WO2014180335A1 - Thermal image analysis monitoring device and monitoring system, and thermal image analysis monitoring method - Google Patents

Thermal image analysis monitoring device and monitoring system, and thermal image analysis monitoring method Download PDF

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Publication number
WO2014180335A1
WO2014180335A1 PCT/CN2014/077089 CN2014077089W WO2014180335A1 WO 2014180335 A1 WO2014180335 A1 WO 2014180335A1 CN 2014077089 W CN2014077089 W CN 2014077089W WO 2014180335 A1 WO2014180335 A1 WO 2014180335A1
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WO
WIPO (PCT)
Prior art keywords
analysis
thermal image
data
notification information
analysis data
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PCT/CN2014/077089
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French (fr)
Chinese (zh)
Inventor
王浩
Original Assignee
Wang Hao
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Priority to CN201310173896.9 priority Critical
Priority to CN201310173896 priority
Application filed by Wang Hao filed Critical Wang Hao
Publication of WO2014180335A1 publication Critical patent/WO2014180335A1/en

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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01JMEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRA-RED, VISIBLE OR ULTRA-VIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
    • G01J5/00Radiation pyrometry
    • G01J5/02Details
    • G01J5/0275Control or determination of height or distance or angle information for sensors or receivers
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01JMEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRA-RED, VISIBLE OR ULTRA-VIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
    • G01J5/00Radiation pyrometry
    • G01J5/02Details
    • G01J5/025Interfacing a pyrometer to an external device or network; User interface
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01JMEASUREMENT OF INTENSITY, VELOCITY, SPECTRAL CONTENT, POLARISATION, PHASE OR PULSE CHARACTERISTICS OF INFRA-RED, VISIBLE OR ULTRA-VIOLET LIGHT; COLORIMETRY; RADIATION PYROMETRY
    • G01J5/00Radiation pyrometry
    • G01J2005/0077Imaging

Abstract

A thermal image analysis monitoring device and monitoring system, and a thermal image analysis monitoring method, relating to the application field of thermal image devices, thermal image processing apparatuses for receiving and processing thermal image data, and thermal image shooting. Aiming at the shortcoming in the prior art that when data such as thermal image data frames is continuously transmitted to a background computer, a user needs to monitor thermal image data, etc. of a shot object for a long time, so that the user is apt to fatigue and then omits emergency situations, provided are a thermal image analysis monitoring device and monitoring system, and a thermal image analysis monitoring method, which analyze specified frames of acquired thermal image data frames, judge whether a sending condition is met or not according to a comparison result between the analysis data obtained thereby and a specified judgement value, which is taken as a judgement condition or one of a number of judgement conditions, and send specified notification information in a wireless mode when the sending condition of the specified notification information is met. Therefore, the workload of subjective monitoring of the user is reduced.

Description

 Description

 Thermal image analysis monitoring device, monitoring system and thermal image analysis monitoring method

 Technical field

 The thermal image analysis monitoring device, the monitoring system and the thermal image analysis monitoring method of the present invention relate to a thermal image analysis monitoring device, a thermal image processing device that receives and processes thermal image data frames, and an application field of thermal image capturing.

 Background technique

 There is such a technology, a thermal image monitoring device is set up, which is used for continuous monitoring of the object, and the collected thermal image data frame is transmitted to the background computer, and analyzed by the background computer, and the infrared thermal image is displayed, which is convenient for the user. Monitoring in the background, which realizes the separation of man and machine, can reduce the labor intensity of the user and ensure the safety of the user. The patent document No. 200920113208. 9 uses a mobile workstation of the thermal image monitoring device of such technology.

 However, the prior art has the following problems in use: The thermal image data frame is continuously transmitted to the background computer, and the user needs to monitor the thermal image display screen of the subject for a long time, and is prone to fatigue and misses a sudden situation. And increased the workload.

 For example, a thermal image monitoring device is temporarily installed on a hidden danger device of a substation. The temperature of the hidden device is in a state of change due to changes in load, etc. In the prior art, the workload monitored by the user is very large, especially in long-term monitoring. Users work overtime in turn; how to reduce the user's work intensity and achieve good monitoring results is a difficult point.

 Therefore, it is understood that a thermal image analysis monitoring device is required, which can achieve the long-term observation without requiring the user to send the configured prescribed notification information according to the transmission condition of the prescribed notification information, thereby achieving continuous monitoring and not easily missing the emergency situation. Reduce labor intensity, reduce system cost, and use simple benefits.

 Summary of the invention

 The invention provides a thermal image analysis monitoring device and a thermal image analysis monitoring method, and analyzes a predetermined frame of the acquired thermal image data frame, and compares the obtained analytical data with a predetermined judgment value as a judgment condition or One of the judgment conditions determines whether or not the transmission condition is met, and when the transmission condition of the predetermined notification information is met, the predetermined notification information is transmitted wirelessly, thereby reducing the workload of subjective monitoring by the user.

 To this end, the present invention adopts the following technical solutions, and the thermal image analysis monitoring device includes:

 a photographing unit, configured to capture a frame for acquiring thermal image data;

 An analysis unit, configured to analyze a predetermined frame of the acquired thermal image data frame to obtain first analysis data;

 The determining unit is configured to determine, according to the comparison result of the first analysis data and the predetermined determination value, whether one of the determination condition or the determination condition meets the transmission condition of the predetermined notification information;

 An information configuration unit, configured to configure the specified notification information;

 a communication control unit configured to control the communication unit to wirelessly transmit the predetermined notification information;

 The determination unit determines that the transmission condition is met, and the communication control unit controls the communication unit to transmit the predetermined notification information.

 Another solution, the thermal image analysis monitoring device, includes:

 An obtaining unit, configured to acquire a thermal image data frame;

 An analysis unit, configured to analyze a predetermined frame of the acquired thermal image data frame to obtain first analysis data;

 The determining unit is configured to determine, according to the comparison result of the first analysis data and the predetermined determination value, whether one of the determination condition or the determination condition meets the transmission condition of the predetermined notification information;

 An information configuration unit, configured to configure the specified notification information;

 a communication control unit configured to control the communication unit to wirelessly transmit the predetermined notification information;

The determination unit determines that the transmission condition is met, and the communication control unit controls the communication unit to transmit the predetermined notification information. Instruction manual

 The monitoring system of the present invention comprises the above-mentioned thermal image analysis monitoring device and one or more transmitting objects; the transmitting object comprises a network server and/or a user terminal, and the user terminal comprises a portable mobile phone, a PDA, a notebook computer , tablet.

 The invention also provides a thermal image analysis monitoring method, comprising:

 a shooting step for capturing a frame of a thermal image data;

 An analyzing step, configured to analyze a specified frame of the acquired thermal image data frame to obtain first analysis data;

 a determining step of determining, according to a comparison result of the first analysis data and the predetermined judgment value, as one of a judgment condition or a judgment condition, whether the transmission condition of the predetermined notification information is met;

 Information configuration step, configured to configure the notification information;

 a communication control step, configured to control the communication step to perform the transmission of the specified notification information in a wireless manner;

 Wherein, when the determining step determines that the sending condition is met, the communication control step controls the communication step to send the prescribed notification information. Another thermal image analysis monitoring method includes:

 An obtaining step, configured to obtain a thermal image data frame;

 An analyzing step, configured to analyze a specified frame of the acquired thermal image data frame to obtain first analysis data;

 a determining step of determining, according to a comparison result of the first analysis data and the predetermined judgment value, as one of a judgment condition or a judgment condition, whether the transmission condition of the predetermined notification information is met;

 Information configuration step, configured to configure the notification information;

 a communication control step, configured to control the communication step to perform the transmission of the specified notification information in a wireless manner;

 Wherein, when the determining step determines that the sending condition is met, the communication control step controls the communication step to send the prescribed notification information. Other aspects and advantages of the invention will be set forth in the description which follows.

 BRIEF DESCRIPTION OF THE DRAWINGS:

 Fig. 1 is a block diagram showing a schematic configuration of a thermal imaging device 100 according to a first embodiment of the present invention.

 Fig. 2 is a view showing a state in which the thermal image device 100 of the first embodiment is placed.

 Fig. 3 is a schematic view of an infrared thermal image displayed on the display unit.

 4 is a schematic diagram of a transmission condition configuration interface.

 Figure 5 is a schematic diagram of an analysis area configuration interface.

 Fig. 6 is a diagram showing an example of display of analysis data and judgment threshold setting interface.

 Fig. 7 is a display example of a predetermined notification information arrangement interface.

 Fig. 8 is a display example of a transmission object configuration interface.

 Fig. 9 is a flow chart showing the control of the first embodiment.

 Fig. 10 is a view showing an example of display of predetermined notification information.

 Fig. 11 is a view showing another example of display of the predetermined notification information.

 Fig. 12 is a schematic diagram showing a transmission condition configuration interface of the second embodiment.

 Fig. 13 is a flow chart showing the control of the second embodiment.

 Fig. 14 is a schematic diagram showing a transmission condition configuration interface of the third embodiment.

 Figure 15 is a control flow chart of Embodiment 3.

 Fig. 16 is a schematic diagram showing a transmission condition configuration interface of the fourth embodiment.

 Figure 17 is a control flow chart of Embodiment 4.

 Fig. 18 is a flowchart showing the control of the fifth embodiment.

FIG. 19 is a display example showing predetermined notification information. Instruction manual

 Fig. 20 is a flowchart showing the control of the sixth embodiment.

 Figure 21 is a flow chart showing the control of the seventh embodiment.

 detailed description

 Exemplary embodiments of the present invention will now be described in detail in accordance with the accompanying drawings. It is to be noted that the embodiments to be described below are intended to provide a better understanding of the invention, and not to limit the scope of the invention, and various forms within the scope of the invention. In the following embodiments, the thermal image device 100 having the imaging member is taken as an example of the thermal image analysis monitoring device.

 However, the photographing function is not essential to the present invention, and the present invention is also widely applicable to a thermal image processing apparatus (as another example of the thermal image analysis monitoring apparatus) that receives and processes a thermal image data frame from the outside, the thermal image. Processing devices such as personal computers, personal digital assistants (PDAs), and the like.

 The so-called thermal image data frame is data obtained based on the output signal of the infrared detector. In the first embodiment, the AD value data obtained by the AD detector after the output signal of the infrared detector is taken as an example. However, in other embodiments, the thermal image data frame may be, for example, image data of an infrared thermal image, and may be, for example, array data of temperature values, for example, a digital signal outputted by the infrared detector itself. The thermal image data frame formed by the AD value).

 Hereinafter, the analysis data not specifically indicated refers to the first analysis data related to the judgment.

