CN109802875A - Monitoring device, monitoring system and monitoring method - Google Patents
Monitoring device, monitoring system and monitoring method Download PDFInfo
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- CN109802875A CN109802875A CN201711265393.9A CN201711265393A CN109802875A CN 109802875 A CN109802875 A CN 109802875A CN 201711265393 A CN201711265393 A CN 201711265393A CN 109802875 A CN109802875 A CN 109802875A
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- 238000012806 monitoring device Methods 0.000 title claims abstract description 67
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- 238000000034 method Methods 0.000 title claims abstract description 26
- 238000005259 measurement Methods 0.000 claims abstract description 76
- 230000035807 sensation Effects 0.000 claims abstract description 73
- 238000001514 detection method Methods 0.000 claims abstract description 54
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Abstract
A kind of monitoring device, monitoring system and monitoring method, to monitor electronic device.Monitoring system includes mobile device and monitoring device.Monitoring device includes detection module and controller.Detection module configuration obtains light sensation measurement information in the display area of electronic device, and to detect information shown by display area.Controller couples detection module to receive light sensation measurement information detected by detection module, and light sensation measurement information is sent to mobile device.Mobile device judges the state of electronic device according to light sensation measurement information.
Description
Technical field
The invention relates to a kind of monitoring technologies, and fill in particular to a kind of monitoring to monitor electronic device
It sets, monitoring system and monitoring method.
Background technique
Development and the utilization constantly growth of world-wide web, are slowly turned to by the epoch of script desktop computer as portable computer
Epoch, to Internet of Things (Internet of Things, the IoT) epoch popular now.With the evolution and innovation of science and technology, energy
The article of enough connected networks is no longer limited to desktop computer, laptop or smart phone, but expects all articles all
Can networking, so as to can keyholed back plate at any time.Fermentation based on this subject under discussion, many enterprises respectively form an alliance and put into considerable resource and carry out
Research and development.However the interconnection standards for camp's use of respectively forming an alliance are diversified in specifications, cause the product in the different camps that form an alliance that can not integrate.Such as
This, not only allows consumer to generate puzzlement in buying, will also result in the inconvenience in product subsequent maintenance or even is difficult to recycle again sharp
With.On the other hand, traditional home appliance is then to promote another challenge of Internet of Things application.Since traditional home appliance itself does not have object
The function of networking and the realization of intelligent family can not be caused more difficult by remote monitoring.
Summary of the invention
In view of this, the present invention provides a kind of monitoring device, monitoring system and monitoring method, can be used to monitor various types
Electronics (electric appliance) device, and this electronics (electric appliance) device is manipulated, to allow this electronics (electric appliance) device that can pass through this
The monitoring device of invention realizes the function of Internet of Things.
Monitoring system of the invention includes mobile device and monitoring device.Monitoring device includes detection module and controller.
Detection module is configured in the display area of electronic device, and obtains light sensing letter to detect information shown by display area
Breath.Controller couples detection module to receive the light sensation measurement information of detection module acquirement, and light sensation measurement information is sent to movement
Device.Mobile device judges the state of electronic device according to light sensation measurement information.
Monitoring device of the invention includes detection module and controller.Detection module is configured in the viewing area of electronic device
Domain, and light sensation measurement information is obtained to detect information shown by display area.Controller couples detection module to receive inspection
The light sensation measurement information that module obtains is surveyed, and judges the state of electronic device according to light sensation measurement information.
Monitoring method of the invention includes the following steps.The detection module of monitoring device is configured into the display in electronic device
Region.Information shown by display area, which is detected, by detection module obtains light sensation measurement information.Light sensation measurement information is supplied to
Mobile device.The state of electronic device is judged according to light sensation measurement information by mobile device.
Based on above-mentioned, proposed by the invention monitoring device, monitoring system and monitoring method, can not influence to be monitored
Under the premise of the original function of electronics (electric appliance) device, this electronics (electric appliance) device is manipulated, and obtains this electronics (electricity
Device) device display area information, and can further confirm that whether user succeeds for the setting of electronics (electric appliance) device.
In this way, other than conditional electronic (electric appliance) device can be allowed to realize the function of Internet of Things, moreover it is possible to user be allowed to confirm electronics
The state of (electric appliance) device further promotes the accuracy that electronics (electric appliance) device is set by Internet of Things.
To make the foregoing features and advantages of the present invention clearer and more comprehensible, special embodiment below, and cooperate institute's accompanying drawings
It is described in detail below.
Detailed description of the invention
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only
Some embodiments of the present invention, for those of ordinary skill in the art, without any creative labor, also
Other drawings may be obtained according to these drawings without any creative labor.
Fig. 1 is the block schematic diagram of monitoring system depicted in an embodiment according to the present invention.
Fig. 2 is the block schematic diagram of monitoring device depicted in an embodiment according to the present invention.
Fig. 3 is the block schematic diagram of detection module depicted in an embodiment according to the present invention.
Fig. 4 A is the top view of the light-conductive optic fibre patch in detection module depicted in an embodiment according to the present invention.
Fig. 4 B is by the side view of the direction A of the light-conductive optic fibre patch of Fig. 4 A.
Fig. 4 C is by the side view of the direction B of the light-conductive optic fibre patch of Fig. 4 A.
Fig. 5 is the schematic layout pattern of the light-conductive optic fibre patch in detection module depicted in an embodiment according to the present invention.
Fig. 6 is the block schematic diagram of monitoring device depicted in another embodiment according to the present invention.
Fig. 7 is the schematic diagram of information shown by seven-segment display depicted in an embodiment according to the present invention.
Fig. 8 A is the flow chart according to monitoring method depicted in one embodiment of the invention.
Fig. 8 B is the flow chart according to monitoring method depicted in another embodiment of the present invention.
