CN113096065A - Intelligent film image evaluation system and method adopting cloud detection technology - Google Patents

Abstract

The invention provides an intelligent film image evaluation system and method adopting a cloud detection technology, which comprises the following steps: module M1: the film is processed by a client host to obtain a digital image; module M2: the Internet of things communication between the user side host and the cloud server is realized through the high-speed wireless communication module; module M3: the cloud server obtains a digital image of the user side host through Internet of things communication, and performs image processing on the digital image, so that defect characteristics of the digital image are identified, and the digital image and the judgment result are transmitted back to the user side host; the user host can realize film image evaluation, film image digital scanning imaging and digital image display and intelligent evaluation. The invention is based on the cloud detection technology, and realizes the intelligent film evaluation of the traditional film through the technologies such as the internet of things communication technology, intelligent identification and the like.

Description

Intelligent film image evaluation system and method adopting cloud detection technology

Technical Field

The invention relates to the technical field of nondestructive detection, intelligent detection and cloud detection, in particular to an intelligent film image evaluation system and method adopting a cloud detection technology.

Background

Non-destructive Testing Technology (Non-destructive Testing Technology) is an effective means for Testing materials and products by various technical methods such as acoustics, optics, electricity, magnetism, heat and the like without damaging the performance and the use function of the materials and products. The nondestructive detection technology can be used for realizing the detection of the defects inside and on the surface of the detected object, the judgment and the sorting of materials, the measurement of geometric dimensions and the like. The existing nondestructive detection technology has many methods, mainly including ray detection technology, ultrasonic detection technology, eddy current detection technology, magnetic powder detection technology, penetration detection technology, infrared detection technology, visual detection technology and the like.

The most common radiographic inspection technology is radiographic inspection technology, which is a mode of penetrating a workpiece with X-rays or gamma-rays and recording information by using a film. The film viewing lamp is one of the most important devices of the film radiographic detection method, is used for observing film images, has the functions of high brightness, adjustability and the like, can only meet the basic film viewing requirements, and cannot realize intelligent and humanized film viewing, so that a more intelligent and reliable film viewing and judging system is required to be found.

At present, no explanation or report of the similar technology of the invention is found, and similar data at home and abroad are not collected.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent film image evaluation system and method adopting a cloud detection technology.

The invention provides an intelligent film image evaluation system adopting a cloud detection technology, which comprises:

module M1: the film is processed by a client host to obtain a digital image;

module M2: the Internet of things communication between the user side host and the cloud server is realized through the high-speed wireless communication module;

module M3: the cloud server obtains a digital image of the user side host through Internet of things communication, and performs image processing on the digital image, so that defect characteristics of the digital image are identified, and the digital image and the judgment result are transmitted back to the user side host;

the user host can realize film image evaluation, film image digital scanning imaging and digital image display and intelligent evaluation.

Preferably, the user-side host includes: the device comprises a shell, an equipment switch, a power supply, a brightness control knob, a high-brightness light source film evaluation window, a film image scanner, a data acquisition and processing communication circuit and a film evaluation comprehensive control and display unit;

the shell is a shell of the user side host, bears components of the user side host and plays a role in integration and protection;

the equipment switch is positioned on the shell and used for controlling the power-on and power-off of the user side host;

the power supply provides a power supply meeting preset requirements for the user side host;

the brightness control knob realizes the sensitivity adjustment of the light source;

the high-brightness light source film evaluation window is integrated with high-brightness low-energy-consumption light sources which are arranged in an array mode to provide light intensity required by film observation;

the film image scanner is positioned at one side of the high-brightness light source film evaluation window, and is controlled to carry out digital image scanning on a film placed in the high-brightness light source film evaluation window area through the film evaluation comprehensive control and display unit so as to convert film image information into digital information; after the scanning is finished, the film image scanner returns to the initial position, and the acquired film image frame is sent to the data acquisition processing communication circuit;

the data acquisition processing communication circuit is used for realizing acquisition, processing and transmission of film scanning data;

the evaluation comprehensive control and display unit can comprehensively control the image evaluation system and display the digital image and the state information of the image evaluation system in real time.

