TWI526112B - Dynamic changes with an outdoor environment image in an illumination system - Google Patents

Description

Lighting system that can dynamically change with outdoor environmental images

The invention relates to an illumination system which can dynamically change with an outdoor environment image, in particular to an illumination system which has a basic illumination mode and can illuminate an environmental image of the outdoor environment according to the frequency of the page scan after the frequency reduction.

Lighting plays a very important role in people's lives. When working or reading a book, it is necessary to use lighting to enable people to do the above actions in an appropriate environment. However, in an office or home without external windows, it is dark. In a closed environment of a room, although it has general lighting, when people work in it for a long time or live for too long, they often do not know how the outdoor environment is, which makes most people have a physiological clock that cannot be adjusted or isolated from the outside environment. Negative feelings. In addition, since the illumination of the indoor environment mentioned above is relatively simple, there is a situation in which the indoor environment is too long to be monotonous or tired, so that there is still room for improvement in the prior art.

In view of the closed environment without external windows, people are generally I don't know the status of the outdoor environment, and the problem of single lighting. Therefore, the present invention mainly provides an illumination system that can dynamically change with an outdoor environment image, and mainly captures an image of an outdoor environment and illuminates the captured image to solve the above problem.

Based on the above objective, the main technical means adopted by the present invention provides a lighting system that can dynamically change with an outdoor environment image, and includes at least one image capturing module, a lighting module, a frequency reducing module, and an image processing module. group. The image capturing module is disposed in an outdoor environment and has an image page scanning frequency for capturing an environmental image of the outdoor environment, thereby generating and transmitting an image data. The lighting module is disposed in an indoor environment, and the wireless communication is connected to the image capturing module. The lighting module is provided with a basic lighting mode, and includes a processing unit, and the processing unit is configured to control the lighting module according to the basic lighting mode. A monochromatic illumination to illuminate the indoor environment. The frequency reduction module is disposed between the image capturing module and the lighting module, and is connected between the image capturing module and the lighting module, and is connected to the image capturing module and the lighting module. Receiving image data, and comprising an image cropping unit, the image cropping unit is configured to crop and scale down the environment image, thereby generating and transmitting an image cropping data including an environment cropped image, so that the lighting module is down-converted according to the image The page scan frequency and image cropping data are used to illuminate the environment in an indoor environment.

In the preferred embodiment of the above-mentioned auxiliary technical means for the illumination system which can dynamically change with the outdoor environment image, the image capture module has a charge-coupled device (CCD) photosensitive element and a complementary metal oxide. Semiconductor (Complementary Metal Oxide) One of the semiconductor, CMOS) image sensing elements, and the illumination module includes at least one LED array, and the LED array includes a plurality of Light Emitting Diodes (LEDs) and a plurality of LEDs At least one of an Organic Light Emitting Diode (OLED) and electrically connected to the processing unit. In addition, the illumination module further includes at least one of the diffusion sheet and the at least one diffusion film, and one of the diffusion sheet and the diffusion film is disposed adjacent to the LED array.

In addition, in the preferred embodiment of the above-mentioned auxiliary technology of the lighting system that can dynamically change with the outdoor environment image, the lighting system further includes a detecting module, and the detecting module is communicably connected to the image capturing module and the processing unit. And providing at least a first threshold for receiving image data to detect a first brightness of the environmental image, thereby transmitting a detection signal to the processing unit when the first brightness reaches the first threshold, so that The processing unit controls the illumination light of the array of light emitting diodes. In addition, the illumination system further includes a light sensor, wherein the light sensor is provided with a second threshold and a third threshold, and is disposed in the indoor environment, and is communicably connected to the processing unit for using the second one according to the indoor environment. The brightness, when the second brightness is lower than the second threshold or higher than the third threshold, transmits a sensing signal to the processing unit, so that the processing unit controls the illumination light of the light emitting diode array.