Drawing reference numeral:
100: monitoring system
120: mobile device
140,140 ': monitoring device
141: detection module
1411,1411 ': light-conductive optic fibre patch
1412: light source sensor
1413: light emitting module
141A: patch
141B: face is pasted
142: controller
143: first communication module
144: second communication module
145: radio module
146: battery module
147: button
810,820,912: seven-segment display
900: electronic device
910: display area
914: light emitting diode
CMD: control instruction
E811~E817, E821~E827: section
L_INF: light sensation measurement information
F_MSG: setting failure information
OL1, OL1 ': the first light-conductive optic fibre
OL2: the second light-conductive optic fibre
S710、S715、S720、S721、S722、S725、S726、S727、S728、S7291、S7292、S730、S731、
S732, S750, S770, S780, S790: step
S_INF: sound sensing information
SL: secondary light source
S_RST: setting result
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.Based on this
Embodiment in invention, relevant technical staff in the field's every other reality obtained without making creative work
Example is applied, the range of protection of the invention is belonged to.
It please merge below referring to FIG. 1 and FIG. 2, Fig. 1 is the square of monitoring system depicted in an embodiment according to the present invention
Schematic diagram, and Fig. 2 is the block schematic diagram of monitoring device depicted in an embodiment according to the present invention.Monitoring system 100 can be used
To monitor electronic device 900.Monitoring system 100 may include mobile device 120 and monitoring device 140.Monitoring device 140 can wrap
Include detection module 141 and controller 142, however, the present invention is not limited thereto.Detection module 141 is configurable on electronic device 900
Display area 910, and light sensation measurement information L_INF is obtained to detect information shown by display area 910.Controller 142
Detection module 141 is coupled to receive light sensation measurement information L_INF.Light sensation measurement information L_INF can be sent to mobile dress by controller 142
120 are set, causes mobile device 120 that can judge the state of electronic device 900 according to light sensation measurement information L_INF, but the present invention is not
It is limited to this.In other embodiments of the invention, controller 142 further includes the memory for storing procedure code, when controller 142
When receiving light sensation measurement information L_INF, controller 142 can execute the procedure code in memory directly to judge electronic device 900
State, and send judging result to mobile device 120.
In this way, which mobile device 120 can still pass through monitoring device even if electronic device 900 does not have internet of things functional
140 obtain light sensation measurement information L_INF caused by the display area 910 of electronic device 900, to judge electronic device 900
State.For example, if electronic device 900 is air conditioner, and information shown by display area 910 is the display of air conditioner
Shown set temperature value on panel, then mobile device 120 can learn the set temperature of air conditioner by monitoring device 140
Value.
In one embodiment of this invention, electronic device 900 can be for example various types of electrical equipments, and the present invention is not
The type of electronic device 900 is limited.In one embodiment of this invention, mobile device 120 can be for example smart phone,
Smartwatch, personal digital assistant (PDA), laptop or tablet computer etc., however, the present invention is not limited thereto.
Please merge below referring to Fig.1, Fig. 3 and Fig. 4 A~Fig. 4 C, Fig. 3 be detection depicted in an embodiment according to the present invention
The block schematic diagram of module, Fig. 4 A are that light-conductive optic fibre patch in detection module depicted in an embodiment is bowed according to the present invention
View, Fig. 4 B are by the side view of the direction A of the light-conductive optic fibre patch of Fig. 4 A, and Fig. 4 C is the light-conductive optic fibre patch by Fig. 4 A
The side view of direction B.For purposes of illustration only, herein using the electronic device of Fig. 1 900 it is that air conditioner is illustrated as example, and electronics
Device 900 is that other kinds of electrical installation then can the rest may be inferred.
As shown in figure 3, detection module 141 may include light-conductive optic fibre patch 1411, light source sensor 1412 and luminous mould
Block 1413, but not limited to this.Light-conductive optic fibre patch 1411 may include patch 141A, at least one the first light-conductive optic fibre OL1 and
At least one the second light-conductive optic fibre OL2.Patch 141A, which has, pastes face 141B (being shown in Fig. 4 B and Fig. 4 C), wherein pasting face 141B
To be attached to the display area 910 of electronic device 900.In one embodiment of this invention, patch 141A can be transparent modeling
Sticker piece causes patch 141A when being attached to the display area 910 of electronic device 900, information shown by display area 910
It can still be seen by user, but the present invention is not limited thereto.
First light-conductive optic fibre OL1 and the second light-conductive optic fibre OL2 is arranged in patch 141A.In first light-conductive optic fibre OL1
The first end direction of each pastes face 141B (as shown in Fig. 4 B and Fig. 4 C).Light source sensor 1412 is coupled in the first guide-lighting light
Between the second end and controller 142 of each of fine OL1 (as shown in Figure 3).Light emitting module 1413 is coupled in the second guide-lighting light
Between the second end and controller 142 of each of fine OL2 (as shown in Figure 3).Light emitting module 1413 be controlled by controller 142 with
Secondary light source SL is provided, and secondary light source SL is provided to display area 910 by the second light-conductive optic fibre OL2, to increase display
The brightness of information shown by region 910, as shown in Figure 4 C.Light source sensor 1412 is aobvious by the first light-conductive optic fibre OL1 sensing
Show information shown on region 910 to obtain the light sensation measurement information L_INF for corresponding to sensing 910 different location of display area.
That is light sensation measurement information L_INF can be sensed the brightness corresponding to 910 different location of display area by the first light-conductive optic fibre OL1
Value.
In one embodiment of this invention, if the information of the display area 910 of electronic device 900 is using such as Fig. 3 institute
The seven-segment display 912 shown is presented, then light source sensor 1412 can be by corresponding respectively to each section of seven-segment display 912
The first light-conductive optic fibre OL1 sense the brightness value of each section in seven-segment display 912, using as light sensation measurement information L_
INF.And mobile device 120 (or controller 142) can then judge in seven-segment display 912 according to light sensation measurement information L_INF
Whether each section lights, to judge information shown by seven-segment display 912.