Preferably, the user side host further comprises a radiator and an equipment state monitoring unit;

the radiator is used for cooling the user side host;

the equipment state monitoring unit is connected with the data acquisition processing communication circuit, and the equipment state control unit is integrated with temperature, humidity and brightness sensors, so that the real-time monitoring of temperature, humidity, brightness and working state information is realized, and monitoring data are provided for the running state of the image evaluation system in real time.

Preferably, the user side host further comprises a foot switch controller and a data transmission interface;

the foot switch controller is connected with the user side host through a data transmission interface, and switching between high brightness and low brightness of the user side host is realized through a foot mode;

the data transmission interface integrates various hardware interfaces and is used for inputting and outputting data.

Preferably, the data transmission interface comprises USB, PS/2, RJ45 and SD card readers, and the import and export of data are satisfied.

Preferably, the radiator is located on the back of the user side host computer, is made of a high-thermal-conductivity metal material and a novel non-metal material, and is provided with a silent fan to realize temperature cooling of the image evaluation system host computer.

Preferably, the high-brightness light source film evaluation window can ensure uniform illumination in a field of view, and the area size is subjected to lighting or closing control of the light source of the preset area through the film evaluation comprehensive control and display unit, so that the film evaluation window is suitable for the observation requirements of films with different sizes.

Preferably, the evaluation comprehensive control and display unit comprises a control module, an image processing and analyzing module and an image and data display module;

the control module is used for controlling the brightness of the high-brightness light source film evaluation window, the start or the end of the scanning of the film digital image, the display and the switching of the digital image, and the locking, the restarting and the closing of the image evaluation system;

the image processing and analyzing module is used for marking, rotating and reducing the data image;

the image and data display module is used for displaying images and data.

Preferably, said module M3 comprises: the cloud server can process the received digital image, intelligently identifies defects through Fourier transformation, filtering, noise reduction, image synthesis, image enhancement and deep learning, and transmits the digital image and the judgment result back to the data acquisition processing communication circuit.

According to the intelligent film image evaluation method adopting the cloud detection technology, the intelligent film image evaluation system adopting the cloud detection technology executes the following steps:

step M1: the high-brightness light source film evaluation window is electrified and lightened, and the film is placed on the high-brightness light source film evaluation window;

step M2: the user side host generates normal light intensity through the foot switch controller, and adjusts the light source brightness of the high-brightness light source evaluation window in real time through adjusting the brightness control button;

step M3: controlling the film image scanner to scan the film through the grading comprehensive control and display unit, and returning the film image scanner to the initial position after the scanning is finished;

step M4: transmitting the scanning data to a cloud server through a data acquisition processing communication circuit;

step M5: the scanning data are calculated and processed by the cloud server to obtain digital images and film evaluation results, the data images and the film evaluation results are transmitted to the data acquisition processing communication circuit, and the digital images and the evaluation results are displayed in real time through the grading comprehensive control and display unit.

Compared with the prior art, the invention has the following beneficial effects:

1. the intelligent film evaluation method is based on the cloud detection technology, realizes intelligent film evaluation of the traditional film through technologies such as an internet of things communication technology, intelligent identification and the like, and greatly improves the intelligent degree of film observation and evaluation;

2. the film image evaluation system integrates the film image scanning function and can scan the film image at high speed;

3. the integrated equipment state monitoring unit comprises various sensors of temperature, humidity, brightness and the like, and is visually displayed in the evaluation comprehensive control and display unit through the real-time monitoring of the running state data information of the image evaluation system;

4. the area size of the film evaluation window of the high-brightness light source can be adjusted in multiple modes, and the light source of a certain area can be turned on or turned off through the film evaluation comprehensive control and display unit, so that the film evaluation window is suitable for the observation requirements of films of different sizes.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural diagram of a detection system of the present invention.