In a preferred embodiment of the above-mentioned illuminating system, the lighting module further includes a memory module, and the memory module is electrically connected to the processing unit for storing image cropping. Shrinking data, so that the processing unit reads the image cropping data and controls the illumination The diode array illuminates the environmentally cropped image. In addition, the lighting module further includes a wireless communication module, and the wireless communication module is connected to the image capturing module by wireless communication, and can also be connected to a communication device and electrically connected to the processing unit, and the wireless communication module. The image is used to read the image cropping data in the memory module, and the image cropping data is transmitted to the communication device.

In addition, the lighting module that can dynamically change with the outdoor environment image is further provided with a situation mode, and the processing unit is configured to control the LED array to illuminate the illumination light by combining at least two colors according to the situation mode, and reduce the frequency. The page scanning frequency is below 20 Hz. In addition, the image processing module further includes an image reversing unit for performing a flipping process on the image cropping data, thereby generating and transmitting an image flipping data including an environment flip image, so that the lighting module is based on the falling The frequency page scan frequency and the image flip data illuminate the environment flip image in the indoor environment.

By the main technical means of the lighting system which can be dynamically changed with the outdoor environment image, the indoor environment can be informed of the outdoor environment, so that the open space atmosphere of working or living in the indoor environment can be added, and then Solved the problem of the prior art.

In addition, with the accessory technology of the illumination system that can be dynamically changed with the outdoor environment image, the illumination of the illumination module can be adjusted and the user can store the brightness of the outdoor environment and the indoor environment. Out of your favorite situation, or transfer your favorite images to the lighting module, so that the lighting module can illuminate the stored situation or the transmitted image, so that the user can enjoy the lighting in their favorite Work or live under the border.

The specific embodiments of the present invention will be further described by the following examples and drawings.

1‧‧‧Lighting system that can be dynamically changed with outdoor environmental images

11‧‧‧Image capture module

12‧‧‧Lighting module

121‧‧‧Processing unit

122‧‧‧Memory Module

123‧‧‧Wireless communication module

124‧‧‧Lighting diode array

1241‧‧‧Lighting diode

125‧‧‧Control panel

13‧‧‧Down Frequency Module

14‧‧‧Image Processing Module

141‧‧•Image cropping unit

142‧‧‧Image flipping unit

15‧‧‧Detection module

16‧‧‧Light sensor

2‧‧‧ indoor environment

3‧‧‧Communication device

100‧‧‧Environmental imagery

S1‧‧‧ image data

S2‧‧‧Image Reduction Information

S3‧‧‧Image flipping data

S4‧‧‧Detection signal

S5‧‧‧Sensing signal

S6‧‧‧ warning signal

The first figure shows a block diagram of a lighting system that can dynamically change with an outdoor environment image according to a preferred embodiment of the present invention; the second figure shows the practice of a lighting system that can dynamically change with an outdoor environment image according to a preferred embodiment of the present invention. FIG. 3 is a schematic view showing a lighting module according to a preferred embodiment of the present invention; fourth is a schematic view showing an environmental image of a preferred embodiment of the present invention; and FIG. 4A is a view showing a preferred embodiment of the present invention. The illumination module displays a schematic diagram of the environment-converted image; and the fifth diagram shows a schematic diagram of the illumination module of the preferred embodiment of the present invention displaying the image transmitted by the user.

Because the illumination system provided by the present invention can dynamically change with the outdoor environment image, the combined implementation manners are numerous, and therefore will not be further described herein, and only a preferred embodiment will be specifically described.

Please refer to the first to fourth A drawings. The first figure shows a block diagram of a lighting system that can dynamically change with an outdoor environment image according to a preferred embodiment of the present invention. The second figure shows a preferred embodiment of the present invention. A schematic diagram of a practical application of a lighting system that can dynamically change with an outdoor environment image. The third figure shows a schematic diagram of a lighting module according to a preferred embodiment of the present invention. 4 is a schematic diagram showing an environmental image of a preferred embodiment of the present invention, and FIG. 4A is a schematic diagram showing a display image of an environmentally-converted image of a lighting module according to a preferred embodiment of the present invention.

As shown in the first figure, the illumination system 1 provided by the present invention can dynamically change with the outdoor environment image, and includes an image capturing module 11, a lighting module 12, a frequency reducing module 13, and an image processing module. The group 14 is a detection module 15 and a light sensor 16.