As an example it is assumed that the range of luminance values that light source sensor 1412 can incude is 0~255, wherein brightness value 0 is indicated
Gauge without light source, and brightness value 255 indicates most bright.When a certain section in seven-segment display 912 lights, 1412 institute of light source sensor
The brightness value sensed is 174, and when this section in seven-segment display 912 does not work, light source sensor 1412 is sensed
Brightness value be 30 (for the brightness value of environment light), then designer can set brightness value 102 (that is, brightness value is 174 and brightness
The average value that value is 30) it is decision content, but the present invention is not limited thereto.Therefore, it is sensed when light source sensor 1412
When the brightness value of this section is greater than 102, then mobile device 120 (or controller 142) can determine whether this section of seven-segment display 912
It is bright;Conversely, if the brightness value for this section that light source sensor 1412 is sensed less than 102, mobile device 120 (or control
Device 142 processed) it can determine whether that this section of seven-segment display 912 is not work.By whether judging each section in seven-segment display 912
Have it is bright, it can be learnt that information shown by seven-segment display 912, such as " 14 " shown by the seven-segment display 912 of Fig. 3.
Since seven-segment display 912 itself is light-emitting component, light emitting module 1413 and second can need not be passed through
Light-conductive optic fibre OL2 provides secondary light source SL.Therefore under above-mentioned application situation, detection module 141 can also not have the mould that shines
Block 1413 and the second light-conductive optic fibre OL2, to reduce cost, and photo resistance can be used then to realize in light source sensor 1412,
But the present invention is not limited thereto.
In another embodiment of the invention, if the information of the display area 910 of electronic device 900 is using such as Fig. 3
Shown in light emitting diode 914 realize that then light source sensor 1412 can be sensed often by corresponding first light-conductive optic fibre OL1
The brightness value or luminescent color (i.e. RGB numerical value) of the light emitting diode 914 of one different location, using as light sensation measurement information L_
INF.And mobile device 120 (or controller 142) can then judge that light emitting diode 914 is shown according to light sensation measurement information L_INF
The information shown.For example, light source sensor 1412 can be for example color inductor, the RGB numberical range difference that can be incuded
For R value range 0~255, G value range 0~255, B value range 0~255.And " operating " state of electronic device 900 can use color
It indicates, such as red light indicates electronic device 900 just in standby, and in blue lamp indicates that electronic device 900 is currently running.
Assuming that the RGB numerical value that light source sensor 1412 is sensed is respectively R value 191, G value 30, B when red light shown in standby lights
Value 20, and when the blue lamp shown in the operation lights, the RGB numerical value that light source sensor 1412 is sensed is respectively R value 25, G value
36, B value 184, then decision content can be set separately by designer are as follows: R decision content 108, G decision content 144, B decision content 102, meter
Calculation mode can respectively (however, the present invention is not limited thereto) as follows:
R decision content: 108=(191+25)/2
G decision content: 144=(255+ (30+36)/2)/2
B decision content: 102=(184+20)/2
Therefore, if the R value that is sensed of light source sensor 1412 be greater than R decision content 108, G value be less than G decision content 144 with
And B value is less than B decision content 102, then mobile device 120 (or controller 142) can determine whether electronic device 900 just in standby (also
I.e. red light lights).Relatively, if the R value that light source sensor 1412 is sensed is less than R decision content 108, G value is less than G decision content
144 and B value is greater than B decision content 102, then mobile device 120 (or controller 142) can determine whether that electronic device 900 is currently running
In (that is, blue lamp lights).In addition to this, if R value, B value and G value that light source sensor 1412 is sensed do not meet above-mentioned two
Kind of situation, then mobile device 120 (or controller 142) determine light color shown by light emitting diode 914 be not it is red or
Blue, so can not judge the state of electronic device 900.
Since light emitting diode 914 itself is light-emitting component, light emitting module 1413 and second can need not be passed through
Light-conductive optic fibre OL2 provides secondary light source SL.Therefore under above-mentioned application situation, detection module 141 can also not have light emitting module
The 1413 and second light-conductive optic fibre OL2, to reduce cost.
In another embodiment of the present invention, if the information of the display area 910 of electronic device 900 is using twisted nematic
Type (Twisted Nematic, TN) liquid crystal display or super-twisted nematic (Super Twisted Nematic, STN) liquid crystal
To present, (but the present invention is not the display equipment of non-luminescent (the non-spontaneous property shine) of display etc. with both this
Limit), since light source sensor 1412 directly can not directly obtain light sensation measurement information L_INF by the first light-conductive optic fibre OL1,
Secondary light source need to be provided by light emitting module 1413 and corresponding to the second light-conductive optic fibre OL2 of liquid crystal display different location
SL can be sensed with increasing the brightness of information shown by display area 910 conducive to light source sensor 1412 to display area 910
To information shown by display area 910.Therefore, before information of the light source sensing device 1412 in sensing display area 910, control
Device 142 processed can start light emitting module 1413, so that light source sensing device 1412 has enough light sources to be incuded.And in light source sense
After answering device 1412 to obtain light sensation measurement information L_INF, controller 142 can then be closed light emitting module 1413, to avoid power consumption.Tool
For body, when light emitting module 1413 passes through the second light-conductive optic fibre OL2 for the display area of secondary light source SL guiding liquid crystal display
When 910, liquid crystal display can reflect secondary light source SL to the first light-conductive optic fibre OL1.Wherein, there is display information in liquid crystal display
Position reflected light signal intensity can be greater than liquid crystal display in do not show information position reflected light signal intensity.Cause
This, user can set when reflected light signal intensity is greater than a preset intensity of reflected light threshold values, light source sensor 1412
Judge that this section of display area 910 has display liquid crystal information;When reflected light signal intensity is less than the preset intensity of reflected light
Threshold values, light source sensor 1412 judge that this section of display area 910 does not show liquid crystal information.Whereby, light source sensor
1412 may determine that whether the different location in liquid crystal display has display information.Above-mentioned preset intensity of reflected light threshold values can
Make different settings to correspond to different electronic devices 900 according to user's demand.In other embodiments, in liquid crystal display not
It shows that the reflected light signal intensity of the position of information is greater than in liquid crystal display to have and shows that the reflected light signal of the position of information is strong
Degree, other parts are since principle is identical, and so it will not be repeated.