Wherein, 1-user host; 2-a cloud server; 3-a shell; 4-equipment switch; 5-a power supply; 6-brightness control knob; 7-a data transmission interface; 8-foot switch controller; 9-a radiator; 10-a device status monitoring unit; 11-high brightness light source film evaluation window; 12-a film image scanner; 13-a data acquisition processing communication circuit; 14-evaluation comprehensive control and display unit.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

Aiming at the defects of the prior art, the invention provides an intelligent film image evaluation system adopting a cloud detection technology, which is used for solving the problems of single function, low intelligent degree and the like of the current film viewing lamp.

Example 1

The invention provides an intelligent film image evaluation system adopting a cloud detection technology, which comprises:

module M1: the film is processed by a user host 1 to obtain a digital image;

module M2: the internet of things communication between the user side host 1 and the cloud server 2 is realized through the high-speed wireless communication module;

module M3: the cloud server 2 acquires a digital image of the user side host 1 through Internet of things communication, performs image processing on the digital image, thereby performing defect feature identification on the digital image and transmitting the digital image and a judgment result back to the user side host 1;

the user host 1 can realize film image evaluation, film image digital scanning imaging and digital image display and intelligent evaluation;

the cloud server 2 is a remote data processing center of the image evaluation system and provides strong computing power for scanning data.

Specifically, the user-side host 1 includes: the device comprises a shell 3, an equipment switch 4, a power supply 5, a brightness control knob 6, a data transmission interface 7, a foot switch controller 8, a radiator 9, an equipment state monitoring unit 10, a high-brightness light source film evaluation window 11, a film image scanner 12, a data acquisition processing communication circuit 13 and an evaluation comprehensive control and display unit 14;

the equipment switch 4 is connected with the power supply 5; the power supply 5 is connected with the brightness control knob 6; the brightness control knob 6 is connected with the evaluation comprehensive control and display unit 14; the evaluation sheet comprehensive control and display unit 14 is connected with the data acquisition processing communication circuit 13; the evaluation integrated control and display unit 14 is connected with the high-brightness light source evaluation window 11; the film image scanner 12 is connected with the data acquisition processing communication circuit 13; the equipment state control unit 10 is connected with the evaluation sheet comprehensive control and display unit 14 and the data acquisition processing communication circuit 13; the data transmission interface 7 is connected with the evaluation comprehensive control and display unit 14; the radiator 3 is connected with the power supply 5; the foot switch controller 8 is connected with the evaluation piece comprehensive control and display unit 14;

the shell 3 is a shell of the user side host 1, bears components of the user side host 1 and plays a role in integration and protection;

the equipment switch 4 is positioned on the shell 3 and used for controlling the power-on and power-off of the user side host 1;

the power supply 5 stably supplies power meeting preset requirements to the user side host 1;

the brightness control knob 6 realizes high-sensitivity adjustment of the light source;

the high-brightness light source film evaluation window 11 is integrated with high-brightness low-energy-consumption light sources which are arranged in an array manner, so that sufficient light intensity required by film observation is provided;

the film image scanner 12 is positioned at one side of the high-brightness light source film evaluation window 11, and controls the film image scanner 12 to perform digital image scanning on the film placed in the area of the high-brightness light source film evaluation window 11 through the film evaluation comprehensive control and display unit 14, so that the film image information is converted into digital information; after the scanning is finished, the film image scanner returns to the initial position, and the acquired film image frame is sent to the data acquisition processing communication circuit 13;

the data acquisition processing communication circuit 13 is used for realizing acquisition, processing and transmission of film scanning data; namely, the data acquisition processing communication circuit 13 integrates data acquisition, analysis processing and communication, and is in communication connection with the cloud server 2, and the communication mode is a high-speed wireless communication mode;

the evaluation comprehensive control and display unit 14 can comprehensively control the image evaluation system, and the evaluation comprehensive control and display unit 14 is in data connection with the data acquisition and processing communication circuit 13 and displays the digital image and the state information of the image evaluation system in real time.

Specifically, the user side host 1 further includes a heat sink 9 and an equipment state monitoring unit 10;

the radiator 9 is used for cooling the user side host 1;

the equipment state monitoring unit 10 is connected with the data acquisition processing communication circuit 13, and the equipment state control unit is integrated with temperature, humidity and brightness sensors, so that the real-time monitoring of temperature, humidity, brightness and working state information is realized, and monitoring data is provided for the running state of the image evaluation system in real time.

