uitraviolet intensity difference of adjacent two detections。Detailed description of the invention provided by the invention adopts this kind of computational methods to be in order to fault in enlargement is to avoid the sampling of data mistake occur, because for ultraviolet, the data difference of adjacent twice monitoring should be only small, so the deviation between itself and meansigma methods also can be only small, if directly calculated, then the bad setting of deviation threshold, if be calculated its square, then deviation threshold is then very easy to set, so it has the accurate advantage of process。
On the other hand, the specific embodiment of the invention also provides for the system 500 of a kind of uitraviolet intensity detection, and this system is as it is shown in figure 5, specifically include:
Ultraviolet detection module 501, is used for detecting uitraviolet intensity data;
Above-mentioned ultraviolet detection module is specifically as follows ultraviolet detection sensor, in one embodiment of the invention, this ultraviolet detection module specifically can adopt SilconLabs UV sensor, in another embodiment, this ultraviolet detection module specifically can adopt GENICOM UV sensor。The specific embodiment of the invention does not limit to the concrete manifestation form of above-mentioned UV sensor。
Off-line analysis module 502, for, under offline mode, showing uitraviolet intensity to after this uitraviolet intensity data calibration, analysis on light-emitting diode display;
The concrete manifestation form of above-mentioned offline mode is, the signal of data network is very low or the signal of no data network, because now mobile terminal cannot be attached with intelligent terminal, so needing data are carried out the process of this locality, although mobile terminal process data can not be strong, but data can also be carried out preliminary process, obtain a conclusion for reference。In above-mentioned steps to this uitraviolet intensity data calibration, the specific implementation analyzed can be multiple, the specific embodiment of the invention does not limit to concrete calibration, analytical model, such as, in one embodiment of the invention, above-mentioned calibration, the specific implementation analyzed can be: the uitraviolet intensity data of current detection are compared with the meansigma methods of the uitraviolet intensity data of this detection, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show the meansigma methods of the uitraviolet intensity data of this detection, this reason is in that, for ultraviolet, the fluctuation of the uitraviolet intensity data in one sampling period should in a scope set, if the fluctuation of present sample is excessive, then illustrate that the accuracy of this time sampling is very low, needs are given up, to avoid user is caused misleading。In another embodiment of the invention, above-mentioned calibration, analysis specific implementation can be, seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, as the uitraviolet intensity data of current detection meet this change curve with the difference (hereinafter referred to as current difference) of last detection uitraviolet intensity data, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。The above-mentioned concrete manifestation form meeting change curve can be multiple, the change curve of such as difference is linear change, if then the coordinate points of current difference is also on the curve of linear change, then determine that it meets current curves, in like manner, when for other curves, it would however also be possible to employ similar judgment mode determines whether for meeting change curve, such as during parabola or during wavy curve, see namely whether the coordinate points of currency can determine whether to meet current curve in the scope of this curvilinear motion。
Communication module 503, under online mode, these uitraviolet intensity data are sent to intelligent terminal;Receive the uitraviolet intensity result that intelligent terminal returns according to these uitraviolet intensity data;Show this uitraviolet intensity result。
Optionally, described off-line analysis module specifically for, the meansigma methods of the uitraviolet intensity data of current detection and the uitraviolet intensity data of this detection compares, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show described meansigma methods, if the uitraviolet intensity data of current detection and the difference of meansigma methods are less than threshold value, then show this detection uitraviolet intensity data。
Optionally, described off-line analysis module specifically for, seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, the uitraviolet intensity data of current detection and the difference of last detection uitraviolet intensity data meet as described in change curve, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。
Optionally, described off-line analysis module specifically for, the deviation Y of present ultraviolet intensity data is calculated according to formula 1, if deviation Y is more than setting threshold value, then give up present ultraviolet intensity data, the last uitraviolet intensity data of light-emitting diode display display, if deviation Y is less than setting threshold value, then light-emitting diode display display present ultraviolet intensity data;
Wherein, Y represents the percentage ratio of deviation, XiRepresent the uitraviolet intensity of current detection, Xi-1Represent the uitraviolet intensity of last time detection;Represent the meansigma methods of the uitraviolet intensity difference of adjacent two detections。