In present invention embodiment shown in Fig. 3, the first light-conductive optic fibre OL1 and the second light-conductive optic fibre OL2 are according to electronics
Corresponding layout is made in the display area 910 of device 900, e.g. according to the position of each section in seven-segment display 912 with
And corresponding layout is made in the position of light emitting diode 914, can effectively save manufacturing cost, but is only applicable to specific electronics
On device.In other embodiments of the invention, as shown in figure 5, the first light-conductive optic fibre OL1 ' of light-conductive optic fibre patch 1411 ' is adopted
It is laid out with the mode of array, and the second light-conductive optic fibre (not being painted) of light-conductive optic fibre patch 1411 ' can also be used and be similar to
The array manner of the first light-conductive optic fibre OL1 ' of Fig. 5 is laid out.In this way, which light-conductive optic fibre patch 1411 ' shown in fig. 5 can
It applies on various types of electronic device.
In one embodiment of this invention, controller 142 can be hardware, firmware or be stored in memory and by micro-
It is held loaded by reason device (Microprocessor) or digital signal processor (Digital Signal Processor, DSP)
The executable procedure code of capable software or machine.If employing hardware to realize, then controller 142 can be by single integration electricity
Road chip is reached, and can also be completed by multiple circuit chips, but the present invention is not limited thereto.Above-mentioned multiple circuit chips
Or specific function integrated circuit (Application Specific Integrated can be used in single integrated circuit chip
Circuit, ASIC), can program logic device (Programmable Logic Device, PLD) or programmable logic gate battle array
Arrange (Field Programmable Gate Array, FPGA) Lai Shixian.And above-mentioned memory can be such as arbitrary access and deposit
Reservoir, read-only memory or flash memory etc..
Please merge below referring to Fig.1 and Fig. 6, Fig. 6 be monitoring device depicted in another embodiment according to the present invention side
Block schematic diagram.Monitoring device 140 ' may include detection module 141, controller 142, first communication module 143, second communication module
144, radio module 145, battery module 146 and button 147, however, the present invention is not limited thereto.The detection module 141 of Fig. 6 and control
The embodiment of device 142 processed and running are analogous respectively to the detection module 141 and controller 142 of Fig. 2 (or Fig. 3), and can consider in light of actual conditions
The related description of above-mentioned Fig. 2~Fig. 5.
First communication module 143 couples controller 142, to receive the control instruction CMD of the sending of mobile device 120, and
Control instruction CMD is sent to controller 142.Second communication module 144 couples controller 142 and receives from controller 142 and controls
System instruction CMD, and control instruction CMD is sent to electronic device 900, to set electronic device 900.It is understood that the
One communication module 143 is to the communication interface as monitoring device 140 ' and mobile device 120, and second communication module 144 is used
Using the communication interface as monitoring device 140 ' and electronic device 900.
In one embodiment of this invention, first communication module 143 can be for example including wireless communication module, wire communication mould
Block or wireless communication module have both with wire communication module.Wireless communication module be, for example, bluetooth (blue-tooth) module,
Low power consumption bluetooth (BLE) module, Wireless Fidelity (Wi-Fi) module, global mobile system (global system for mobile
Communication, GSM) module, demal multiplexing access (code division multiple access, CDMA) module,
Wide band code division multiplexing accesses (wideband CDMA, WCDMA) module, CDMA-2000 module, time division multiplexing and accesses (time
Division multiple access, TDMA) module, Worldwide Interoperability for Microwave intercommunication (worldwide interoperability
For microwave access, WiMAX) module, long term evolution (long term evolution, LTE) module, radio zone
Domain network (wireless local area network, WLAN) module, ultra-wideband (ultra wideband, UWB) module,
The combination of (D2D) module or aforementioned modules is communicated between device, but not limited to this.And wire communication module is, for example, Local Area Network
(LAN) interface module, but not limited to this.
In one embodiment of this invention, the first communication module 143 of monitoring device 140 ' can also pass through the wireless of outside
Access point (access point, AP) is communicated with mobile device 120.
In one embodiment of this invention, second communication module 144 can be for example infrared light (Infrared) module, purple honeybee
(ZigBee) module or home automation wireless network (Z-Wave) module, but not limited to this.
In one embodiment of this invention, if electronic device 900 has Bluetooth transmission function or Wireless Fidelity transmission
Function, then mobile device 120 can also direct transfer control instruction CMD electron device 900, to be set to electronic device 900
It is fixed, and monitoring device 140 ' then only must information shown by the display area 910 of detection electronic installation 900, and will be acquired
Light sensation measurement information L_INF is returned to mobile device 120.
In one embodiment of this invention, it if electronic device 900 has ZigBee or Z-Wave transfer function, then moves
Device 120 can also link to wired home gateway by the Bluetooth transmission function or Wireless Fidelity transfer function of itself
(smart home gateway), and the ZigBee module or Z-Wave mould that control instruction CMD is passed through into wired home gateway
Block sends electronic device 900 to, and to set to electronic device 900, and monitoring device 140 ' then only must detection electronic installation
Information shown by 900 display area 910, and acquired light sensation measurement information L_INF is returned to mobile device 120.
Control instruction CMD can control electronic device 900 and execute corresponding running, and show relatively in display area 910
The information answered, and detection module 141 can detect information shown by display area 910 to obtain light sensation measurement information L_INF.Control
Light sensation measurement information L_INF can be sent to mobile device 120 by first communication module 143 by device 142, and mobile device 120 can
Judge whether electronic device 900 is completed to set according to control instruction CMD according to light sensation measurement information L_INF.Either, controller
142 can judge whether electronic device 900 is completed to set according to control instruction CMD according to light sensation measurement information L_INF, and produce accordingly
Raw setting result S_RST, and controller 142 can be sent to mobile device for result S_RST is set by first communication module 143
120。
For example, if electronic device 900 is air conditioner, and control instruction CMD is a desired temperature of air conditioner, then
Electronic device 900 can react on control instruction CMD and the cold air temperature of electronic device 900 is set as above-mentioned desired temperature,
And show the temperature value after setting in display area 910, and detection module 141 can detect letter shown by display area 910
(temperature value shown) is ceased to obtain light sensation measurement information L_INF.Controller 142 can be by first communication module 143 by light sensation
Measurement information L_INF is sent to mobile device 120, and mobile device 120 can judge electronic device according to light sensation measurement information L_INF
900 chill temperature angle value is set with judging whether electronic device 900 completes temperature according to control instruction CMD.Either, it controls
Device 142 can judge the chill temperature angle value of electronic device 900 according to light sensation measurement information L_INF, whether to judge electronic device 900
Temperature is completed according to control instruction CMD and sets and generate accordingly setting result S_RST, and controller 142 can pass through the first communication
Module 143 is sent to mobile device 120 for result S_RST is set.In this way, which mobile device 120 can be according to setting result
S_RST and learn electronic device 900 whether according to control instruction CMD complete temperature setting.