 Example 1

 The thermal imaging device 100 of the first embodiment sequentially performs temperature value analysis on the acquired thermal image data frame based on the thermal image data frame captured by the imaging unit 1 to obtain analysis data, and the thermal imaging device 100 conforms to the transmission condition of the predetermined notification information. The analysis data obtained by the analysis is sent to the mobile phone of the specified user according to the predetermined mobile phone number.

 Fig. 1 is a block diagram showing a schematic configuration of a thermal imaging device 100 according to an embodiment 1 of the present invention.

 Specifically, the thermal imaging device 100 includes an imaging unit 1, a temporary storage unit 2, a hard disk 3, a wireless communication unit 4, an image processing unit 5, an analysis unit 6, a display unit 7, a control unit 8, an operation unit 9, and a control unit 8. The overall control of the thermal imaging device 100 is responsible for the connection of the control and data bus 10 to the corresponding portions described above.

 The imaging unit 1 is composed of an optical member (not shown), a lens driving member, an infrared detector, a signal preprocessing circuit, and the like. The optical component consists of an infrared optical lens for focusing the received infrared radiation onto the infrared detector. The lens driving section drives the lens in accordance with a control signal of the control section 8 to perform a focusing or zooming operation. In addition, it can also be a manually adjusted optical component. Infrared detectors, such as infrared or non-refrigerated infrared focal plane detectors, convert infrared radiation through optical components into electrical signals. The signal pre-processing circuit comprises a sampling circuit, an AD conversion circuit, a timing trigger circuit, etc., and the signal output from the infrared detector is sampled and processed in a predetermined period, and converted into digital thermal image data by the AD conversion circuit (again The thermal image data is, for example, 14-bit or 16-bit binary data, and the thermal image data frame is constituted by the thermal image data of the predetermined array based on the control of the control unit 8. The thermal image data frame is not limited to the inherent resolution of the infrared detector, and may be lower or higher than the infrared detector resolution. In Embodiment 1, the photographing section 1 is used as an example of an acquisition section for acquiring a thermal image data frame.

 The temporary storage unit 2 is a buffer memory that temporarily stores a thermal image data frame output from the imaging unit 1 as a volatile memory such as a RAM or a DRAM. For example, based on the control of the control unit 8, the following processing is repeated, that is, the acquired thermal image data. The frame temporarily stores a predetermined time portion, and when a new frame is acquired by the imaging unit 1, the old frame is deleted and a new thermal image data frame is stored. Meanwhile, the image processing unit 5, the analysis unit 6, the control unit 8, and the like The working memory functions to temporarily store the processed data. The present invention is not limited thereto, and a memory, a register, and the like included in the corresponding processor such as the image processing unit 5, the analysis unit 6, and the control unit 8 may be interpreted as a temporary storage medium.

 The hard disk 3 stores programs for control and various data used in various parts of the control. In addition, the hard disk 3 can also be used to continuously record data such as acquired thermal image data frames.

The communication unit 4 performs transmission of the predetermined notification information in accordance with the transmission condition based on the control of the control unit 8. Specifically, in one embodiment, the communication unit 4 is configured, for example, with a GPRS communication unit, and can send a short message, a multimedia message, etc. to a predetermined user based on the control of the control unit 8. Description

The terminal, such as a mobile telephone, can be pre-stored in the SIM card of the thermal imaging device 100, such as a GPRS communication unit. In other embodiments, for other wireless communication units, such as GMS, CDMA, PHS (PHS), 3G, 4G, 5G, WIFI and other wireless communication units, it is obvious that the GPRS communication unit can also be replaced and passed through the corresponding communication network. To accomplish similar purposes and effects. The communication unit 4 may be configured with one or more of the above communication units. Preferably, the communication unit 4 may have at least one of GPRS, GSM, CDMA, 3G, 4G, 5G, and WIFI units.

 The user terminal is not limited to a mobile phone, and may be another portable communication terminal that performs data communication with the communication unit 4, such as a PDA, a tablet computer, a notebook computer, etc.; the user terminal may be a local area network or the like on the Internet. The computer, the communication unit 4 is provided with, for example, a wireless communication unit such as GPRS, 3G, 4G, 5G, or a wireless network card (such as a WIFI unit), and transmits predetermined notification information to a computer on the Internet or a local area network.

 Further, the predetermined notification information to be transmitted is not limited to a communication terminal or the like that is transmitted to the user. For example, the communication unit 4 may transmit the predetermined notification information to the corresponding website server, and the user may log in to the website to view the predetermined notification information.

 In addition, the communication unit 4 can also have other various implementation manners, for example, a communication unit configured by means of satellite transmission, such as maritime satellite IDEN, Beidou satellite, etc., to send short messages, pictures, voices, etc. to corresponding users according to a prescribed communication protocol. terminal. For example, by means of self-organized wireless relay transmission, voices can be sent, or pictures or text can be sent to the corresponding user terminal. In addition, when applied to short-distance wireless transmission, the communication unit 4 can also use Bluetooth, IRDA, Zigbee, and the like to implement information transmission.

 Further, the communication section 4 can also be configured to receive various external indication information (e.g., short messages, etc.) for better control of the thermal image device 100. Further, the communication unit 4 may be a communication device connected to the thermal imaging device 100, and the thermal imaging device 100 has no communication portion in its configuration. It is apparent that the thermal image monitoring system constituted by the thermal image device 100 and the user terminal can be constituted by one or more thermal image analysis monitoring devices and one or more user terminals such as mobile phones, PDAs, etc., and/or web servers.

 The image processing unit 5 performs predetermined processing on the thermal image data frame obtained by the imaging unit 1, and the processing of the image processing unit 5 is converted into a suitable display for correction, interpolation, pseudo color, synthesis, compression, decompression, and the like. Processing of data such as use and recording. For example, each time the display timing comes, a frame of each predetermined time interval is selected and read from a thermal image data frame temporarily stored in the temporary storage unit 2 for a predetermined time period, and pseudo color processing is performed. Obtaining image data of the infrared thermal image; an embodiment of the pseudo color processing, for example, a range of the thermal image data (in the present embodiment, the thermal image data refers to the AD value) or a set range of the AD value according to the thermal image data frame To determine the corresponding pseudo-color table range, the specific color value corresponding to the thermal image data in the pseudo color plate range is taken as the image data of the corresponding pixel position in the infrared thermal image. The image data obtained after the pseudo color processing by the image processing unit 5 is transferred to the temporary storage unit 2 used as a buffer memory. The image processing unit 5 can be realized by, for example, a DSP or another microprocessor, a programmable FPGA, or the like, or can be integrated with the processor of the analysis unit 6 and the control unit 8.

 The analyzing unit 6 is configured to analyze a predetermined frame of the acquired thermal image data frame to obtain analysis data. The analysis of the predetermined frame of the thermal image data frame may be performed by analyzing the thermal image data frames continuously acquired by the acquisition unit in sequence, or by analyzing the frames specified in the continuously acquired thermal image data frames (for example, specifying The analysis of the corresponding thermal image data frame), or the frame obtained by the multi-frame operation, etc., thereby reducing the processing burden associated with the analysis; wherein, for example, the acquired thermal image data frame can also be recorded on the hard disk In the case of 3, when the transmission condition or the analysis timing or the like is met, the recorded thermal image data frame is read for analysis. Obviously, the analysis data may be data obtained by analyzing one or more frames of thermal image data frames.

 A specific embodiment of the analysis unit 6 will be described by taking temperature analysis as an example. In Embodiment 1, the analysis data is a temperature value obtained by temperature analysis, such as a maximum temperature, an average temperature, a lowest temperature in a specific analysis region, or a temperature difference value in a different analysis region.

In one embodiment, the analysis unit 6 performs analysis processing based on a predetermined analysis region and analysis mode. The analysis area represents a specific analysis area in the thermal image data frame, such as a point, a line, a surface, or an entire thermal image data frame as an analysis area. The so-called analysis mode, for example, calculates the highest temperature, the lowest temperature, and the average of the analysis area. Temperature, temperature difference between different analysis areas, etc. In one example, the analysis area Description

The domain and analysis mode may be pre-set by the user, in another example, defaulted to the thermal image device 100; in yet another example, the analysis region and the analysis mode may also be automatically set according to prescribed rules, the analysis department 6 has an analysis area setting unit for setting an analysis area related to the analysis, and an analysis mode setting unit for setting an analysis mode related to the analysis.

 Specifically, the analysis unit 6 performs predetermined processing such as correction and interpolation on the analyzed thermal image data frame, extracts thermal image data determined by the analysis region based on a predetermined analysis region, and performs temperature value conversion processing to obtain the heat. The temperature value corresponding to the data is then analyzed and calculated according to the specified analysis mode. Taking the analysis area S01, the analysis area S02, and the calculation S01MAX-S02MAX shown in FIG. 6 as an example, the thermal image data in each analysis area (S01, S02) is sequentially converted and analyzed, and each is obtained. The highest temperature value of the analysis area is stored in the predetermined area of the temporary storage unit 2 in association with the calculated maximum temperature value, and then the final analysis data is calculated according to the relationship between the analysis areas in the analysis mode. (S01MAX-S02MAX).

 The above examples are not intended to be limiting as to the embodiment of the analysis process. For example, the process of converting the thermal image data in the analysis region into a temperature value may be to convert all the thermal image data in the analysis region into a temperature value; or to convert the predetermined partial thermal image data into a temperature value; It is possible to determine whether to convert the thermal image data according to different modes of calculating the highest, lowest, and average temperature in the analysis mode, and to convert a part of the thermal image data in the analysis region, or all; for example, the analysis mode is the highest in the calculation analysis region. At the temperature, for the thermal image data in the analysis area, the magnitude of the thermal image data AD value is first compared, and the largest AD value is converted into the temperature value, and it is not necessary to analyze the thermal image data pixels in the region. All values are converted to temperature values. In addition, the case where the algorithm is different is also included. For example, when calculating the highest temperature, the AD value of the adjacent pixel of the maximum average value is not converted into the temperature by the average value of the AD values of the predetermined number of adjacent pixels instead of a single pixel. The value, and the average value of the temperature values of the adjacent pixels is taken as the highest temperature value, and the maximum temperature can also be calculated from the AD value of a single pixel. The thermal image data is converted into a temperature value by a predetermined process, for example, according to the set emissivity of the object, the ambient temperature, the humidity, the distance from the thermal image device 100, and the like, and the AD value of the thermal image data and the temperature. The conversion factor is obtained by specifying a conversion formula to obtain a temperature value. In addition, as shown in FIG. 6, the thermal image data determined by the analysis area may be configured to analyze the thermal image data in the regions S01 and S02, or may be configured to analyze the thermal image data outside the regions S01 and S02, or may be configured as The thermal image data of the pixel in which the lines of the regions S01 and S02 are located is analyzed.