The image capturing module 11 is disposed in an outdoor environment (as shown in the second figure). In the preferred embodiment of the present invention, the image capturing module 11 is a camera having a charge coupled device (Charge-coupled Device). , CCD) a lens of a photosensitive element and a complementary metal oxide semiconductor (CMOS) image sensor (not shown), but is not limited thereto, and the outdoor environment refers to a building The external environment, for example, is disposed outside the office building, and the setting method is prior art, and will not be described again. In addition, the image capturing module 11 is provided with an image page scanning frequency f1, which is the frequency at which the image is captured.

The lighting module 12 is disposed in an indoor environment 2, and is wirelessly connected to the image capturing module 11. The lighting module 12 is provided with a basic lighting mode and a situation mode, and includes a processing unit 121 and a memory module 122. A wireless communication module 123, a plurality of LED arrays 124 (only one is shown), and a control panel 125. In the preferred embodiment of the present invention, the lighting module 12 is a window type illuminator, and the indoor environment 2 refers to an environment in a building, such as an indoor space of an office or a conference room, and the processing unit 121 is, for example, a central processing unit. Central Processing Unit (CPU), Graphics Processing Unit (GPU) or other processing chip, integrated circuit, and in the preferred embodiment of the present invention, a central processing unit is preferred.

The memory module 122 is electrically connected to the processing unit 121, such as an Erasable Programmable Read Only Memory (EPROM) and a non-volatile memory (Non-Volatile Memory). The NVRAM is implemented, and the basic illumination mode and the context mode described above are specifically stored in the memory module 122.

The wireless communication module 123 is electrically connected to the processing unit 121, and may be, for example, Bluetooth, Zigbee, Wireless Fidelity (Wi-Fi), Radio Frequency, or Worldwide Interoperability for The communication interface of Microwave Access, WIMAX), but is not limited thereto in other embodiments.

As shown in the first and third figures, the LED array 124 is electrically connected to the processing unit 121 and includes a plurality of Light Emitting Diodes (LEDs) 1241 (in the preferred embodiment of the present invention). In the example, each of the LED arrays 124 is an array of 6*6, so there are 576 LEDs, which are not limited thereto in other embodiments, which can emit basic illumination light of RGB, and More preferably, at least one of the diffusion sheet (not shown) and the at least one diffusion film (not shown), the one of the diffusion sheet and the diffusion film being disposed adjacent to the light-emitting diode array 124 The diode 1241 is used to reduce the irritancy of the light of the light-emitting diode 1241 to the human eye. In addition, in other embodiments, the LED array 124 can also be used as a passive organic electroluminescent diode. (Passive Matrix OLED, PMOLED) or Active Organic OLED (AMOLED) Organic Light Emitting Diode (OLED). In addition, the control panel 125 is disposed on the body of the illumination module 12 . Further, the button of the control panel 125 or the control panel 125 itself is electrically connected to the processing unit 121 to transmit a signal to the processing unit 121 .

The frequency reduction module 13 is disposed between the image capturing module 11 and the lighting module 12, and is communicably connected to the image capturing module 11 and the lighting module 12. Specifically, in the preferred embodiment of the present invention, The down-conversion module 13 is disposed at the end of the image capturing module 11 and is wired and connected to the image capturing module 11 and wirelessly connected to the lighting module 12. However, in other embodiments, the down-converting module can be 13 is disposed at the end of the lighting module 12 and is wired and connected to the lighting module 12, and is wirelessly connected to the image capturing module 11 via the wireless communication module 123 of the lighting module 12. The down-converting module 13 is a processor (down-converter) or a down-converting circuit capable of reducing the frequency, and the system can first sample the image with a higher image page frequency, and then perform the multi-page image pixel average before performing Down-conversion processing; in addition, the down-conversion module 13 can also directly sample the lower image page frequency image. A preferred embodiment of the invention is a multi-page pixel average frequency downconverter.