Radio module 145 couples controller 142, to sense the sound of electronic device 900, and generation and transmission sound accordingly
Tone sense measurement information S_INF is to controller 142.In one embodiment of this invention, controller 142 can be according to sound sensing information S_
INF judges whether electronic device 900 reacts on control instruction CMD and make a sound, and obtains sound judging result.If this sound
Judging result indicates that electronic device 900 does not react on control instruction CMD and makes a sound, then controller 142 can pass through first
The transmission of communication module 143 sets failure information F_MSG to mobile device 120.In one embodiment of this invention, radio module
145 can be for example microphone, but not limited to this.
For example, the electrical installation (such as air conditioner or electric fan) of part can issue corresponding sound when being set
Sound, if electronic device 900 is the electrical installation of the above-mentioned type, then controller 142 can judge electronics by radio module 145
Whether device 900 reacts on control instruction CMD and sound occurs.If sound does not occur for electronic device 900, then it represents that electronics dress
It sets 900 and does not receive or can not identify control instruction CMD, therefore controller 142 sends setting failure information F_MSG to mobile device
120.Relatively, if electronic device 900 reacts on control instruction CMD and sound occurs, then it represents that electronic device 900 can recognize control
System instruction CMD, then, can by information shown by display area 910 of the detection module 141 come detection electronic installation 900,
To judge electronic device 900 whether according to control instruction CMD completion setting.In one embodiment of this invention, if monitoring device
140 ' the electronic devices 900 monitored are not the electrical installation of the above-mentioned type, that is, electrical installation does not have and issues because of setting
The function of sound, then monitoring device 140 ' also may not include radio module 145, to save cost.
Battery module 146 couples controller 142, to power supply needed for providing the running of monitoring device 140 '.
Button 147 couples controller 142, generates trigger signal to controller 142 to be pressed.If the first communication mould
Block 143 is bluetooth module or low power consumption bluetooth module, then controller 142 can control first communication module according to trigger signal
143 are matched with the bluetooth module of mobile device 120 or low power consumption bluetooth module to establish line.
On the other hand, mobile device 120 can have mobile applications (mobile application, APP).This movement
Application program may include product type selection interface, at least one setting options interface, at least a status display interface and data
Library.Product type selection interface can allow user select the electronic device 900 to be monitored model.Setting options interface can be shown
Show that an at least function for electronic device 900 is set to allow user.Status display interface can be used to display electronics assemblies 900
State, setting result S_RST or setting failure information F_MSG etc..For example, if electronic device 900 is air conditioner,
Setting options interface can show temperature setting function, timing function or wind-force adjustment function of this air conditioner etc., be made with allowing
User can set the above-mentioned function of electronic device 900;And status display interface can be used to show the state of this air conditioner,
Such as whether air conditioner is switched on, the current cold air temperature setting value of air conditioner, and be set successfully etc..
Above-mentioned mobile applications according to the model of electronic device 900 and can react on one of setting option circle
Face is clicked, and corresponding control instruction CMD is found out in database, and control instruction CMD is sent to monitoring device
140, wherein the control instruction CMD of the electronic device 900 in database corresponding to different model can be downloaded from cloud.
For example, if electronic device 900 is to carry out setting functionally, mobile application using the technology of infrared ray
Program can find out corresponding infrared line code (IR code) in database according to the setting options interface clicked to make
For control instruction CMD, and this infrared line code is sent to monitoring device 140.
In addition to this, above-mentioned mobile applications can also be right in light sensation measurement information L_INF and database by comparing
The state of electronic device 900 should be judged in the reference data of the model of electronic device 900.Wherein, reference data may include
Brightness decision content, RGB judgment value and the intensity of reflected light threshold values of the electronic device of corresponding different model.
As an example it is assumed that electronic device 900 is air conditioner, and the information of the display area 910 of electronic device 900 is to adopt
Use-case seven-segment display 810 and 820 as shown in Figure 7 is presented, and wherein mobile device 120 is by monitoring device 140 ' by electronics
The cold air temperature of device 900 is set as 23 degree.Therefore, mobile device 120 can judge Seven pieces digital displaying by monitoring device 140 '
Whether the information that device 810 and 820 is presented is temperature " 23 " degree.Specifically, light source sensor 1412 can be by seven sections corresponding
First light-conductive optic fibre OL1 of each section of display 810 and 820 senses each section in seven-segment display 810 and 820
The brightness value of E811~E817 and E821~E827, using as light sensation measurement information L_INF.Therefore, mobile applications can will be each
The brightness value of section E811~E817 and E821~E827 are compared with the brightness decision content in above-mentioned reference data, with respectively
It is bright to judge whether each section E811~E817 and E821~E827 has.If the brightness of each section E811~E817 and E821~E827
When value is greater than brightness decision content, it is bright that mobile applications can determine whether that the section has;If each section E811~E817 and E821~
When the brightness value of E827 is less than brightness decision content, mobile applications can determine whether that the section is not bright.If judge section E811,
E812, E814, E815, E817, E821, E822, E823, E824, E827 all have bright, and section E813, E816, E825, E826
All not bright, then the mobile applications of mobile device 120 can determine whether that electronic device 900 has been set success.Conversely, if judging area
The not bright or section E813 of one of section E811, E812, E814, E815, E817, E821, E822, E823, E824, E827,
One of E816, E825, E826 have it is bright, then the mobile applications of mobile device 120 can determine whether electronic device 900 set
Failure.In another embodiment of the invention, whether mobile applications can have just for the brightness value of particular section
Variation is to judge whether electronic device 900 is set success.Specifically, by taking seven-segment display 810 and 820 as an example, work as mesh
The temperature that preceding display area 910 is shown is that " 25 " are spent, and when user's temperature to be adjusted to " 29 " are spent, user sets temperature
Value (29 degree) is input to the setting options interface of mobile device 120, and the mobile applications in mobile device 120 can be according to number
The section that brightness value can change, i.e. section E822 are obtained according to the reference data in library.At this point, mobile applications only need to judge area
Whether the brightness value of section E822 is greater than brightness decision content.If the brightness value of section E822 is greater than brightness decision content, mobile device
120 mobile applications can determine whether that electronic device 900 has been set success.If the brightness value of section E822 is less than or equal to bright
Decision content is spent, then the mobile applications in mobile device 120 can determine whether the setting failure of electronic device 900.This judgment mode can
The data volume that mobile applications need operation is reduced, to reduce the time of processing.