 The above example illustrates the case where the temperature value analysis data is obtained according to the analysis area, but is not limited thereto, and the analysis data for the thermal image analysis has various conditions depending on the application, and is not limited to the temperature value; for example, a specific temperature value The percentage content in the pixel array of the thermal image data frame, etc.; based on the AD value of the thermal image data frame, the gray value, the color value of the pseudo color, etc., the obtained analysis data, or the AD value is converted into the radiant energy value , gray value, emissivity value, color value, etc. for analysis. The invention is equally applicable to these situations.

 The analysis unit 6 may be implemented by, for example, one or more of a DSP, a programmable FPGA, and another microprocessor, or may be a processor integrated with the processor of the image processing unit 5 and the control unit 8. to realise.

 The display unit 7, for example, a liquid crystal display device for displaying the image data for display stored in the temporary storage unit 2 on the display unit 7. For example, in the shooting standby mode, the infrared thermal image generated by the thermal image data frame obtained by the shooting is continuously displayed; in the playback mode, the infrared thermal image generated by reading the recorded thermal image data frame from the hard disk 3 is displayed, and, in addition, Various setting information is displayed. Without being limited thereto, the display unit 7 may be another display device that can be wired or wirelessly connected to the thermal image device 100, and the thermal image device 100 itself may have no display portion in its electrical configuration.

 The control unit 8 controls the overall operation of the thermal imaging device 100, and a program for control and various data used for control of each part are stored in a storage medium such as the hard disk 3. The control unit 8 is realized by, for example, a CPU, an MPU, a SOC, a programmable FPGA, or the like.

Further, the control unit 8 includes a determination unit for determining whether or not the transmission condition of the predetermined notification information is met, and whether or not the transmission condition of the predetermined notification information is satisfied based on one or more of the determination conditions. A preferred embodiment is configured to determine whether the transmission condition is met according to one of a determination condition or a determination condition based on a comparison result between the analysis data and the predetermined determination value. In the first embodiment, based on the analysis data and the predetermined judgment value The comparison judges whether or not the transmission of the predetermined notification information is performed. For example, when the temperature difference (S01MAX-S02MAX) is greater than 4 °C, it is determined that the transmission condition of the predetermined notification information is satisfied. Instruction manual

 In a preferred embodiment, the determining condition includes at least one or more of the following conditions:

 1) analyzing the judgment condition, for example, comparing the analysis data with a predetermined judgment value (for example, a set threshold value) obtained by analyzing the predetermined frame of the thermal image data frame by the analysis unit; It also includes an analysis and judgment condition based on the diagnosis result.

 2) timing conditions, such as determining whether the specified timing is reached;

 3) query conditions, for example, determining whether the communication unit receives external indication information (such as a phone call, a short message, a mail, other specific information, etc.); for example, according to the content of the external indication information received by the communication unit;

 4) The state condition of the thermal image analysis monitoring device; for example, whether the state information of the thermal image analysis monitoring device or the comparison result of the state information with the predetermined value is obtained as the state condition. The status information such as the power state, the tilt attitude of the thermal image analysis monitoring device, and the environmental conditions such as wind speed, ring temperature, humidity, and the like.

 5) A condition of the specific trigger information, such as whether a specific trigger information is obtained or a comparison result of the specific trigger information with a prescribed value as a condition of the specific trigger information. The specific trigger information is triggered by, for example, trigger information obtained by a device that is wired or wirelessly connected to the thermal image analysis monitoring device, such as a load of the object connected to the thermal image analysis monitoring device, a rotational speed, and the like. information.

 6) The condition of the orientation information, for example, whether or not the orientation information is received or the comparison result of the orientation information with the prescribed value is used as the condition of the orientation information. The orientation information such as the GPS information of the installation location of the thermal image analysis monitoring device 100, such as the GPS information of the thermal image analysis monitoring device 100 itself.

 Here, a judgment condition, for example, in the first embodiment, when the judgment analysis data (S01MAX-S02MAX) is larger than 4Ό, it is determined that the transmission condition of the predetermined notification information is satisfied.

 The plurality of judgment conditions may be determined to be in accordance with the transmission condition of the predetermined notification information when all of the plurality of judgment conditions are judged to be in conformity.

 The plurality of judgment conditions may be a condition for determining that the one of the plurality of judgment conditions meets, that is, the condition that the predetermined notification information is met, wherein a judgment condition may further include a plurality of sub-conditions, and the sub-condition When both are satisfied, it is judged that the judgment condition is satisfied.

 The judgment condition may be fixed or may be changed according to a predetermined condition. For example, the comparison result of the analysis data and the threshold is used as a judgment condition, and when the predetermined threshold is reached, the original threshold is updated (for example, the specified value is increased); for example, an external indication information such as a short message is received, according to the threshold in the short message. The original threshold is updated as a transmission condition or the like.

 Further, the control unit 8 has an information arrangement unit for arranging the predetermined notification information to be transmitted, and the predetermined notification information may include, for example, analysis data (first analysis data or second analysis data), analysis data (first analysis data or Second analysis data) One or more of corresponding time, analysis chart, statistical data, diagnostic information, infrared data, orientation information, number of thermal image device 100, and the like. In addition, it can include status information (such as attitude, power supply, etc.) of the thermal image analysis monitoring device, environmental conditions (such as ambient temperature, wind speed, etc.), and externally acquired trigger information (such as the load of the subject).

 The analysis data (the first analysis data or the second analysis data) may be analysis data obtained by analyzing one or more specified frames of the acquired thermal image data frame (first analysis data or second analysis data) For example, the analysis data obtained by the frame analysis is specified at one or more time points of the specified time period, for example, the analysis data obtained by analyzing the thermal image data frame obtained when the transmission condition is met, for example, the previous transmission to the next transmission period is greater than The largest analytical data of the threshold, etc.

 The time corresponding to the analysis data (the first analysis data or the second analysis data), for example, the acquisition time of the thermal image data frame of the analysis data, for example, the analysis time corresponding to the analysis data, the transmission time of the transmission analysis data, and the like, There are various ways to do this.

Wherein, the analysis chart, such as an analysis chart obtained based on the analysis data (the first analysis data or the second analysis data) or the analysis data (the first analysis data or the second analysis data) and the corresponding time series information, includes various curves, a histogram A graph, a data list, or the like, for example, an analysis data trend curve, for example, a histogram of analysis data of a plurality of thermal image data frames during a predetermined time period. The generating of the analysis data trend curve may be obtained by analyzing the data (the first analysis data or the second analysis data) with a corresponding timing, for example, the analysis data and the corresponding Description

The thermal image data frame is taken by one of the shooting time or serial number, the analysis processing time of the analysis data, and the like. For example, the analysis data-time curve obtained based on the thermal image data frames of a plurality of predetermined time points, the analysis data of each thermal image data frame obtained by the analysis, and the timing of the corresponding thermal image data frame, such as the time of the shooting time.

 Among them, statistical data, statistical data related to analysis data, trigger information, etc., such as the number of times the analysis data exceeds the threshold in a specified time period.

 Wherein, the diagnostic information, for example, the diagnosis result obtained by comparing the analysis data (the first analysis data or the second analysis data) obtained by one or more frames of the thermal image data frame with the threshold.

 The infrared data, for example, the acquired thermal image data frame, for example, an infrared thermal image generated based on the acquired thermal image data frame, may be a localized, or reduced, or complete infrared thermal image or thermal image data frame; One or more frames of infrared data that can be obtained from a thermal image data frame acquired in one or more frames. Obviously, the infrared data and the analysis data and the like may be obtained based on a specified thermal image data frame (which may be one or more frames); preferably, the infrared data is in a format convenient for the user terminal to view, such as a general picture browsing format. For example, infrared thermal images in JPG, BMP, DIB, JPEG, TIFF, etc.; thus, the user terminal does not have to install software for processing the thermal image data frame pseudo color. However, the background computer in the prior art thermal image monitoring system, if it is necessary to analyze the thermal image data frame to obtain the analysis data, often needs to install dedicated analysis software, which increases the complexity of the background software. Obviously, the infrared data in the prescribed notification information may be one or more frames, a multi-frame, such as a video segment of an infrared thermal image.

 The orientation information, for example, the GPS information of the location where the thermal imaging device 100 is installed, and the manner in which the orientation information is acquired, for example, the communication unit 4 may be a wireless communication unit with a positioning function, or may be included in the thermal imaging device 100. A GPS unit transmits the orientation information (such as GPS) of the thermal image device 100 to the user when transmitting.

 Wherein, the number of the thermal image analysis monitoring device, such as the number of the thermal image device 100, when a plurality of thermal image analysis monitoring devices are used, facilitates the user to know the source of the notification information, and facilitates the notification of the received notification information. The authentication information such as the number of the thermal image analysis monitoring device is processed and managed.

 Among them, status information, such as the tilt posture of the thermal image device 100, the power state, and the like.

 Among them, specific trigger information, for example, trigger information obtained based on other devices connected to the thermal image device 100, and the like.

 The information configuration unit may also process the content of the prescribed notification information into a prescribed format conforming to the communication unit 4 for information transmission and user terminal reception. For example, when transmitting an image multimedia message including an infrared thermal image, the infrared thermal image is compatible with the MMS mobile phone. The format is processed, for example, in the MMS format, to facilitate the transmission of prescribed notification information in a prescribed format. The processing format of the transmission terminal type and the corresponding prescribed notification information packet may be previously stored in a storage medium such as the hard disk 3.

 Further, in the first embodiment, the information arrangement unit is arranged to arrange the predetermined notification information after the determination unit determines that the transmission condition is met. However, in another embodiment, the information configuration unit may be configured to configure the predetermined notification information before the determination unit determines that the transmission condition is met; and when the transmission condition is not satisfied, for example, the newly acquired thermal image data may be The frame updates the specified notification information; if it is satisfied, it is sent.

 Further, the information arrangement unit is configured to arrange different or identical predetermined notification information according to different information arrangement conditions; the information configuration condition is, for example, the same condition as the transmission condition, or may be another predetermined condition. The content of the predetermined notification information arranged by the information arrangement unit may be a fixed content configuration, but may be configured as a different content. For example, when the transmission condition is met, for example, if the analysis data is smaller than a predetermined value, the configured notification information includes Analytical data (first analysis data or second analysis data), for example, including analysis data and time; when greater than a specified threshold, the configured prescribed notification information includes at least a thermal image data frame, such as analysis data (first analysis data) Or second analytical data), time, infrared data. This can achieve the beneficial effects of reducing the amount of data sent, prompting the user, and the like.