Specifically, the user side host 1 further comprises a foot switch controller 8 and a data transmission interface 7;

the foot switch controller 8 is connected with the user side host 1 through the data transmission interface 7, and realizes the switching between the high brightness and the low brightness of the user side host 1 through the foot-operated mode;

the data transmission interface 7 integrates various hardware interfaces for data input and output.

Specifically, the data transmission interface 7 comprises USB, PS/2, RJ45 and SD card readers, and meets the requirement of fast importing and exporting of data.

Specifically, the heat sink 9 is located on the back of the user-side host 1, and is made of a high thermal conductivity metal material and a novel non-metal material (such as graphene), and a silent fan is provided to cool the temperature of the image evaluation system host.

Specifically, the high-brightness light source evaluation window 11 provides an illumination light source such as a light emitting diode or an organic light emitting semiconductor by using a light emitting device with low energy consumption and high brightness, and has adjustable brightness, so that the illumination uniformity in a field of view can be ensured, the size of an area can be adjusted in multiple modes, and the evaluation integrated control and the display unit 14 are used for controlling the lighting or closing of the light source in a preset area, so that the observation requirements of films with different sizes are met.

Specifically, data connection exists among the film image scanner 12, the data acquisition processing communication circuit 13, the scoring comprehensive control and display unit.

Specifically, the evaluation comprehensive control and display unit 14 includes a control module, an image processing and analyzing module, and an image and data display module;

the control module is used for controlling the brightness of the high-brightness light source evaluation window 11, the start or the end of the scanning of the film digital image, the display and the switching of the digital image, and the locking, the restarting and the closing of the image evaluation system;

the image processing and analyzing module is used for marking, rotating and reducing the data image;

the image and data display module is used for displaying images and data.

Specifically, the module M3 includes: the cloud server 2 can process the received digital image, intelligently identify defects through Fourier transformation, filtering, noise reduction, image synthesis, image enhancement and deep learning, and transmit the digital image and the judgment result back to the data acquisition processing communication circuit 13.

According to the intelligent film image evaluation method adopting the cloud detection technology, the intelligent film image evaluation system adopting the cloud detection technology executes the following steps:

step M1: the high-brightness light source film evaluation window 11 is electrified and lightened, and a film is placed on the high-brightness light source film evaluation window 11;

step M2: the user side host 1 generates normal light intensity through the foot switch controller 8, and adjusts the light source brightness of the high-brightness light source evaluation window 11 in real time through adjusting the brightness control button;

step M3: controlling the film image scanner 12 to scan the film through the grading comprehensive control and display unit, and after the scanning is finished, returning the film image scanner 12 to the initial position;

step M4: the scanning data is transmitted to the cloud server 2 through the data acquisition processing communication circuit 13;

step M5: the scanning data is calculated and processed by the cloud server 2 to obtain a digital image and a film evaluation result, the data image and the film evaluation result are transmitted to the data acquisition and processing communication circuit 13, and the digital image and the evaluation result are displayed in real time through the evaluation comprehensive control and display unit.

Example 2

Example 2 is a modification of example 1

The present invention will be described in further detail with reference to the accompanying drawings. It should be understood that the following examples are intended to assist those skilled in the art in further understanding the present invention, and are not intended to limit the invention in any way. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

As shown in fig. 1, the intelligent film image evaluation system using cloud detection technology according to the present invention mainly includes: the system comprises a user side host 1 and a cloud server 2, wherein the user side 1 host mainly comprises a shell 3, an equipment switch 4, a power supply 5, a brightness control knob 6, a data transmission interface 7, a foot switch controller 8, a radiator 9, an equipment state monitoring unit 10, a high-brightness light source film evaluation window 11, a film image scanner 12, a data acquisition processing communication circuit 13 and an evaluation comprehensive control and display unit 14.

The shell 3 is a main body shell of the film image evaluation system, bears most of components of the system, and plays a role in system integration and protection.