Fig. 8 A is the flow chart according to monitoring method depicted in one embodiment of the invention.As shown in Figure 8 A, monitoring side
Method is applicable to monitoring system 100, the monitoring device 140 of Fig. 3 and the monitoring device 140 ' of Fig. 6 of Fig. 1, but the present invention is not
As limit.Please merge below referring to Fig.1, Fig. 6 and Fig. 8 A, in the step S710 of Fig. 8 A, can will test module 141 configuration exist
The display area 910 of electronic device 900.Then, in step S730,910 institute of display area can be detected by detection module 141
The information of display and obtain light sensation measurement information L_INF.Later, in step S750, light sensation measurement information L_INF can be supplied to shifting
Dynamic device 120.Then, in step S770, electronic device is judged according to light sensation measurement information L_INF by mobile device 120
900 state.
In an embodiment of the present invention, mobile device 120 can more control electronic device 900 by monitoring device 140 ',
As shown in Figure 8 B.Fig. 8 B is please referred to below, and Fig. 8 B is the process according to monitoring method depicted in another embodiment of the present invention
Figure, wherein step S710, S730, S750 and S770 of Fig. 8 B be analogous respectively to Fig. 8 A step S710, S730, S750 and
S770, therefore the related description of Fig. 8 A can be considered in light of actual conditions.
After step S710, the function of electronic device 900 can be set by the mobile applications of mobile device 120
Can, as shown in step S715.Then, in step S720, control can be obtained by 143 self-moving device 120 of first communication module
System instruction CMD, wherein control instruction CMD is the above-mentioned function for setting electronic device 900.More specifically, step
S720 includes following details step: firstly, being opened in step S721 by the reception of 143 self-moving device 120 of first communication module
Dynamic instruction causes controller 142 to start monitoring device 140 ' to wake up controller 142.Starting monitoring dress is completed in controller 142
After setting 140 ', mobile device 120 is notified by first communication module 143, and self-moving device 120 obtains control instruction CMD,
As shown in step S722.
After step S720, control instruction CMD can be sent to electricity by controller 142 and second communication module 144
Sub-device 900, to set electronic device 900, as shown in step S725.Then, in step S726, felt by radio module 145
The sound of electronic device 900 is surveyed to obtain sound sensing information S_INF.In step S727, according to sound sensing information S_INF come
Judge whether electronic device 900 reacts on control instruction CMD and make a sound.If the judging result of step S727 is no, expression
Electronic device 900 does not receive control instruction CMD or can not identify control instruction CMD, therefore executes step S728.In step
In S728, judge whether to have repeatedly transmitted control instruction CMD electron device 900 up to n times, wherein times N is positive integer and can
Depending on practical application or design requirement.If the judging result of step S728 be it is no, return to step S725.If step S728's
Judging result is yes, this time setting work failure of expression electronic device 900, therefore passes through controller 142 and first communication module
143 transmission setting failure information F_MSG are to mobile device 120, as shown in step S7291.Then, mobile device 120 can will be set
Determine failure information F_MSG to be shown in the status display interface of mobile applications, as shown in step S7292.
On the other hand, if the judging result of step S727 be it is yes, indicate electronic device 900 receive control instruction CMD and
It can recognize control instruction CMD.At this point, electronic device 900 will react on control instruction CMD and show accordingly in display area 910
Information, therefore can by detection module 141 detect display area 910 shown by information obtain light sensation measurement information L_INF, such as
Shown in step S730.More specifically, step S730 may include following details step: firstly, can pass through in step S731
The light emitting module 1413 of detection module 141 and the second light-conductive optic fibre OL2 provide secondary light source SL to display area 910, to increase
The brightness of information shown by display area 910;Then, in step S732, the light source sensor of detection module 141 can be passed through
1412 and first light-conductive optic fibre OL1 sensing display area 910 shown by information to obtain light sensation measurement information L_INF.
After step S730, light sensation measurement information L_INF can be supplied to mobile device 120, as shown in step S750.It connects
, in step S770, the state of electronic device 900 can be judged according to light sensation measurement information L_INF by mobile device 120,
That is, judge whether electronic device 900 is completed to set according to control instruction CMD, however, the present invention is not limited thereto.In its of the invention
In his embodiment, the state of electronic device 900 can also be judged according to light sensation measurement information L_INF by controller 142, it also can be by
Controller 142 judges whether electronic device 900 is completed setting according to control instruction CMD and obtained according to light sensation measurement information L_INF
Mobile device 120 is sent to by result S_RST is set to setting result S_RST, and by first communication module 143.