It is to be noted that the analysis data (first analysis data and/or second analysis data) configured by the information configuration section or information obtained based on the analysis data (first analysis data and/or second analysis data) (eg, diagnostic information) , as in the analysis chart, can be related to the judgment Description

The data (first analysis data) is the same or different (second analysis data). The analysis unit 6 may obtain the first analysis data and the second analysis data as examples of the first analysis unit and the second analysis unit, respectively, wherein the analysis processing of the first analysis data and the second analysis data is different (related to the analysis) At least one of the thermal image data frame, analysis area, analysis mode, etc. is different). Thereby, the beneficial effects of providing rich analysis data while reducing the burden of the analysis processing are achieved.

 Further, the control unit 8 includes a communication control unit, and when the determination unit determines that the transmission condition of the predetermined notification information is satisfied, the control communication unit 4 transmits the predetermined notification information.

 The communication control unit may further have a transmission target control unit that can control the transmission of the prescribed notification information to the corresponding identical or different transmission objects according to different transmission configuration conditions, and/or configure different or identical transmission times. For example, when the transmission condition is met, when the analysis data is less than the specified threshold, it is sent to the corresponding website server, and when it is greater than the specified threshold, it is sent to the mobile phone of the specified user. The number of transmissions indicates that the one-time transmission condition is met, whether the predetermined notification information is sent once, or is continuously sent multiple times; usually, the default is 1. The transmission order indicates a transmission order of the transmission object and a sequential transmission order when one or more pieces of prescribed notification information are generated.

 Furthermore, the control unit 8 may further have a diagnostic unit for obtaining a diagnosis result based on the analysis result of the analysis unit 6, for example based on analysis data (which may be first analysis data and/or second analysis data) and a predetermined determination value. A comparison between the two to obtain a corresponding diagnosis result, and the diagnosis information representing the diagnosis result may be recorded in advance in the storage medium of the thermal image device 100 together with the comparison relationship between the analysis data and the predetermined judgment value; obviously, for the analysis data and the regulation Different comparisons of the judgment values may have different diagnostic information. For example, in Figure 6, the diagnostic information corresponding to S01 AX-S02MAX>4°C is a serious defect. Further, it can be configured as follows: S01MAX-S02MAX>8°C corresponding diagnostic information is critical defect, S01MAX-S02MAX<2 °C The corresponding diagnostic information is normal.

 Moreover, the control unit 8 may have a timing unit for performing timing of time; for example, based on the information of the current time (for example, year, month, 曰, hour, minute, second) of the counted and the time of the timing, the time is realized. timing.

 Operation unit 9: For the user to perform various instruction operations or input various operations such as setting information, the control unit 8 executes the corresponding program based on the operation signal of the operation unit 9. The operation unit 9 can perform related operations using a button, a display unit 7 (with a touch screen), or a voice recognition unit (not shown). Further, the structure of the thermal image device 100 may not have an operation portion, and the user realizes the operation of the thermal image device 100 through an operation portion that can be wirelessly or wiredly connected to the thermal image device 100; or an operation portion is not required.

 The following describes the application and control flow of the thermal imaging device 100. In the application scenario, such as the power industry, when the user finds that the temperature of a certain device is abnormal, in order to properly arrange the power failure repair work, it is necessary to evaluate whether the subject has a deteriorating trend or evaluate the deterioration. In the state, the user erects the thermal imaging device 100 to continuously monitor the subject.

 The erection of the thermal image device 100 will be described with reference to FIG. 2, for example, by a tripod. The power supply portion may be a built-in battery, a battery connected to the thermal image device 100, or an external power source (such as 220V). .

 After the power is turned on, the control unit 8 controls the overall operation of the thermal image device 100 and the control for executing the plurality of mode processes based on the control program stored in the hard disk 3 and various data used in the respective partial controls. The control unit 8 initializes the internal circuit, and then enters the standby shooting mode, that is, the imaging unit 1 captures and obtains a thermal image data frame, and the image processing unit 5 performs a predetermined process on the thermal image data frame captured by the imaging unit 1 and stores it in the temporary In the storage unit 2, the display unit 7 displays a real-time infrared thermal image, such as an infrared thermal image as shown in FIG.

An embodiment of the transmission condition setting menu of the thermal imaging device 100 is explained with reference to FIG. 4; after the user selects to enter the menu mode through the operation portion 9, the display portion 7 can display a configuration interface as shown in FIG. 4-8 for the user. Set (add, modify, delete) the content of the sending condition, the specified notification information, the destination to be sent, the number of times to send, and so on. The display unit 7, the operation unit 9, the control unit 8, and the like constitute an example of an arrangement member, and is configured to allow the user to configure at least one of a transmission condition, a configuration of the predetermined notification information, a transmission destination, and a number of transmissions. A combination of one or more transmission conditions, a configuration of the predetermined notification information, a transmission target, and a transmission count may be configured, and a default value of the thermal imaging device 100 may be adopted by the user. The display unit 7 and the operation unit 9 may be external devices that can be connected to the thermal imaging device 100, and the thermal imaging device 100 itself has no display unit or operation unit. Instruction manual

 The transmission condition may be configured, for example, to satisfy one of a timing condition, a query condition, an analysis judgment condition, and the like, or a plurality of conditions at the same time, as a transmission condition for transmitting the predetermined notification information. Preferably, at least the analysis judgment condition is one of the configurations of the transmission condition or the transmission condition of the predetermined notification information.

 Here, the timing condition 401, the time when the user enters the timing, and whether or not the timing condition is one of the transmission conditions or the transmission conditions. In the query condition 402, the user selects the query condition as one of the transmission conditions or the transmission condition; for example, the communication unit 4 receives the short message information, the telephone, and the like that the predetermined user transmits via the mobile phone or the like, for example, The specific information sent by the user through the network through an external computer, the predetermined user, for example, the user who sends the short message to the thermal image device 100, but may also prescribe the verification information such as the telephone number, the instruction, the user verification password, etc. of the specified user. When the external indication information includes the above verification information, the received external indication information is valid. Preferably, the analysis unit may further be configured to analyze the content of the received external instruction information of the predetermined user, and determine at least one of the transmission condition, the configuration of the predetermined notification information, the transmission destination, and the number of transmissions.

 The analysis and determination condition 403 is used for the user to configure the analysis area and the analysis mode related to the analysis and judgment (the calculation mode of the analysis data in the analysis area such as maximum, minimum, average, etc., the calculation relationship of the analysis data between the analysis areas, etc.) And the relationship between the plurality of judgment sub-conditions composed of the predetermined judgment value, the plurality of analysis data, and the corresponding judgment value corresponding to the analysis data (analysis data obtained according to the analysis region and the corresponding analysis mode) (and, or, and In addition, there may be diagnostic information corresponding to the judgment result of the analysis data and the judgment result, for example, the nature of the subject state, "normality, defect, serious defect", etc., and the judgment basis, defect type, defect degree , processing suggestions, etc. as remarks for diagnostic information.

 Referring to FIG. 5, the setting of the analysis area is explained. When the user selects the analysis judgment condition 403, the display unit 7 displays an interface as shown in FIG. 5, and displays a selection column 501 of the infrared thermal image and the analysis area (point, line, and surface), the user. The face (box) is selected from the dotted plane, and the analysis areas S01 and S02 are set in the infrared thermal image.

 The setting of the analysis data and its corresponding judgment value will be described with reference to FIG. 6. Then, when the judgment value configuration 502 is selected, the setting interface as shown in FIG. 6 is displayed, and the judgment value and the remark information corresponding to the analysis data and the analysis data are set. . Wherein, the "area" may select the analysis area set in FIG. 5, or all the pixels of the entire thermal image data frame as the analysis area; "mode" may select the calculation mode of the analysis data in the analysis area of maximum, minimum, average, etc.; "Calculation" may select the calculation relationship between the analysis data in the analysis area; "Comparative" may select the comparison relationship between the thresholds, for example, greater than "less than", "equal to"; "threshold" is between the analysis data and The judgment value of the comparison; the relationship between the plurality of analysis data and the judgment conditions constituted by the corresponding judgment values, such as the relationship between AND, AND, and NOT; "diagnosis" such as the diagnosis information corresponding to the judgment data corresponding to the judgment value For example, the nature of the subject state is "normal, defective, serious defect", etc. Further, the judgment basis, the type of defect, the degree of defect, the treatment suggestion, and the like can be used as the remark information of the diagnosis information. When the setting confirmation is completed, the words "S01MAX-S02MAX>4°C" are displayed in the analysis judgment condition 403 shown in FIG.

 The configuration of the prescribed notification information and the like will be described with reference to the configuration interface shown in FIG. Depending on the application, one or more of the analysis data, the time corresponding to the analysis data, the analysis chart, the statistical data, the diagnostic information, the infrared data, the orientation information, and the number of the thermal image device 100 may be used as the content of the prescribed notification information. Composition. Further, it is also possible to configure a content composition corresponding to different predetermined notification information according to different information configuration conditions.

 Referring to the configuration interface shown in FIG. 8, the configuration of the transmission object may be described. According to the configuration of the wireless communication unit 4, it may be a mobile phone number, a mailbox, a QQ number, a network address, etc., and may provide a notification to one or more transmission objects. The transmission of information. Further, it is also possible to configure the same or different predetermined notification information to be transmitted to different transmission objects according to different transmission configuration conditions.

In this embodiment, as shown in FIG. 4-8, the user performs the following settings: transmission condition: analysis and judgment condition setting 3⁄4"S01MAX-S02MAX>4°C" (shown in FIG. 4); analysis area is S01, S02 (shown in Figure 5); "S01MAX-S02MAX>4°C" corresponds to the "serious defect" (shown in Figure 6); the notification information is the analysis data and diagnostic information (shown in Figure 7); The object is: a mobile phone number 139XXXXXXXX (shown in Figure 8). Instruction manual

 Obviously, the user's configuration is expected to achieve the purpose of transmitting the prescribed notification information including the analysis data and the diagnostic information to the mobile phone number 1390XXXXXXXX when the analysis area S01 AX-S02MAX>4 °C.

 When the setting operation is completed and the enter key is pressed, the control unit 8 stores the set configuration in the hard disk 5 (for example, as a configuration file) as a default configuration of the thermal imaging device 100, and does not need to be used every time. Set it all once, and then return to the standby shooting state. It should be noted that, although an embodiment in which the related configuration can be performed by the user is exemplified, it is not limited thereto, and may be an embodiment in which the thermal image device 100 is configured at the time of shipment, that is, the related configuration of the above various processes is configured. The user is not required to perform any manual setting; or the configuration is completed in an external computer, and the configuration file is loaded to the thermal image device 100 before shooting; or, the user performs the configuration of part of the above description. Thus, it is apparent that the display portion 7 and the operation portion 9 can be removed in the configuration shown in Fig. 1.