The equipment switch 4 is used for being located at the upper end of the shell 3 and controlling the power-on and power-off of the image evaluation system main body.

The power supply 5 stably supplies power meeting the requirements to the image evaluation system.

The brightness control knob 6 can realize high-sensitivity adjustment of the light source.

The data transmission interface 7 integrates various hardware interfaces, and is convenient for rapid input and output of data.

The foot switch controller 8 is connected with the image evaluation main body through an interface, and the high brightness and the low brightness of the image evaluation system are rapidly switched through a treading mode.

The heat radiator 9 is used for cooling the image evaluation system main body.

The equipment state monitoring unit 10 is arranged in the image evaluation system shell 3, and can realize real-time monitoring of information such as temperature, humidity, brightness, working state and the like.

The high-brightness light source film evaluation window 11 is integrated with high-brightness low-energy-consumption light sources which are arranged in an array manner, so that sufficient light intensity required by film observation is provided;

the film image scanner 12 is located at one side of the high-brightness light source film evaluation window 11, and can scan digital images of the film and convert the film image information into digital information.

The data acquisition processing communication circuit 13 is used for realizing the functions of acquisition, processing, transmission and the like of film scanning data.

The evaluation integrated control and display unit 14 can perform integrated control on the image evaluation system and can display digital images and system status information in real time.

The cloud server 2 is a remote data processing center of the image evaluation system and provides strong computing power for scanning data.

The data transmission interface 7 comprises various types such as USB, PS/2, RJ45, SD card readers and the like, and can meet the requirement of rapid import and export of data.

The heat radiator 9 is located on the back of the image evaluation system main body, is made of a high-thermal-conductivity metal material and a novel non-metal material (such as graphene), and is provided with a silent fan, so that temperature cooling of the image evaluation system main body is achieved.

The device state monitoring unit 10 integrates various sensors of temperature, humidity, brightness and the like, is connected with the data acquisition and processing communication circuit 13, and provides monitoring data for the running state of the image evaluation system in real time.

The high-brightness light source film evaluating window 11 adopts a low-energy-consumption high-brightness light emitting device to provide an illumination light source, such as a light emitting diode or an organic light emitting semiconductor, and the brightness is adjustable, so that the illumination uniformity in a field of view can be ensured, the size of an area can be adjusted in multiple modes, the light source of a certain area can be turned on or off through the film evaluating comprehensive control and the display unit 14, and the observation requirements of films with different sizes are met.

The film image scanner 12, the data acquisition processing communication circuit 13 and the film evaluation comprehensive control and display unit 14 are in data connection.

The data acquisition processing communication circuit 13 integrates data acquisition, analysis processing and communication, and is in communication connection with the cloud server 2, and the communication mode is a high-speed wireless communication mode.

The evaluation integrated control and display unit 14 comprises a control module, an image processing and analyzing module, and an image and data display module.

The cloud server 2 can process the received digital information at a high speed, synthesize a digital image through a mathematical algorithm, perform intelligent defect identification, and transmit the digital image and the judgment result back to the data acquisition processing communication circuit 13.

The following describes an embodiment of the present invention with reference to the drawings.

As shown in figure 1, the intelligent film evaluation system opens the equipment switch 4 to start up, the high-brightness light source film evaluation window 11 is electrified and lightened, the brightness is low at the moment, the strong light is prevented from causing damage to human eyes, film evaluators can place films on the high-brightness light source film evaluation window 11, then a foot switch controller 8 is treaded down, the user host 1 generates normal light intensity, the brightness of the light source can be adjusted in real time and high sensitively by adjusting the brightness control knob 6 so as to meet the observation requirements of different black films, when the film image needs to be scanned and intelligently assisted evaluated, the films are placed on the high-brightness light source film evaluation window 11, the film image scanner 12 is controlled to move from left to right to scan the films through the operation interface of the film evaluation comprehensive control and display unit 14, and the film image scanner 12 returns to the initial position after the film image scanner is finished, then, the scanning data are transmitted to the cloud server 2 through the data acquisition processing communication circuit 13 through a high-speed wireless network, the digital image and the film evaluation result obtained through calculation processing of the cloud server 2 are transmitted back to the data acquisition processing communication circuit 13, and then the film evaluation comprehensive control and display unit 14 displays the digital image and the film evaluation result in real time, so that decision support is provided for film evaluation of film evaluation personnel.