If the judging result of step S770 be it is no, then follow the steps S7292, mobile device 120 can will set failure information
F_MSG is shown in the status display interface of mobile applications.If the judging result of step S770 is yes, expression electronic device
900 complete setting according to control instruction CMD, and controller 142 can be connect by 143 self-moving device 120 of first communication module
Dormancy instruction is received, as shown in step S780.Then, it in step S790, can be set by controller 142 according to dormancy instruction
Monitoring device 140 ' is electric power of the dormant state to save monitoring device 140 ', and first communication module 143 is maintained starting
State, to allow first communication module 143 that can receive the instruction for carrying out self-moving device 120 at any time to reawake monitoring device
140’。
It is noted that as described above, if electronic device 900 does not have the function made a sound by setting
Can, then step S726, S727, S728, S7291 of Fig. 8 B can be omitted execution.In addition, if the information of display area 910 is
Using light-emitting component (such as seven-segment display shown in fig. 6 912 or light emitting diode 914) Lai Chengxian, then it can need not pass through hair
Optical module 1413 and the second light-conductive optic fibre OL2 provide secondary light source SL, therefore can omit and execute step S731.
In conclusion monitoring device, monitoring system and monitoring method that the embodiment of the present invention is proposed, can not influence institute
Under the premise of the original function of electronics (electric appliance) device of monitoring, this electronics (electric appliance) device is manipulated, and obtains this electricity
The information of the display area of sub (electric appliance) device, and can further confirm that user is for the setting of electronics (electric appliance) device
No success.In this way, other than conditional electronic (electric appliance) device can be allowed to realize the function of Internet of Things, moreover it is possible to make user true
Recognize the state of electronics (electric appliance) device, further promotes the accuracy for setting electronics (electric appliance) device by Internet of Things.
Although the present invention has been disclosed by way of example above, it is not intended to limit the present invention., any technical field
Middle related technical personnel, without departing from the spirit and scope of the present invention, when can make some changes and embellishment, thus it is of the invention
Protection scope is subject to view as defined in claim.
Claims (24)
1. a kind of monitoring system, to monitor an electronic device characterized by comprising
One mobile device;And
One monitoring device, comprising:
One detection module is configured in a display area of the electronic device, and to detect information shown by the display area
And obtain a light sensation measurement information;And
One controller couples the detection module to receive the light sensation measurement information of detection module acquirement, and the light sensing is believed
Breath is sent to the mobile device,
Wherein the mobile device judges the state of the electronic device according to the light sensation measurement information.
2. monitoring system as described in claim 1, which is characterized in that the monitoring device further includes:
One first communication module couples the controller, to receive a control instruction from the mobile device, and by the control instruction
It is sent to the controller;And
One second communication module couples the controller, to receive the control instruction from controller, and the control instruction is transmitted
To the electronic device, to set the electronic device.
3. monitoring system as claimed in claim 2, it is characterised in that:
When the electronic device reacts on the control instruction when the display area shows the information, it is aobvious which detects this
Show the information shown by region to obtain the light sensation measurement information;And
The light sensation measurement information is sent to the mobile device by the first communication module by the controller, and the mobile device according to
The light sensation measurement information is come the state that judges the electronic device, to judge whether the electronic device sets according to control instruction completion
It is fixed.
4. monitoring system as claimed in claim 3, which is characterized in that the monitoring device further includes:
One radio module couples the controller, to sense the sound of the electronic device, and generates and transmit a sound sense accordingly
Measurement information to the controller,
Wherein the controller judges whether the electronic device reacts on the control instruction and sending sound according to the sound sensing information
Sound, and a sound judging result is obtained,
If the sound judging result indicates that the electronic device does not react on the control instruction and makes a sound, the controller is logical
One setting failure information of first communication module transmission is crossed to the mobile device.
5. monitoring system as claimed in claim 3, which is characterized in that the controller, which is set, is preset in dormant state, and this first
Communication module is preset in starting state, in which:
Before the first communication module receives the control instruction, the first communication module is more to receive one from the mobile device
Enabled instruction causes the controller to start the monitoring device to wake up the controller;And
After the controller is completed to start the monitoring device, which more passes through the first communication module and the movement is notified to fill
It sets, and receives the control instruction from the mobile device.
6. monitoring system as claimed in claim 5, which is characterized in that:
After the light sensation measurement information is sent to the mobile device by the first communication module by the controller, the controller is more
A dormancy instruction is received from the mobile device by the first communication module, causes the controller should according to dormancy instruction control
Monitoring device enters dormant state, and the first communication module is maintained starting state.
7. monitoring system as claimed in claim 3, which is characterized in that the mobile device has a mobile applications, and should
Mobile applications include:
One product type selection interface, to select a model of the electronic device monitored;
At least one setting options interface, to set an at least function for the electronic device;
An at least status display interface, to show the state of the electronic device;And
One database, wherein the mobile applications according to the model and react on at least one setting options interface wherein
One is clicked, and goes out the corresponding control instruction in the database lookup, and the control instruction is sent to the monitoring device,
Wherein the mobile applications are according to the reference data for corresponding to the model in the light sensation measurement information and the database
To judge the state of the electronic device.
8. monitoring system as described in claim 1, which is characterized in that the detection module includes:
One light-conductive optic fibre patch, comprising:
One patch has one to paste face, and wherein this pastes the display area of face to be attached to the electronic device;And
At least one the first light-conductive optic fibres are arranged in the patch, and the of each of at least one the first light-conductive optic fibre
Face is pasted towards this in one end;And
One light source sensor is coupled between the second end and the controller of each of at least one the first light-conductive optic fibre,
To sense the information shown by the display area by least one the first light-conductive optic fibre to obtain the light sensation measurement information.
9. monitoring system as claimed in claim 8, which is characterized in that the light-conductive optic fibre patch further includes:
At least one the second light-conductive optic fibres are arranged in the patch, and the of each of at least one the second light-conductive optic fibre
Face is pasted towards this in one end,
Wherein the detection module further includes:
One light emitting module is coupled between the second end and the controller of each of at least one the second light-conductive optic fibre, is used
To be controlled by the controller to provide a secondary light source, and the secondary light source is provided by least one the second light-conductive optic fibre
To the display area, to increase the brightness of the information shown by the display area.