The image processing module 14 is disposed between the image capturing module 11 and the lighting module 12, and is communicatively coupled to the image capturing module 11 and the lighting module 12. Specifically, in the preferred embodiment of the present invention, The image processing module 14 is disposed at the end of the image capturing module 11 and is wired and connected to the image capturing module 11 and wirelessly connected to the lighting module 12, but in other In an embodiment, the image processing module 14 can be disposed at the end of the illumination module 12 and wiredly connected to the illumination module 12, and wirelessly connected to the image capture module via the wireless communication module 123 of the illumination module 12. 11. The image processing module 14 is generally an image processor capable of image processing, and can also be implemented by an image processing software. In the preferred embodiment of the present invention, an image processor is preferred. In addition, the image processing module 14 includes an image cropping unit 141 and an image inverting unit 142. The image inverting unit 142 is electrically connected to the image indenting unit 141.

The detection module 15 is connected to the image capturing module 11 and the processing unit 121, and is provided with at least a first threshold (the unit is lumen). Specifically, in the preferred embodiment of the present invention, the detection module 15 The module 15 is disposed at the end of the image capturing module 11 and is wired and connected to the image capturing module 11 and is wirelessly connected to the processing unit 121 via the wireless communication module 123. However, in other embodiments, The detection module 15 is disposed at the end of the illumination module 12 and is wired and connected to the processing unit 121, and is wirelessly connected to the image capturing module 11 via the wireless communication module 123 of the illumination module 12. The detection module 15 can be a processor (detector) or a brightness sensor generally having a brightness detection. In the preferred embodiment of the invention, a brightness sensor is preferred. Specifically, in the preferred embodiment of the present invention, the image capturing module 11 is wirelessly connected to the lighting module 12 via the frequency reducing module 13, the image processing module 14, and the detecting module 15.

In addition, it should be noted that when the frequency reduction module 13 and the image processing module 14 and the detection module 15 are wirelessly connected to the illumination module 12, the wireless communication can be electrically connected. After the module (not shown), The wireless communication module is connected to the lighting module 12 by wireless communication; the wireless communication module can also be disposed in the frequency reduction module 13, the image processing module 14, and the detection module 15, and the wireless communication connection is further provided. In the lighting module 12, it depends on the actual situation.

The photo sensor 16 is provided with a second threshold (the unit is lumens) and a third threshold (the unit is lumens), and is disposed in the indoor environment 2, and is wired and connected to the processing unit 121, but in other embodiments The middle system can be wirelessly connected to the processing unit 121. The photo sensor 16 may be a brightness detector or an optical detector. In the preferred embodiment of the present invention, the brightness detector is preferably used, and the second threshold may be equal to or not equal to the third threshold. It depends on the actual situation.

The detailed operation of the illumination system 1 that can dynamically change with the outdoor environment image according to the preferred embodiment of the present invention will be described in detail below. Generally, when the user does not use the illumination system 1 that can dynamically change with the outdoor environment image, The control unit 121 can control the illumination module 12 to emit a monochromatic illumination light according to the basic illumination mode, so as to illuminate the indoor environment 2, specifically, the user can pass through the control panel. The control of 125 causes the light-emitting diode 1241 of the illumination module 12 to emit white monochromatic illumination light, and can set its brightness (color temperature) to select a better light, and this setting can be further stored in the memory mode. Group 122.

In addition, the user can also use the control panel 125 to select the context mode, and the processing unit 121 controls the light-emitting diodes 1241 to illuminate the combined illumination light by combining at least two colors according to the setting of the context mode. , the user can also set the brightness (color temperature) and choose The preferred situation is selected and can also be stored in the memory module 122 according to preferences.

As shown in the first and fourth figures, when the user uses the lighting system 1 that can dynamically change with the outdoor environment image, the image capturing module 11 captures an environmental image 100 of the outdoor environment, thereby generating and transmitting An image data S1, it is worth mentioning that the image scanning frequency f1 of the image capturing module 11 is about 60 Hz, and the preferred embodiment of the present invention does not use the image scanning frequency f1. The frequency module 13 reduces the image page scanning frequency f1 to generate a down-clock page scanning frequency f2, so that the image capturing module 11 captures the environment image 100 according to the down-clock page scanning frequency f2.