 Referring to Fig. 9, the control flow of the thermal imaging device 100 will be described. The steps are as follows:

 Step A01, acquiring a thermal image data frame, and transmitting the thermal image data frame obtained by the imaging unit 1 to the temporary storage unit 2;

 Next, in step A02, the thermal image data frame obtained by the imaging unit 1 for immediate imaging, for example, is read, and the analysis unit 6 performs analysis; specifically, the analysis unit 6 is based on the set analysis regions S01, S02. The pixels of the thermal image data, calculate the maximum temperature, and obtain the analytical data (SOlmax-S02max);

 Further, in step A03, it is judged whether or not the transmission condition of the prescribed notification information is met.

Specifically, the obtained analysis data (S01m ax - S02ma X ) is compared with a predetermined determination value (4Ό), and if it is less than or equal to a predetermined determination value, the process returns to step A01, and the above steps are repeated. When the analysis data obtained by the analysis (S01m ax -S02ma X = 5O ) is greater than 4Ό, the next step is entered.

 Step Α04, the information configuration unit arranges the predetermined notification information. Specifically, the predetermined notification information is configured based on the analysis data obtained in step Α02 and the diagnostic information corresponding to the step 分析03 analysis data and the threshold value;

 Step Α05, Control sends the notification information.

 Specifically, the communication control unit (control unit 10) controls the communication unit 4 to transmit a short message specifying the notification information to the user's mobile phone (139 XXXXXXXX); an example of the short message specifying the notification information shown in FIG.

 Further, when the user configures a plurality of contents constituting the predetermined notification information, if an infrared thermal image, GPS information, or the like is also disposed, the short message example is as shown in the prescribed notification information shown in FIG.

 Further, after the predetermined notification information is transmitted, the analysis data stored in the temporary storage unit 2, the predetermined notification information, and the like can be deleted. Step Α06, judge whether to exit, if it exits, it ends. If it does not exit, return to step Α01 and repeat the above processing.

 As described above, by comparing the analysis data with the predetermined judgment value, when the thermal image data frame obtained by the continuous shooting is detected, when the analysis data is detected to be larger than the predetermined threshold, the user is notified by the short message notification, and the user does not It is necessary to perform device monitoring by means of human viewing of images or after-the-fact tracking. Since mobile communication technology is used to transmit prescribed notification information, since the transmission network is a mobile communication network, there is no need to build a network, and the notification information is determined. Automatically transmitted to the user's mobile phone when abnormal, thus reducing the workload of the user, improving the timeliness of monitoring and improving the monitoring efficiency (one user can simultaneously monitor multiple thermal imaging devices 100); since the information sent contains analysis Data, diagnostic information, etc., therefore, compared with the prior art, the method of continuously transmitting the thermal image data frame, the analysis software that does not need to install the thermal image data frame at the receiving end can analyze and obtain the analysis data, which simplifies the user's use operation; User's use. Obviously, when the thermal image analysis monitoring device is in the application form of the portable thermal imaging device with the shooting function, it is advantageous to quickly let other users who are not in the scene quickly understand the shooting situation. The predetermined notification information does not necessarily include analysis data or the like, and may only include a predetermined thermal image data frame.

In other embodiments, when the notification information does not include the analysis data and the transmission condition is determined to be independent of the analysis data, if only the infrared thermal image obtained by the specified thermal image data frame is included, the step Α03 may be omitted or available. The processing steps are replaced, and accordingly, the configuration of the analyzing unit 6 can be removed in the configuration of the thermal imaging device 100 shown in FIG. Instruction manual

 Further, in another example, if the analysis data is not related to the judgment transmission condition, it may be first determined whether or not the transmission of the predetermined notification information is required; and then the analysis is performed, and the analysis information obtained by the analysis is arranged.

 Example 2

 The second embodiment is different from the first embodiment in that the present embodiment has an update unit (the control unit 8 has an update unit and is not shown) for updating the determination condition, and after updating the determination condition, the The determination unit is configured to determine whether or not the transmission condition of the predetermined notification information is met based on the updated determination condition.

 In the first embodiment, when it is larger than a predetermined fixed threshold, the predetermined notification information is transmitted to the user; when the subject is always larger than the predetermined fixed threshold, there may be excessive information notification to the user. In practical applications, after receiving the specified notification information, the user pays more attention to whether there is a tendency to deteriorate, but does not want to be disturbed excessively.

 In the second embodiment, the control unit 8 further has an update unit for updating the determination condition, and the other configuration is the same as that of the thermal image device 100 in the first embodiment, and the illustration is omitted. In one embodiment, when the analysis data is greater than the determination value (threshold), the determination value is updated, and after the determination value is updated, the determination unit is configured to compare the analysis data with the updated judgment value as a judgment condition. Or judge one of the conditions to determine whether the condition for transmitting the specified notification information is met.

Referring to Fig. 12, the setting of the transmission condition of the embodiment 2 will be described. It is assumed that the scenario of the application is the same as that of the first embodiment, and the analysis region and the analysis mode related to the obtained analysis data (S01ma X - S02m ax ) are the same as those in the embodiment 1. Configuration, but also configured update conditions and pottery value increments by 30% each time (analysis judgment condition: S01ma X -S02ma X >4 °C, update condition: meet analysis and judgment conditions; update amount: 30%); thermal image After determining that the transmission condition is met, the device 100 updates the threshold value of the analysis data, and increases the threshold value used for the current determination by 30% as the threshold value for the next determination.

 The control flow of the thermal imaging device 100 of the second embodiment will be described with reference to FIG.

 Step B01, acquiring a thermal image data frame, and transmitting the thermal image data frame obtained by the imaging unit 1 to the temporary storage unit 2;

Next, in step B02, the thermal image data frame obtained by the imaging unit 1 in real time, for example, is read, and the analysis unit 6 performs analysis to obtain analysis data (S01m ax - S02max );

 Further, in step B03, it is judged whether or not the transmission condition of the prescribed notification information is met.

 Specifically, the obtained analysis data is compared with a predetermined judgment value, and if it is smaller than the predetermined judgment value, the process returns to step B01, and the above steps are repeated. If it is greater than the specified judgment value, it will proceed to the next step.

 Step B04, the information arrangement unit arranges the predetermined notification information. Specifically, the predetermined notification information is configured based on the analysis data obtained in step B02 and the diagnostic information corresponding to the comparison with the threshold value in step B03;

 In step B05, the control sends the notification information.

 Specifically, the communication unit 4 transmits a short message specifying the notification information to the user's mobile phone; for example, an example of the short message specifying the notification information shown in FIG.

 In step B06, the value of the judgment value is updated, for example, the original threshold value of 4 ° C is increased by 30% to 5. 2 ° C ;

 Step B07, judging whether to exit, if exiting, ending; if not exiting, returning to step B01, repeating the above processing. Then, in step B03, the analysis data is compared with the updated ceramic value. When the analysis data is not greater than 5. 2Ό, the prescribed notification information is no longer sent to the user, thereby avoiding excessive interruption to the user. When the analysis data is greater than 5. 2 ° C, the user will be sent a notification notification message, so that the user can know the trend of change in a timely manner, and then the threshold will be updated again, the threshold value of 5. 2 ° C, increased by 30% Update to 6. 76 °C, proceed to step B07.

In the present embodiment, although the analysis judgment condition after updating the threshold is used as the updated determination condition, it is not limited thereto, and there may be various update conditions of the judgment condition, for example, changing the calculation method of the analysis data (analysis area, analysis) For example, a subsequent addition of other judgment conditions, such as a timing condition, is collectively used as a condition for judging whether or not to transmit, and the update is not limited to increasing the value of the ceramic value, and may be a case of decreasing the value of the threshold, etc., For users to understand the trend of change; for example, when there is more than 4Γ analysis data, it can be used as a condition to judge whether to send according to the specific temperature difference, for example, when there is a temperature change based on a threshold decrease of 30% or a rise of 30%, Full Description

The condition is sent and the threshold is updated according to the change value. Further, other methods of increasing the amount of the threshold value, such as increasing the fixed value as the increase amount of the threshold value, may be employed.

 As described above, in the present embodiment, since the update of the judgment condition is considered, the excessive interruption to the user is avoided, and the neglect of the prescribed notification information is avoided, and obviously, due to the update of the judgment value, in a specific application case The utility of the monitoring provision notification information is improved; of course, any product implementing the embodiments of the present invention does not necessarily need to achieve all of the advantages described above at the same time.

 In other embodiments, it is also possible to change the step of judging that the update condition is satisfied to determine whether the specific information configuration condition is satisfied, and to configure different or the same predetermined notification information. Alternatively, it may be changed to determine whether the update condition is satisfied, to determine whether the specific transmission configuration condition is satisfied, to configure different or identical transmission objects, and/or to configure different or identical transmission times. Alternatively, it may be accompanied by an embodiment in which the transmission target, the content of the transmission notification information, and the number of transmissions are changed.

 Example 3

 The third embodiment differs from the first and second embodiments in that the determination unit determines whether or not the transmission condition is satisfied based on the determination of the transmission condition constituted by the plurality of determination conditions.

As shown in FIG. 14, the transmission conditions set by the user are: a timing condition (60 minutes), an analysis determination condition (S01m aX - S02ma X is greater than 4 Ό), and based on the above two, it is judged whether or not the transmission condition is satisfied, that is, the predetermined timing is satisfied. If the time (60 minutes) is greater than the set threshold during the specified time period, it is judged that the condition of the transmission is met. If one of the two is not satisfied, it is determined that the transmission condition is not met, and the condition is avoided. The user is bothered by multiple times greater than the threshold (4 ° C).

 The control flow of the thermal imaging device 100 of the third embodiment will be described with reference to FIG.

 Step C01, the timing unit starts timing;

 Step C02, reading a thermal image data frame obtained by, for example, instant shooting by the imaging unit 1 in the temporary storage unit 2;

Step C03, the analysis unit 6 performs analysis; specifically, the analysis unit 6 calculates the analysis data (S01max-S02m ax ) based on the pixels of the thermal image data in the set analysis regions S01, S02;

 Further, in step C04, it is judged whether it is larger than the predetermined judgment value (potential value 4 ° C)? If it is less than the specified judgment value, skip to the step

C06 ;

 If it is greater than the predetermined judgment value, the analysis data and the diagnosis information are stored in the predetermined area of the temporary storage unit 2 in step C05; wherein, if the analysis data and the diagnosis information are stored before, the previous replacement may be performed; or The numerical value of the data is analyzed, for example, selecting analysis data and diagnostic information with large values; or storing all analysis data and diagnostic information larger than the specified judgment value.