Further aspect, the specific embodiment of the invention also provides for a kind of mobile terminal, and as shown in Figure 6, this mobile terminal includes the system of above-mentioned uitraviolet intensity detection。The concrete structure of the system of above-mentioned uitraviolet intensity detection may refer to foregoing description, does not repeat one by one here。
It should be noted that, for aforesaid each method embodiment or embodiment, in order to be briefly described, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the present invention is not by the restriction of described sequence of movement, because according to the present invention, some step can adopt other orders or carry out simultaneously。Secondly, those skilled in the art also should know, embodiment described in the specification or embodiment belong to preferred embodiment, necessary to involved action and the unit not necessarily present invention。
In the above-described embodiments, the description of each embodiment is all emphasized particularly on different fields, certain embodiment there is no the part described in detail, it is possible to referring to the associated description of other embodiments。
Step in embodiment of the present invention method can carry out order according to actual needs and adjust, merges and delete。
Unit in embodiment of the present invention device can merge according to actual needs, divides and delete。The feature of the different embodiments described in this specification and different embodiment can be carried out combining or combining by those skilled in the art。
Through the above description of the embodiments, those skilled in the art is it can be understood that can realize with hardware to the present invention, or firmware realizes, or their compound mode realizes。When implemented in software, it is possible to above-mentioned functions is stored in computer-readable medium or is transmitted as the one or more instructions on computer-readable medium or code。Computer-readable medium includes computer-readable storage medium and communication media, and wherein communication media includes being easy to any medium of transmission computer program from a place to another place。Storage medium can be any usable medium that computer can access。As example but be not limited to: computer-readable medium can include random access memory (RandomAccessMemory, RAM), read only memory (Read-OnlyMemory, ROM), EEPROM (ElectricallyErasableProgrammableRead-OnlyMemory, EEPROM), read-only optical disc (CompactDiscRead-OnlyMemory, or other optical disc storage CD-ROM), magnetic disk storage medium or other magnetic storage apparatus, or can be used in carrying or store the desired program code with instruction or data structure form can by any other medium of computer access。In addition。Any connection can be suitable become computer-readable medium。Such as, if software is to use coaxial cable, optical fiber cable, twisted-pair feeder, Digital Subscriber Line (DigitalSubscriberLine, DSL) or the wireless technology of such as infrared ray, radio and microwave etc from website, server or other remote source, then the wireless technology of coaxial cable, optical fiber cable, twisted-pair feeder, DSL or such as infrared ray, wireless and microwave etc include affiliated medium fixing in。As used in the present invention, dish (Disk) and dish (disc) include compression laser disc (CD), laser dish, laser disc, Digital Versatile Disc (DVD), floppy disk and Blu-ray Disc, the duplication data of the usual magnetic of its mid-game, dish then carrys out the duplication data of optics with laser。Above combination above should also be as including within the protection domain of computer-readable medium。
In a word, the foregoing is only the preferred embodiment of technical solution of the present invention, be not intended to limit protection scope of the present invention。All within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention。
Claims (9)
1. the method for a uitraviolet intensity detection, it is characterised in that described method includes:
Detection uitraviolet intensity data;
Under offline mode, on light-emitting diode display, show uitraviolet intensity to after this uitraviolet intensity data calibration, analysis;
Under online mode, these uitraviolet intensity data are sent to intelligent terminal;Receive the uitraviolet intensity result that intelligent terminal returns according to these uitraviolet intensity data;Show this uitraviolet intensity result。
2. method according to claim 1, it is characterised in that described to this uitraviolet intensity data calibration, analyze after on light-emitting diode display, show that uitraviolet intensity specifically includes:
The meansigma methods of the uitraviolet intensity data of current detection and the uitraviolet intensity data of this detection compares, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show described meansigma methods, if the uitraviolet intensity data of current detection and the difference of meansigma methods are less than threshold value, then show this detection uitraviolet intensity data。
3. method according to claim 1, it is characterised in that described to this uitraviolet intensity data calibration, analyze after on light-emitting diode display, show that uitraviolet intensity specifically includes:
Seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, the uitraviolet intensity data of current detection and the difference of last detection uitraviolet intensity data meet as described in change curve, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。
4. method according to claim 1, it is characterised in that described to this uitraviolet intensity data calibration, analyze after on light-emitting diode display, show that uitraviolet intensity specifically includes:
The deviation Y of present ultraviolet intensity data is calculated according to formula 1, if deviation Y is more than setting threshold value, then give up present ultraviolet intensity data, the last uitraviolet intensity data of light-emitting diode display display, if deviation Y is less than setting threshold value, then light-emitting diode display display present ultraviolet intensity data;
Wherein, Y represents the percentage ratio of deviation, XiRepresent the uitraviolet intensity of current detection, Xi-1Represent the uitraviolet intensity of last time detection;Represent the meansigma methods of the uitraviolet intensity difference of adjacent two detections。
5. the system of a uitraviolet intensity detection, it is characterised in that described system includes:
Ultraviolet detection module, is used for detecting uitraviolet intensity data;
Off-line analysis module, for, under offline mode, showing uitraviolet intensity to after this uitraviolet intensity data calibration, analysis on light-emitting diode display;
Communication module, under online mode, these uitraviolet intensity data are sent to intelligent terminal;Receive the uitraviolet intensity result that intelligent terminal returns according to these uitraviolet intensity data;Show this uitraviolet intensity result。
6. system according to claim 5, it is characterised in that described off-line analysis module specifically for,
The meansigma methods of the uitraviolet intensity data of current detection and the uitraviolet intensity data of this detection compares, if the uitraviolet intensity data of current detection and the difference of meansigma methods are more than setting threshold value, then directly give up the uitraviolet intensity data of current detection, show described meansigma methods, if the uitraviolet intensity data of current detection and the difference of meansigma methods are less than threshold value, then show this detection uitraviolet intensity data。
7. system according to claim 5, it is characterized in that, described off-line analysis module specifically for, seek the difference of the uitraviolet intensity that adjacent two samplings obtain, obtain the change curve of this difference, the uitraviolet intensity data of current detection and the difference of last detection uitraviolet intensity data meet as described in change curve, then show the uitraviolet intensity data of this current detection, otherwise delete the uitraviolet intensity data of this current detection, the uitraviolet intensity data of display last time detection。
8. system according to claim 5, it is characterized in that, described off-line analysis module specifically for, the deviation Y of present ultraviolet intensity data is calculated according to formula 1, if deviation Y is more than setting threshold value, then give up present ultraviolet intensity data, the last uitraviolet intensity data of light-emitting diode display display, if deviation Y is less than setting threshold value, then light-emitting diode display display present ultraviolet intensity data;
Wherein, Y represents the percentage ratio of deviation, XiRepresent the uitraviolet intensity of current detection, Xi-1Represent the uitraviolet intensity of last time detection;Represent the meansigma methods of the uitraviolet intensity difference of adjacent two detections。
9. a mobile terminal, it is characterised in that described mobile terminal specifically include as arbitrary in claim 58 as described in uitraviolet intensity detection system。
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110186560A (en) * | 2019-06-24 | 2019-08-30 | 环胜电子(深圳)有限公司 | Ultraviolet light value revision method and system |
CN111780870A (en) * | 2020-03-11 | 2020-10-16 | 孙兆华 | Small intelligent water body optical observation equipment and method for evaluating global water body quality by using same |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2772139Y (en) * | 2004-11-22 | 2006-04-12 | 比亚迪股份有限公司 | Mobile phone |
CN102646036A (en) * | 2012-02-22 | 2012-08-22 | 广东步步高电子工业有限公司 | Dynamic wallpaper system capable of displaying external ultraviolet intensity changes and corresponding mobile terminal equipment |
CN203337260U (en) * | 2013-07-29 | 2013-12-11 | 南方电网科学研究院有限责任公司 | Mobile terminal with radiation and ultraviolet detection functions |
CN203811272U (en) * | 2014-02-14 | 2014-09-03 | 深圳通感微电子有限公司 | Portable UV intensity measurement system |
CN104597329A (en) * | 2014-12-26 | 2015-05-06 | 深圳市金立通信设备有限公司 | Terminal |
-
2016
- 2016-01-27 CN CN201610057227.9A patent/CN105698925B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2772139Y (en) * | 2004-11-22 | 2006-04-12 | 比亚迪股份有限公司 | Mobile phone |
CN102646036A (en) * | 2012-02-22 | 2012-08-22 | 广东步步高电子工业有限公司 | Dynamic wallpaper system capable of displaying external ultraviolet intensity changes and corresponding mobile terminal equipment |
CN203337260U (en) * | 2013-07-29 | 2013-12-11 | 南方电网科学研究院有限责任公司 | Mobile terminal with radiation and ultraviolet detection functions |
CN203811272U (en) * | 2014-02-14 | 2014-09-03 | 深圳通感微电子有限公司 | Portable UV intensity measurement system |
CN104597329A (en) * | 2014-12-26 | 2015-05-06 | 深圳市金立通信设备有限公司 | Terminal |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110186560A (en) * | 2019-06-24 | 2019-08-30 | 环胜电子(深圳)有限公司 | Ultraviolet light value revision method and system |
CN110186560B (en) * | 2019-06-24 | 2021-07-13 | 环旭(深圳)电子科创有限公司 | Ultraviolet numerical value correction method and system |
CN111780870A (en) * | 2020-03-11 | 2020-10-16 | 孙兆华 | Small intelligent water body optical observation equipment and method for evaluating global water body quality by using same |
CN111780870B (en) * | 2020-03-11 | 2021-03-16 | 孙兆华 | Small intelligent water body optical observation equipment and method for evaluating global water body quality by using same |
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