After the image data S1 is transmitted, the image processing module 14 receives the image data S1, and uses the image cropping unit 141 to crop and reduce the environmental image 100 in the image data S1 by a fixed ratio (how to crop and how to reduce the image is already The conventional technology, therefore, will not be described again, so as to generate and compress the image S2 containing an environmentally cropped image, and transmit it to the lighting module 12 by wireless transmission, so that the lighting module 12 scans according to the down-converted page. The frequency f2 and the image cropping data S2 illuminate the environment cropping image as shown in FIG. 4A in the indoor environment 2 (specifically, the lighting module 12 receives the image cropping data S2 by the wireless communication module 123, After the image-restricted data S2 is transmitted to the processing unit 121, the processing unit 121 sends a control signal to control the light-emitting diode 1241 to illuminate the environmentally-reduced image according to the image-restricted data S2, that is, the illumination module 12 illuminates The frequency of the output is the same as the frequency of capture by the image capture module 11 (in the preferred embodiment, illumination and capture can be synchronized).

The image retracting unit 141 is configured to cut the captured environmental image 100 to a resolution corresponding to the illumination module 12 at a preferred fixed ratio, and further, the preferred embodiment of the present invention uses the lowering The frequency of the page scanning frequency is below 20 Hz. In actual operation, the frequency-down page scanning frequency f2 is maintained at about 15 Hz, but in order to generate an environmentally cropped image as shown in FIG. 4A, some embodiments use timing cutting for cost saving. The concept of using the down-conversion page scanning frequency f2 multiplier, and letting the illumination module 12 in the fourth A picture illuminate the environmentally cropped image with the LED array 124, while the illumination module 12 is actually When the illumination is switched with the outdoor environment image, it is still dynamically changed by the down-clock page scanning frequency f2.

In addition, as shown in the fourth figure, the original environment image 100 is clear (for example, 240*320 in the embodiment), but since the preferred embodiment of the present invention is processed by the image cropping unit 141, the illumination mode is When the group 12 illuminates the environmental image 100 of the fourth figure, an image with a lower resolution (for example, less than 128*128) and a clear illumination is generated as shown in the fourth embodiment (the preferred embodiment of the present invention is only for illumination). For the main, so the image does not need to be clear), hereby clarify.

In addition, in the preferred embodiment of the present invention, after the image is cropped and the image cropping data S2 is generated, the image inverting unit 142 performs a flipping process on the image cropping data S2 to generate a The image flipping data S3 including an environment flip image is transmitted, so that the lighting module 12 illuminates the environment flip image in the indoor environment 2 according to the down-clock page scanning frequency f2 and the image flipping data S3. Wherein, the above-mentioned inversion processing is processing for horizontal, vertical and rotation of an image, In the case of the rotation process, in practice, after the image containing the environment flip image is generated, the image data can be transmitted and reduced once again, and how the image data can be controlled can be controlled by the actual setting.

In addition, in addition to the detailed implementation described above, after the image capturing module 11 captures the environmental image 100 and generates the image data S1, the detecting module 15 also receives the image data S1 to detect the first brightness of the environmental image 100. Therefore, when the first brightness reaches the set first threshold, a detection signal S4 is transmitted to the processing unit 121, so that the processing unit 121 sends out a control signal (not shown) to control the light-emitting diodes 1241. Illumination light.

For example, when the detecting module 15 detects that the first brightness of the environmental image 100 is not higher than the first threshold, the brightness of the outdoor environment is too low. At this time, the lighting module turns off the dynamic lighting processing, and the preset is automatically started. Or situational lighting mode. When the first brightness of the environment image 100 is higher than or equal to the first threshold, the lighting module is automatically turned on for dynamic lighting work. The detection module 15 can provide the intelligent illumination function of the illumination system 1 which can be dynamically changed with the outdoor environment image during long-time operation.