 Then, in step C06, it is determined whether the specified time has been reached, if not, then return to step C02, repeat the above steps, and when the specified time is reached, proceed to step C07;

 In step C07, it is judged whether or not the analysis data and the remark information are stored in the predetermined area of the temporary storage unit 2. If not, it means that there is no greater than the threshold (4Γ) during the fixed period, return to step C01;

 If so, in step C08, the information arrangement unit arranges the predetermined notification information. Specifically, the predetermined notification information is arranged based on the analysis data, the memo information, and the like stored in step C05;

 In step C09, the control sends the notification information. Specifically, the communication unit 4 transmits a short message specifying the notification information to the user's mobile phone;

 Step C10, determining whether to exit, if exiting, ending; if not exiting, returning to step C01, deleting the analysis data, remark information, and the like stored in the predetermined area of the temporary storage unit 2, and starting a new timing, repeating the above Processing.

As described above, in the present embodiment, since a plurality of determination conditions are considered as transmission conditions, excessive interruption to the user is avoided, neglect of the prescribed notification information is avoided, and the practicability of the prescribed notification information is improved; It is not necessary to achieve all of the advantages described above while implementing any of the products of the embodiments of the present invention. Instruction manual

 Example 4

 Embodiment 4 is different from Embodiments 1, 2, and 3 described above in that the thermal image device 100 has a plurality of transmission conditions in order to avoid excessive interruption to the user while satisfying the requirement of instant transmission under specific conditions. Satisfy one of them and send it.

 Referring to Fig. 16, an embodiment of a transmission condition setting menu of the thermal imaging device 100 will be described. When the user selects to enter the menu mode through the operation portion, the display portion 7 displays a configuration interface for setting the transmission condition as shown in Fig. 16 for the user. Set (add, modify, delete) the sending conditions.

 a first sending condition setting, configured to configure one or more of a timing condition, a query condition, and an analysis judgment condition as a first condition for whether to transmit, when the configuration of the first condition has multiple sub-conditions, A plurality of conditions are satisfied to satisfy the transmission condition.

 The second and second transmission condition settings are used to configure the timing condition, the query condition (in this case, querying the short message), the analysis data and the corresponding judgment value, etc., as the second condition and the third condition for whether to transmit Etc. Obviously, there can be more transmission conditions.

The user's configuration is as shown in FIG. 16. The first transmission condition is timing (120 minutes) and analysis judgment condition (S01MAX-S02MAX>4°C), and the second transmission condition is external indication information of the user (in this example, The third transmission condition is the analysis and judgment condition (S01MAX-S02MAX >8'C) : wherein the user expects to query the analysis data by means of texting, and the limit temperature difference that the user can endure is 8Ό. If it is greater than 8 °C, it is expected that the required notification information will be obtained immediately in order to arrange for power outage maintenance.

 The control flow of the thermal imaging device 100 of the fourth embodiment will be described with reference to FIG.

 Step D01, acquiring a thermal image data frame, and transmitting the thermal image data frame obtained by the imaging unit 1 to the temporary storage unit 2;

 Next, in step D02, the thermal image data frame obtained by the imaging unit 1 for immediate imaging, for example, is read, and the analysis unit 6 performs analysis; specifically, the analysis unit 6 is based on the set analysis regions S01, S02. The pixels of the thermal image data, calculate the maximum temperature, and obtain the analytical data (S01MAX-S02MAX);

 Further, in step D03, it is judged whether or not the predetermined second and third transmission conditions are met.

 Specifically, the obtained analysis data is compared with a predetermined judgment value (potential value 8 ° C), and if it is less than the predetermined judgment value, it is determined whether the user's inquiry message is received, and if not, the entry is made. Step D04, if one of them is YES, then jump to step D05;

 Step D04, determining whether the first transmission condition is met, that is, determining whether there is a greater than a predetermined threshold (4 ° C) during the predetermined timing; and step D05, the information configuration unit configuring the predetermined notification information; specifically, according to The obtained analysis data and the remark information corresponding to the ceramic value are used to configure the prescribed notification information;

 In step D06, the control sends the notification information. Specifically, the communication unit 4 transmits a short message specifying the notification information to the user's mobile phone;

 In step D07, it is judged whether to exit, if it is exited, it ends. If it is not exited, it returns to step D01, and the above processing is repeated.

 As described above, in the present embodiment, since a plurality of transmission conditions are considered, that is, excessive interruption to the user is avoided, neglect of the prescribed notification information is avoided, and the user is immediately notified of the notification information in a specific case. The availability of the monitoring regulation notification information is improved; of course, any of the products implementing the embodiments of the present invention does not necessarily need to achieve all of the advantages described above at the same time.

 Example 5

 Embodiment 5 is different from Embodiments 1, 2, 3, and 4 described above in that, in order to facilitate the user to understand the trend of the analysis data during the monitoring process, the thermal imaging device 100 obtains an analysis chart based on the analysis data and transmits the analysis chart to the transmitting object; In one embodiment, the thermal imaging device 100 has: a storage unit for storing analysis data obtained by analyzing a plurality of predetermined frames and a time corresponding thereto; and an information arrangement unit configured to configure predetermined notification information, wherein the predetermined notification information is at least The analysis data stored in the storage unit and its corresponding time or analysis chart obtained based on the analysis data and the corresponding time are included. In this example, the analysis chart is an analysis data-time curve obtained by analyzing data at a predetermined time and a corresponding predetermined time, and is not limited thereto. For example, the analysis chart may be based on the sequence of the predetermined frame such as the serial number of the analysis data. To generate.

The control flow of the thermal imaging device 100 of the fifth embodiment will be described with reference to FIG. 18. Instruction manual

 Step E01, acquiring a thermal image data frame, and transmitting the thermal image data frame obtained by the imaging unit 1 to the temporary storage unit 2;

 Next, in step E02, the thermal image data frame obtained by the imaging unit 1 for immediate imaging, for example, is read, and the analysis unit 6 performs analysis; specifically, the analysis unit 6 is based on the set analysis regions S01, S02. The pixel of the thermal image data, calculate the maximum temperature, and obtain the analytical data (S01MAX-S02MAX)

 Further, in step E03, the analysis data and the corresponding time (such as the acquisition time of the thermal image data frame) are stored in a predetermined area of the temporary storage unit 2; in addition, the analysis data and the corresponding time may be stored in the hard disk 3;

 In step E04, it is judged whether the transmission condition is met, for example, it is judged whether there is a case larger than the specified pottery value (4Γ); if not, the process returns to step E01, and if yes, the process proceeds to the next step.

 Step E05, the information arrangement unit arranges the predetermined notification information. Specifically, the analysis is generated based on the analysis data stored in the temporary storage unit 2 and the corresponding time (a predetermined number of analysis data and corresponding time can be selected). Data-time trend curve. In addition, the diagnostic information corresponding to the largest analysis data (S01MAX-S02MAX) larger than the ceramic value can also be used as the predetermined notification information.

 Step E06, the control sends the notification information. Specifically, the communication unit 4 transmits a short message specifying the notification information to the user's mobile phone;

 In step E07, it is judged whether to exit, if it is exited, it ends, if it is not exited, it returns to step E01, and the above processing is repeated.

 Referring to the predetermined notification information shown in FIG. 19, which includes a plurality of contents constituting the predetermined notification information, analysis data, diagnostic information, and analysis data-time curve (the ordinate analysis value, the abscissa time value, the threshold boundary, etc. are omitted. The display, obviously can also be displayed).

 As described above, in the present embodiment, since the analysis data-time curve is obtained based on the analysis data of a plurality of times, it is transmitted to the user, the intuitiveness of the prescribed notification information is improved, and the user can grasp the subject. The trend of change further improves the practicability of the thermal imaging device 100; and, since the transmitted information includes information such as an analysis chart, the method of continuously transmitting the thermal image data frame compared to the prior art may not be installed at the receiving end. The analysis software of the thermal image data frame is used to analyze and obtain the analysis chart, which simplifies the user's use operation; it is beneficial to the use of ordinary users. Of course, implementing any of the products of the embodiments of the present invention does not necessarily require all of the advantages described above to be achieved at the same time.

 When a combination of multiple analysis areas and analysis modes is set to obtain corresponding sets of analysis data, a plurality of analysis data-time curves can be obtained. Multiple curves can be arranged in the same or multiple coordinate systems.

 Preferably, the specified communication information includes an analysis data trend curve and infrared data according to a point of interest in the analysis data trend curve (eg, an infrared thermal image at a maximum temperature); obviously, in step E03, the infrared information related to the specified notification information may be The thermal image is recorded in association with the analysis data and its corresponding time in the temporary storage unit 2 for use in specifying the configuration of the notification information.

 Wherein, the storage management of the analysis data and its associated time may be performed in various ways, for example, storing the analysis data and its time in a predetermined area of the temporary storage unit according to a prescribed frequency, when storing a prescribed amount of analysis data and its association At the time of time, the latest obtained analysis data and its associated time are replaced with the oldest; sparse processing can also be performed.

 In the modification of the fifth embodiment, for example, the thermal image data frame may be continuously recorded in the hard disk 3 without storing the analysis data and the corresponding time; and then the specified condition is read from the hard disk 3 when the transmission condition of the predetermined notification information is met. The thermal image data frame is analyzed to obtain the analysis data and the corresponding time.

 Example 6

In practical applications, users often want to see infrared thermal images of the moment of interest. At present, due to the application of high-pixel infrared detectors, such as 640*480 pixel infrared detectors, clear infrared thermal images can be captured. Large images may cause slower wireless transmission. Although a reduced infrared thermal image can be sent, high-quality images are viewed for user's monitoring. Example 7 uses a secondary transmission method to promptly alert the user and send The purpose of high quality infrared thermal imaging. The difference between the embodiment 6 and the embodiment 1, 2, 3, 4, 5 is that, in the embodiment, the information configuration unit is configured to configure different or the same specified notification information according to different information configuration conditions. . Assuming that the scenario of the application is the same as that of Embodiment 1, the user performs the same analysis region, analysis mode, and transmission condition as in Embodiment 1. Description

 (S01MAX-S02MAX>4°C), and set "S01MAX-S02MAX>8°C" as the information configuration condition and transmission configuration condition (not shown). When the transmission condition is met, the configured notification information is the analysis data. And time, send once; when it is greater than the specified pot value, 8Ό, the second transmission, the configured notification information includes analysis data, time, and infrared data.

 The control flow of the thermal imaging device 100 of the seventh embodiment will be described with reference to FIG.

 Step F01, acquiring a thermal image data frame, and transmitting the thermal image data frame obtained by the imaging unit 1 to the temporary storage unit 2;

 Next, in step F02, analysis is performed to obtain analysis data, and it is judged whether or not the transmission condition of the prescribed notification information is met (S01MAX-S02MX > 4 ° C). If yes, go to the next step.