10. a kind of monitoring device, which is characterized in that monitor an electronic device, comprising:
One detection module is configured in a display area of the electronic device, and to detect information shown by the display area
And obtain a light sensation measurement information;And
One controller couples the detection module to receive the light sensation measurement information of detection module acquirement, and according to the light sensing
Information judges the state of the electronic device.
11. monitoring device as claimed in claim 10, which is characterized in that further include:
One first communication module couples the controller, to receive a control instruction from a mobile device, and by the control instruction
It is sent to the controller;And
One second communication module couples the controller, to receive the control instruction from controller, and the control instruction is transmitted
To the electronic device, to set the electronic device.
12. monitoring device as claimed in claim 11, which is characterized in that:
When the electronic device reacts on the control instruction when the display area shows the information, it is aobvious which detects this
Show the information shown by region to obtain the light sensation measurement information;And
The light sensation measurement information is sent to the mobile device by the first communication module by the controller.
13. monitoring device as claimed in claim 12, which is characterized in that further include:
One radio module couples the controller, to sense the sound of the electronic device, and generates and transmit a sound sense accordingly
Measurement information to the controller,
Wherein the controller judges whether the electronic device reacts on the control instruction and sending sound according to the sound sensing information
Sound, and a sound judging result is obtained,
If the sound judging result indicates that the electronic device does not react on the control instruction and makes a sound, the controller is logical
One setting failure information of first communication module transmission is crossed to the mobile device.
14. monitoring device as claimed in claim 12, which is characterized in that the controller, which is set, is preset in dormant state, and this
One communication module is preset in starting state, in which:
Before the first communication module receives the control instruction, the first communication module is more to receive one from the mobile device
Enabled instruction causes the controller to start the monitoring device to wake up the controller;And
After the controller is completed to start the monitoring device, which more passes through the first communication module and the movement is notified to fill
It sets, and receives the control instruction from the mobile device.
15. monitoring device as claimed in claim 14, it is characterised in that:
After the light sensation measurement information is sent to the mobile device by the first communication module by the controller, the controller is more
A dormancy instruction is received from the mobile device by the first communication module, causes the controller should according to dormancy instruction control
Monitoring device enters dormant state, and the first communication module is maintained starting state.
16. monitoring device as claimed in claim 10, which is characterized in that the detection module includes:
One light-conductive optic fibre patch, comprising:
One patch has one to paste face, and wherein this pastes the display area of face to be attached to the electronic device;And
At least one the first light-conductive optic fibres are arranged in the patch, and the of each of at least one the first light-conductive optic fibre
Face is pasted towards this in one end;And
One light source sensor is coupled between the second end and the controller of each of at least one the first light-conductive optic fibre,
To sense the information shown by the display area by least one the first light-conductive optic fibre to obtain the light sensation measurement information.
17. monitoring device as claimed in claim 16, which is characterized in that the light-conductive optic fibre patch further includes:
At least one the second light-conductive optic fibres are arranged in the patch, and the of each of at least one the second light-conductive optic fibre
Face is pasted towards this in one end,
Wherein the detection module further includes:
One light emitting module is coupled between the second end and the controller of each of at least one the second light-conductive optic fibre, is used
To be controlled by the controller to provide a secondary light source, and the secondary light source is provided by least one the second light-conductive optic fibre
To the display area, to increase the brightness of the information shown by the display area.
18. a kind of monitoring method, which is characterized in that monitor an electronic device, comprising:
One detection module of one monitoring device is configured in a display area of the electronic device;
Information shown by the display area, which is detected, by the detection module obtains a light sensation measurement information;
The light sensation measurement information is supplied to a mobile device;And
The state that the electronic device is judged according to the light sensation measurement information by the mobile device.
19. monitoring method as claimed in claim 18, which is characterized in that further include:
A control instruction is obtained from the mobile device by a first communication module of the monitoring device;And
The control instruction is sent to the electronic device by a controller and a second communication module for the monitoring device, to set
The fixed electronic device.
20. monitoring method as claimed in claim 19, which is characterized in that the information shown by described detection display area
And the step of obtaining the light sensation measurement information, includes:
When the electronic device reacts on the control instruction when the display area shows the information, detects the display area and show
The information shown to obtain the light sensation measurement information,
Wherein the monitoring method further includes:
Judged the electronic device whether according to control instruction completion setting according to the light sensation measurement information by the mobile device.
21. monitoring method as claimed in claim 20, which is characterized in that further include:
After the control instruction is sent to the electronic device, electronics dress is sensed by a radio module of the monitoring device
The sound set is to obtain a sound sensing information;
Judge whether the electronic device reacts on the control instruction and issue according to the sound sensing information by the controller
Sound, to obtain a sound judging result;And
If the sound judging result indicates that the electronic device does not react on the control instruction and makes a sound, pass through the control
Device and first communication module transmission one set failure information to the mobile device.
22. monitoring method as claimed in claim 20, which is characterized in that the controller, which is set, is preset in dormant state, and this
One communication module is preset in starting state, wherein described obtain the control instruction from the mobile device by the first communication module
The step of include:
An enabled instruction is received to wake up the controller from the mobile device by the first communication module, and the controller is caused to open
Move the monitoring device;And
After the controller is completed to start the monitoring device, which is notified by the first communication module, and certainly should
Mobile device obtains the control instruction.
23. monitoring method as claimed in claim 22, which is characterized in that further include:
After the light sensation measurement information is sent to the mobile device, one is received from the mobile device by the first communication module and is stopped
It sleeps instruction, and the monitoring device is set according to the dormancy instruction by the controller and enters dormant state, and this first is led to
Letter module maintains starting state.
24. monitoring method as claimed in claim 18, which is characterized in that the information shown by described detection display area
And the step of obtaining the light sensation measurement information, includes:
A secondary light source is provided to the viewing area by a light emitting module of the detection module and at least one the second light-conductive optic fibres
Domain, to increase the brightness of the information shown by the display area;And
It is sensed shown by the display area by a light source sensor of the detection module and at least one the first light-conductive optic fibres
The information is to obtain the light sensation measurement information.
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