In addition, in addition to the detailed implementation actions described above, the photo sensor 16 transmits a sensing signal S5 according to a second brightness of the indoor environment 2, when the second brightness is lower than the second threshold or higher than the third threshold. To the processing unit 121, the processing unit 121 sends a control signal (not shown) to control the illumination light of the light-emitting diodes 1241. Specifically, when the second brightness of the indoor environment is darker than the second threshold, the photo sensor 16 sends out the sensing signal S5 to notify the processing unit 121 to brighten the illumination light, and vice versa. Second, the brightness is brighter than the third threshold At the time, the photo sensor 16 sends out the sensing signal S5 to notify the processing unit 121 to dim the illumination light. In this way, people in the indoor environment 2 can have more comfortable illumination.

In addition, in the above implementation, the memory module 122 stores the image cropping data S2 and the image inversion data S3, so that when the user controls the control panel 125, the processing unit 121 can read the image cropping data S2 or The image flipping data S3 controls the light emitting diodes 1241 to illuminate the environmentally cropped image or the environment flipped image. For example, the memory module 122 can store the image cropping data S2 or the image flipping data S3 at each moment, and the user can use the control panel 125 to select and illuminate the LEDs 1241 to enhance the present invention. The convenience of the lighting system 1 that dynamically changes with the outdoor environment image.

In addition, in another application of the present invention, please refer to FIG. 5, which is a schematic diagram showing the illumination module of the preferred embodiment of the present invention displaying an image transmitted by a user. As shown in FIG. 5 (refer to the first to third figures), the wireless communication module 123 can be wirelessly connected with a communication device such as a mobile phone, a tablet, or a notebook, so that the user can utilize wireless communication. The module 123 reads the image cropping data S2 or the image inversion data S3 in the memory module 122, and transmits the image cropping data S2 or the image inversion data S3 to the communication device 3. Of course, the user can use the communication device 3 to store the image of the user's favorite image in the memory module 122 via the wireless communication module 123, so that the processing unit 121 can read the image transmitted by the user and control the illumination of the LED 1241. The image shown in the fifth picture.

In addition, it is mentioned here that, similarly, the image presented in practice is lower in resolution as shown in the fifth figure (for example, less than 128*128). The more vague images are hereby stated.

When the wireless communication module 123 is used to transmit the image selected by the user, the wireless communication module 123 is subject to interference. Therefore, as long as the transmission rate is disturbed and the wireless bandwidth is affected, a transmission can be transmitted through the transmission. The threshold processing unit 121 detects that when the transmission rate reaches the transmission threshold, a warning signal S6 including the transmission rate is sent to the down-conversion module 13, so that the frequency reduction module 13 can control the frequency reduction according to the current transmission rate. For example, when the transmission rate is low, the down-converting module 13 can be controlled at 15 Hz, and when the transmission rate is slightly increased, it can be controlled at 18 Hz, and so on, which is not repeated, that is, the present invention The down-converting module 13 can be down-converted for frequency conversion.

In summary, after the lighting system used in the present invention is adopted, since the people in the indoor environment can know the state of the outdoor environment, an open space atmosphere that works or lives in the indoor environment can be added, thereby solving the conventional technology. The problem.

In addition, with the accessory technology of the illumination system used in the present invention, since the brightness of the outdoor environment and the indoor environment can be further detected, the illumination of the illumination module can be adjusted, and the user can adjust the situation that he or she likes, or Transfer your favorite images to the lighting module, and let the lighting module illuminate the adjusted situation or the transmitted image, so that the user can do things in their favorite situation.

The features and spirit of the present invention will be more apparent from the detailed description of the preferred embodiments. Rather, its purpose is to accommodate various changes and equivalence arrangements in the present invention. Within the scope of the patent scope to be applied for.