Step F03, the information arrangement unit arranges the predetermined notification information, and the predetermined notification information is the analysis data (S01ma X - S02m ax ) obtained by analyzing the predetermined thermal image data frame and the time; and then transmitting in step F04;

Step F05, comparing the analysis data (S01m ax - S02ma X ) obtained by analyzing the predetermined thermal image data frame with a predetermined threshold value of 8 ° C; if less than or equal to the specified threshold value of 8 ,, skipping to step F08 If it is greater than the predetermined pottery value of 8 ° C, the process proceeds to step F06, and the information arrangement unit arranges the predetermined notification information, and the predetermined notification information is infrared thermal image, analysis data, and time; and then transmits again in step F07. ;

 Step F08, judging whether to exit, if exiting, ending, if not exiting, returning to step F01, repeating the above processing.

 As described above, in the embodiment, the advantage is that the first transmission can reduce the amount of data sent, increase the speed of sending, prompt the user and the like, and the second transmission can send more detailed information. Content, easy for users to grasp more information. Of course, implementing any of the products of the embodiments of the present invention does not necessarily require all of the advantages described above to be achieved at the same time.

 Further, the predetermined notification information of the different contents is arranged in step F06, but the same predetermined notification information may be used.

 In another embodiment, when the analysis data (S01MAX-S02MAX) is less than or equal to a predetermined threshold value 8Ό, the configured predetermined notification information is analysis data and time; when the analysis is greater than the specified threshold, 8° C., the configured notification information is configured. Contains analysis data, time, and infrared data; this can be sent only once.

 Example 7

 Embodiment 7 differs from Embodiments 1, 2, 3, 4, 5, and 6 in that, in the above-described embodiment, the first analysis data is used as the content of the prescribed notification information; in this embodiment, the heat is The image analysis monitoring device 100 has a second analysis unit that performs analysis processing different from the first analysis unit, and analyzes a predetermined frame of the acquired thermal image data frame to obtain second analysis data; At least one of the following information is included: the second analysis unit analyzes the obtained second analysis data, and the analysis chart obtained based on the second analysis data obtained by the second analysis unit analyzes, according to the second analysis data and the predetermined judgment value. Comparison to get the diagnosis. The analysis section 6 serves as an example of the first analysis section and the second analysis section.

 The control flow of the thermal imaging device 100 of the seventh embodiment will be described with reference to FIG.

 Step G01, acquiring a thermal image data frame, and transmitting the thermal image data frame obtained by the imaging unit 1 to the temporary storage unit 2;

 Next, in step G02, the first analysis unit performs analysis to obtain first analysis data (S01MAX-S02MX);

 Next, in step G03, it is judged whether or not the transmission condition of the predetermined notification information is satisfied (S01MAX-S02MX>4 °C). If so, the corresponding thermal image data frame is held in the predetermined area of the temporary storage unit 2, and proceeds to the next step.

 Step G04, reading the held thermal image data frame, performing a second analysis process different from the first analysis process (for example, calculating (S01MIN-S02MIN), (S01AVG-S02AVG) and the like;

 Step G05, the information arrangement unit arranges the predetermined notification information, and the predetermined notification information to be placed is a predetermined thermal image data frame, second analysis data (S01MIN-S02MIN), (S01AVG-S02AVG), and time; and then in step G06 Send;

In step G07, it is judged whether to exit, and if it is exited, it ends. If it is not exited, it returns to step G01, and the above processing is repeated. Instruction manual

 As described above, an advantage in the present embodiment is that it provides a beneficial effect of rich analysis data while reducing the burden of analysis processing. Of course, implementing any of the products of the embodiments of the present invention does not necessarily require all of the advantages described above to be achieved at the same time.

 Other embodiments

 The present invention is not only applicable to a thermal image device with a photographing function, but also to a thermal image processing device that continuously receives and processes a thermal image (such as a thermal image data frame acquired in time series) from the outside, the thermal image processing device such as a computer. , a personal digital assistant (PDA), a display device used in conjunction with a thermal image analysis monitoring device of a photographing function, and the like, continuously receiving a thermal image data frame outputted by the thermal image device connected thereto through a communication interface, thereby realizing a thermal image analysis monitoring device Example of the implementation; another example of the thermal image analysis monitoring device realized by reading the thermal image data frame stored in the storage medium; similarly to the above embodiment, the description is omitted. Further, it can also be used as a component or a functional module in a thermal image device having a photographing function or a thermal image processing device, and also constitutes an embodiment of the present invention.

 Preferably, the thermal imaging device 100 further has a recording unit for performing recording control. For example, the control unit 8 has a recording unit for continuously recording the captured thermal image data frame and/or thermal image data at a predetermined frame rate. The data obtained after the frame specification processing is continuously recorded on a storage medium such as the hard disk 3, and may be recorded in a network destination or the like communicated through the communication unit 4.

 In the above embodiment, between the thermal image analysis monitoring device and the transmission target, when the transmission condition of the predetermined notification information is met, the predetermined notification information is transmitted as an example. Obviously, the thermal image analysis monitoring device is not limited to the transmission target only. The transmission of the predetermined notification information also includes the case where the other information is transmitted between the thermal imaging device 100 and the transmission target. For example, the thermal imaging device 100 continuously transmits other information such as a thermal image data frame to the transmission target (such as the user's computer). ), but the specified notification information (for example, diagnostic information, etc.) is sent when the transmission condition of the prescribed notification information is met.

 In the above examples, descriptions are made in a certain order of steps, but there may be various orders according to different embodiments, and are not limited to the processing order described in the above examples. For example, when one or more of the control unit 8, the image processing unit 5, and the analysis unit 6 are divided into a plurality of processors, there may be a parallel process to which some steps are applied.

 In the above-described example, it is first determined whether or not the transmission condition is satisfied, and when the transmission condition is satisfied, the predetermined notification information is arranged. However, the present invention is not limited thereto. In another embodiment, the predetermined notification information may be changed first. It is judged whether the transmission condition is satisfied. When it is not satisfied, for example, the predetermined notification information may be updated according to the newly acquired thermal image data frame; if satisfied, the transmission is performed.

 Variations in the various processing orders can be made by those skilled in the art in light of the spirit of the invention, and such variations are within the scope of the invention. In the above embodiment, it is merely an example, and the present invention is not limited thereto. The structure and operation in the above embodiments can be changed as needed. In the above embodiment, the thermal image analysis monitoring device is fixedly used, but is not limited thereto, and may be applied to a portable thermal image device having a photographing function, or may be mounted on a mobile platform (such as a pan/tilt, a vehicle). Thermal image device. The thermal image analysis monitoring device is a fixed mount thermal imaging device or a portable thermal imaging device, and the thermal imaging device has an acquisition unit that captures a frame for acquiring thermal image data. Although the conventional thermal imaging device for portable imaging can continuously transmit thermal image data frames in a wireless manner, if the idea of the present invention can be used, targeted transmission can be performed according to predetermined conditions, and the convenience of the backend user can be greatly improved. Or reduce the amount of data sent.

 Moreover, it is not limited to the thermal image analysis monitoring device that is temporarily installed, and can be applied to other thermal image analysis monitoring devices installed online.

 Aspects of the present invention may also be a computer (or a device such as a CPU, an MPU, etc.) of a system or device that performs the functions of the above-described embodiments by arranging and executing a program recorded on a storage device, and a system or device by the steps thereof The computer is realized by, for example, a method of reading and executing a program recorded on a storage device to perform the functions of the above-described embodiments. For this purpose, the program is provided to the computer, for example, via a network or from various types of recording media (e.g., computer readable media) used as storage devices.

 The present invention provides a computer program in which digital signals are recorded in a computer readable recording medium such as a hard disk, a memory or the like. After the program runs, perform the following steps:

 An obtaining step, configured to obtain a thermal image data frame;

An analyzing step, configured to analyze a specified frame of the acquired thermal image data frame to obtain first analysis data; Instruction manual

 a determining step of determining, according to a comparison result of the first analysis data and the predetermined judgment value, as one of a judgment condition or a judgment condition, whether the transmission condition of the predetermined notification information is met;

 Information configuration step, configured to configure the notification information;

 a communication control step, configured to control the communication step to perform the transmission of the specified notification information in a wireless manner;

 Wherein, when the determining step determines that the sending condition is met, the communication control step controls the communication step to send the prescribed notification information. Embodiments of the present invention also provide a readable storage medium storing a computer program for electronic data exchange, wherein the computer program causes a computer in the thermal image analysis monitoring device to perform the following steps:

 a shooting step for capturing a frame of a thermal image data;

 An analyzing step, configured to analyze a specified frame of the acquired thermal image data frame to obtain first analysis data;

 a determining step of determining, according to a comparison result of the first analysis data and the predetermined judgment value, as one of a judgment condition or a judgment condition, whether the transmission condition of the predetermined notification information is met;

 Information configuration step, configured to configure the notification information;

 a communication control step, configured to control the communication step to perform the transmission of the specified notification information in a wireless manner;

 Wherein, when the determining step determines that the sending condition is met, the communication control step controls the communication step to send the prescribed notification information. A block of multiple functions can be implemented by one software or hardware module. Alternatively, a block of functionality can be implemented by multiple software or hardware units. In addition, some or all of the processing and control functions of embodiments of the present invention may also be implemented in a dedicated circuit or a general purpose processor or a programmable FPGA.

 In addition, the example is based on the application of the subject in the power industry, and is also widely used in various industries of infrared detection.

 The above description is only specific examples (embodiments) of the invention, and various exemplary embodiments are not intended to limit the scope of the invention, and various embodiments may be substituted and combined to form further embodiments. Other modifications and changes may be made to the embodiments without departing from the spirit and scope of the invention.