1‧‧‧Lighting system that can be dynamically changed with outdoor environmental images

11‧‧‧Image capture module

12‧‧‧Lighting module

121‧‧‧Processing unit

122‧‧‧Memory Module

123‧‧‧Wireless communication module

124‧‧‧Lighting diode array

13‧‧‧Down Frequency Module

14‧‧‧Image Processing Module

141‧‧•Image cropping unit

142‧‧‧Image flipping unit

15‧‧‧Detection module

16‧‧‧Light sensor

S1‧‧‧ image data

S2‧‧‧Image Reduction Information

S3‧‧‧Image flipping data

S4‧‧‧Detection signal

S5‧‧‧Sensing signal

S6‧‧‧ warning signal

Claims (11)

A lighting system that can dynamically change with an outdoor environment image, comprising: at least one image capturing module disposed in an outdoor environment, and having an image page scanning frequency for capturing an environmental image of the outdoor environment, thereby Generating and transmitting an image data; a lighting module is disposed in an indoor environment, and is wirelessly connected to the image capturing module, the lighting module is provided with a basic lighting mode, and includes: a processing unit, According to the basic lighting mode, the lighting module is controlled to emit a monochromatic illumination light to illuminate the indoor environment; a frequency reduction module is disposed between the image capturing module and the lighting module, and communicates Connecting the image capturing module and the lighting module to reduce the scanning frequency of the image page to generate a frequency-down page scanning frequency, so that the image capturing module can capture the frequency according to the frequency-lowering page scanning frequency An image processing module is disposed between the image capturing module and the lighting module, and is communicably coupled to the image capturing module and the lighting module The system is configured to receive the image data, and includes: an image cropping unit for cutting and reducing the environment image, thereby generating and transmitting an image cropping data including an environment-converted image, so that the lighting module The environment-converted image is illuminated in the indoor environment according to the frequency-down page scanning frequency and the image cropping data. The illumination system according to the first aspect of the patent application, which can dynamically change with an outdoor environment image, wherein the image capture module has a charge-coupled device (CCD) photosensitive element and a complementary metal oxygen. One of the composite semiconductor (CMOS) image sensor elements. The lighting system as described in claim 1 , wherein the lighting module comprises at least one of a plurality of light emitting diodes (LEDs) and an organic light emitting diode. A light emitting diode array of at least one of an Organic Light Emitting Diode (OLED) electrically connected to the processing unit. The illumination system of claim 3, wherein the illumination module further comprises at least one of a diffusion sheet and at least one diffusion film, the diffusion sheet and the diffusion One of the films is disposed adjacent to the array of light emitting diodes. The illumination system of claim 3, wherein the illumination system further comprises a detection module, wherein the detection module is communicatively coupled to the image capture module and The processing unit is configured to receive at least one first threshold for receiving the image data to detect a first brightness of the ambient image, so that a detection signal is transmitted when the first brightness reaches the first threshold To the processing unit, the processing unit controls the illumination light of the LED array. The illumination system of claim 3, wherein the illumination system further comprises a light sensor, wherein the light sensor is provided with a second threshold and a third threshold. And being disposed in the indoor environment, and communicatively coupled to the processing unit, configured to: according to one of the indoor environments, the second brightness is lower than the second threshold and the third threshold Transmitting a sensing signal to the processing unit, The processing unit controls the illumination light of the LED array. The illumination system of the present invention, wherein the illumination module further includes a memory module, the memory module is electrically connected to the processing unit for storing The image is scaled data, so that the processing unit reads the image cropping data and controls the LED array to illuminate the environment cropped image. The lighting system of claim 3, wherein the lighting module is further provided with a situation mode, and the processing unit is configured to control the LED array illumination according to the situation mode. The illumination light is combined by one of at least two colors combined. The lighting system as described in claim 7 can dynamically change with the outdoor environment image, wherein the lighting module further comprises a wireless communication module, wherein the wireless communication module is configured to connect to the image by wireless communication. The module and a communication device are electrically connected to the processing unit for reading the image cropping data in the memory module, and transmitting the image cropping data to the communication device. For example, the lighting system that can dynamically change with the outdoor environment image according to the first aspect of the patent application, wherein the frequency of the down-clock scanning is 20 Hz or less. The image processing module further includes an image reversing unit, wherein the image reversing unit is electrically connected to the image rectifying unit, as described in claim 1, wherein the image processing module further includes an image reversing unit. Performing a flipping process on the image cropping data to generate and transmit an image flipping data including an environment flip image, so that the lighting module flips the data according to the frequency of the downsampling page and the image in the indoor environment Illuminate the environment to flip the image.