Claims

Claims
 1. Thermal image analysis monitoring device, including:
 a photographing unit, configured to capture a frame for acquiring thermal image data;
 An analysis unit, configured to analyze a predetermined frame of the acquired thermal image data frame to obtain first analysis data;
 The determining unit is configured to determine, according to the comparison result of the first analysis data and the predetermined determination value, whether one of the determination condition or the determination condition meets the transmission condition of the predetermined notification information;
 An information configuration unit, configured to configure the specified notification information;
 a communication control unit configured to control the communication unit to wirelessly transmit the predetermined notification information;
 The determination unit determines that the transmission condition is met, and the communication control unit controls the communication unit to transmit the predetermined notification information.
 2. Thermal image analysis monitoring device, including:
 An obtaining unit, configured to acquire a thermal image data frame;
 An analysis unit, configured to analyze a predetermined frame of the acquired thermal image data frame to obtain first analysis data;
 The determining unit is configured to determine, according to the comparison result of the first analysis data and the predetermined determination value, whether one of the determination condition or the determination condition meets the transmission condition of the predetermined notification information;
 An information configuration unit, configured to configure the specified notification information;
 a communication control unit configured to control the communication unit to wirelessly transmit the predetermined notification information;
 The determination unit determines that the transmission condition is met, and the communication control unit controls the communication unit to transmit the predetermined notification information.
 3. Thermal image analysis and monitoring device, including:
 An obtaining unit, configured to acquire a thermal image data frame;
 An analysis unit, configured to analyze a predetermined frame of the acquired thermal image data frame to obtain analysis data;
 a storage unit, configured to store the analysis data obtained by the analysis;
 The information arrangement unit is configured to configure the predetermined notification information, wherein the predetermined notification information includes at least one of the analysis data obtained by the analysis unit analysis and the analysis chart obtained based on the analysis data and the corresponding time series;
 The communication control unit is configured to control the communication unit to wirelessly transmit the predetermined notification information.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, wherein the predetermined notification information may include analysis data, time corresponding to the analysis data, analysis chart, statistical data, diagnostic information, thermal image data, One or more of the orientation information, the thermal image analysis monitoring device number; the analysis data may be the first analysis data and/or the second analysis data, and the second analysis data is different from the analysis processing of the first analysis data.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, further comprising: an analyzing unit configured to analyze a predetermined frame of the acquired thermal image data frame to obtain analysis data;
 The predetermined notification information includes at least one of analysis data obtained by the analysis of the analysis and an analysis chart obtained based on the analysis data; the analysis data may be first analysis data and/or second analysis data, and second analysis data It is different from the analysis processing of the first analysis data.
 The thermal image analysis monitoring apparatus according to any one of claims 1 to 3, wherein, when the first configuration condition is met, the configured predetermined notification information includes at least analysis data, or includes time corresponding to the analysis data. When the second configuration condition is met, the configured specification notification information includes at least infrared data, or includes analysis data, or further includes time corresponding to the analysis data; the analysis data may be the first analysis data and/or the second analysis. The analysis data of the second analysis data and the first analysis data are different.
7. The thermal image analysis monitoring device according to any of claims 1-3, characterized in that Claim
 And a diagnosis unit configured to obtain a diagnosis result according to the comparison between the first analysis data and/or the second analysis data and the predetermined determination value; the notification information configured by the information configuration unit includes at least the diagnosis result; The second analysis data is obtained by performing an analysis process different from the first analysis data.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, further comprising: an arrangement unit configured to configure a transmission condition, a configuration of the predetermined notification information, a transmission destination, a transmission count, and a transmission configuration. One or more of the conditions, information configuration conditions.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, further comprising: an update unit configured to update one or more of a determination condition, a prescribed notification information, and a transmission object;
 After the determination condition is updated, the determining unit is configured to determine whether the transmission condition of the predetermined notification information is met according to the updated determination condition;
 After the configuration configuration of the predetermined notification information is updated, the information configuration unit is configured to configure the predetermined notification information according to the configuration of the updated predetermined notification information;
 When the transmission target is updated, the communication control unit is configured to perform predetermined notification information transmission based on the updated transmission target.
 The thermal image analysis monitoring apparatus according to any one of claims 1 to 3, wherein the update unit is configured to increase a timing condition, or to extend a timing time in a timing condition, or to shorten a timing condition. Timing.
 The thermal image analysis and monitoring device according to any one of claims 1 to 3, wherein the communication control unit is configured to control the communication unit to transmit the predetermined notification information to a predetermined transmission target, wherein The sending configuration conditions are sent to different or the same sending object, and/or, using different or the same number of transmissions.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, further comprising: a communication unit having at least GPRS, GSM, CDMA, 3G, 4G, 5G, and WIFI units one.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, wherein the communication unit has a short message transmitting unit for transmitting a short message.
 The thermal image analysis monitoring device according to any one of claims 1 to 3,
 It is characterized in that it has a recording unit for continuously recording thermal image data frames.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, characterized in that
 a receiving unit, configured to receive external indication information;
 An analysis unit, configured to parse the received external indication information;
 One or more of the determination unit, the information placement unit, and the communication control unit perform corresponding processing control based on the analyzed external instruction information.
 16. The thermal image analysis monitoring apparatus according to claim 15, wherein:
 The external indication information includes at least one of a short message or a telephone.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, further comprising: an arrangement unit configured to configure one or more transmission conditions, a configuration of the predetermined notification information, a transmission target, and a transmission. The combination of times.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, wherein the thermal image analysis monitoring device is a mountable thermal imaging device.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, characterized in that
 a recording unit, configured to continuously record a predetermined thermal image data frame in the acquired thermal image data frame;
An analysis unit configured to analyze a predetermined frame in the thermal image data frame recorded by the recording unit to obtain analysis data; Claim
 The predetermined notification information includes at least one of analysis data obtained by analyzing the predetermined frame and an analysis chart generated based on analysis data obtained by analyzing the thermal image data frame; the analysis data may be first analysis data and / or the second analysis data, the second analysis data and the analysis data of the first analysis data are different.
 The thermal image analysis monitoring apparatus according to any one of claims 1 to 3, wherein the thermal image data frame includes AD value data obtained based on a signal of the infrared detector.
 The thermal image analysis monitoring apparatus according to any one of claims 2 to 3, wherein the thermal image data frame is received from the outside or read from a storage medium.
 The thermal image analysis monitoring device according to any one of claims 1 to 3, characterized in that, when the transmission condition is met, if the transmission condition of the website server is met, the prescribed notification information is sent to the website server; When the user's mobile terminal transmits conditions, the predetermined notification information is transmitted to the portable terminal of the predetermined user.
 The thermal image analysis monitoring apparatus according to any one of claims 1 to 2, wherein the analysis data includes at least temperature value data; the analysis data may be first analysis data and/or second analysis. The analysis data of the second analysis data and the first analysis data are different.
 24. Thermal image analysis monitoring methods, including:
 a shooting step for capturing a frame of a thermal image data;
 An analyzing step, configured to analyze a specified frame of the acquired thermal image data frame to obtain first analysis data;
 a determining step of determining, according to a comparison result of the first analysis data and the predetermined judgment value, as one of a judgment condition or a judgment condition, whether the transmission condition of the predetermined notification information is met;
 Information configuration step, configured to configure the notification information;
 a communication control step, configured to control the communication step to perform the transmission of the specified notification information in a wireless manner;
 Wherein, when the determining step determines that the sending condition is met, the communication control step controls the communication step to send the prescribed notification information.
25. Thermal image analysis monitoring methods, including:
 An obtaining step, configured to obtain a thermal image data frame;
 An analyzing step, configured to analyze a specified frame of the acquired thermal image data frame to obtain first analysis data;
 a determining step of determining, according to a comparison result of the first analysis data and the predetermined judgment value, as one of a judgment condition or a judgment condition, whether the transmission condition of the predetermined notification information is met;
 Information configuration step, configured to configure the notification information;
 a communication control step, configured to control the communication step to perform the transmission of the specified notification information in a wireless manner;
 Wherein, when the determining step determines that the sending condition is met, the communication control step controls the communication step to send the prescribed notification information.
26. Thermal image analysis monitoring methods, including:
 An obtaining step, configured to obtain a thermal image data frame;
 An analyzing step, configured to analyze a specified frame of the acquired thermal image data frame to obtain analysis data;
 a storing step of storing the analysis data obtained by the analysis;
 The information configuration step is configured to configure the specified notification information, where the specified notification information includes at least one of the analysis data obtained by the analysis step analysis, and the analysis chart obtained based on the analysis data and the corresponding timing;
 The communication control step is configured to control the communication step to perform the provision of the notification information in a wireless manner.
The thermal image analysis monitoring method according to any one of claims 24 to 26, wherein the predetermined notification information may include analysis data, time corresponding to the analysis data, analysis chart, statistical data, diagnostic information, thermal image data, Bearing number, number of thermal image analysis monitoring method Claim
One or more; the analysis data may be the first analysis data and/or the second analysis data, and the second analysis data is different from the analysis processing of the first analysis data.
 The thermal image analysis monitoring method according to any one of claims 24-26, further comprising: analyzing step of analyzing a predetermined frame of the obtained thermal image data frame to obtain analysis data;
 The predetermined notification information includes at least one of analysis data obtained by analysis step analysis and an analysis chart obtained based on the analysis data; the analysis data may be first analysis data and/or second analysis data, and second analysis data It is different from the analysis processing of the first analysis data.
 The thermal image analysis monitoring method according to any one of claims 24 to 26, wherein, when the first configuration condition is met, the configured notification information includes at least analysis data, or includes time corresponding to the analysis data. When the second configuration condition is met, the configured specification notification information includes at least infrared data, or includes analysis data, or further includes time corresponding to the analysis data; the analysis data may be the first analysis data and/or the second analysis. The analysis data of the second analysis data and the first analysis data are different.
 The thermal image analysis monitoring method according to any one of claims 24 to 26, further comprising a configuration step of configuring a transmission condition, a configuration of the predetermined notification information, a transmission destination, a transmission frequency, and a transmission configuration. One or more of the conditions, information configuration conditions.
 The thermal image analysis monitoring method according to any one of claims 24-26, further comprising: an updating step of updating one or more of the judgment condition, the prescribed notification information, and the transmission object;
 After the determination condition is updated, the determining step is configured to determine, according to the updated determination condition, whether the condition for transmitting the specified notification information is met;
 After the configuration configuration of the predetermined notification information is updated, the information configuration step is configured to configure the predetermined notification information according to the configuration of the updated prescribed notification information;
 After the transmission target is updated, the communication control step is configured to perform the provisional notification information transmission according to the updated transmission target.
 The thermal image analysis monitoring method according to any one of claims 24 to 26, wherein the updating step is for increasing a timing condition, or extending a timing time in a timing condition, or shortening a timing condition. Timing.
 The thermal image analysis monitoring method according to any one of claims 24-26, wherein the communication step has a short message sending step for transmitting a short message.
 The thermal image analysis monitoring method according to any one of claims 24-26,
 It is characterized in that it has a recording step for continuously recording thermal image data frames.
 The thermal image analysis monitoring method according to any one of claims 24-26, characterized in that
 a receiving step, configured to receive an external step indication information;
 a parsing step, the parsing is used to parse the received outer step indication information;
 One or more of the determining step, the information configuring step, and the communication controlling step perform corresponding processing control based on the parsed external step indication information.
 The thermal image analysis monitoring method according to any one of claims 24-25, wherein the information configuration step is before, after, or at the same time as the determining step.
 37. A monitoring system, comprising: one or more thermal image analysis monitoring devices according to any one of claims 1 to 23, and one or more transmitting objects; wherein the transmitting object comprises a network server and/or a user terminal, The user terminal includes a portable mobile phone, a PDA, a notebook computer, and a tablet computer.
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