The foregoing description of specific embodiments of the present invention has been presented. It should be understood that the present invention is not limited to the embodiments, and any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention fall within the protection scope of the technical solution of the present invention.

Those skilled in the art will appreciate that, in addition to implementing the systems, apparatus, and various modules thereof provided by the present invention in purely computer readable program code, the same procedures can be implemented entirely by logically programming method steps such that the systems, apparatus, and various modules thereof are provided in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Therefore, the system, the device and the modules thereof provided by the present invention can be considered as a hardware component, and the modules included in the system, the device and the modules thereof for implementing various programs can also be considered as structures in the hardware component; modules for performing various functions may also be considered to be both software programs for performing the methods and structures within hardware components.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (10)

1. An intelligent film image evaluation system using cloud detection technology, comprising:

module M1: the film is processed by a client host to obtain a digital image;

module M2: the Internet of things communication between the user side host and the cloud server is realized through the high-speed wireless communication module;

module M3: the cloud server obtains a digital image of the user side host through Internet of things communication, and performs image processing on the digital image, so that defect characteristics of the digital image are identified, and the digital image and the judgment result are transmitted back to the user side host;

the user host can realize film image evaluation, film image digital scanning imaging and digital image display and intelligent evaluation.

2. The intelligent film image evaluation system using cloud detection technology as claimed in claim 1, wherein said client host comprises: the device comprises a shell, an equipment switch, a power supply, a brightness control knob, a high-brightness light source film evaluation window, a film image scanner, a data acquisition and processing communication circuit and a film evaluation comprehensive control and display unit;

the shell is a shell of the user side host, bears components of the user side host and plays a role in integration and protection;

the equipment switch is positioned on the shell and used for controlling the power-on and power-off of the user side host;

the power supply provides a power supply meeting preset requirements for the user side host;

the brightness control knob realizes the sensitivity adjustment of the light source;

the high-brightness light source film evaluation window is integrated with high-brightness low-energy-consumption light sources which are arranged in an array mode to provide light intensity required by film observation;

the film image scanner is positioned at one side of the high-brightness light source film evaluation window, and is controlled to carry out digital image scanning on a film placed in the high-brightness light source film evaluation window area through the film evaluation comprehensive control and display unit so as to convert film image information into digital information; after the scanning is finished, the film image scanner returns to the initial position, and the acquired film image frame is sent to the data acquisition processing communication circuit;

the data acquisition processing communication circuit is used for realizing acquisition, processing and transmission of film scanning data;

the evaluation comprehensive control and display unit can comprehensively control the image evaluation system and display the digital image and the state information of the image evaluation system in real time.

3. The intelligent film image evaluation system using cloud detection technology as claimed in claim 1, wherein said client host further comprises a heat sink, an equipment status monitoring unit;

the radiator is used for cooling the user side host;

the equipment state monitoring unit is connected with the data acquisition processing communication circuit, and the equipment state control unit is integrated with temperature, humidity and brightness sensors, so that the real-time monitoring of temperature, humidity, brightness and working state information is realized, and monitoring data are provided for the running state of the image evaluation system in real time.

4. The intelligent film image evaluation system using cloud detection technology as claimed in claim 1, wherein said client host further comprises a foot switch controller and a data transmission interface;

the foot switch controller is connected with the user side host through a data transmission interface, and switching between high brightness and low brightness of the user side host is realized through a foot mode;

the data transmission interface integrates various hardware interfaces and is used for inputting and outputting data.

5. The intelligent film image evaluation system using cloud detection technology as claimed in claim 2, wherein the data transmission interface comprises USB, PS/2, RJ45 and SD card readers, which satisfy data import and export.

6. The system according to claim 3, wherein the heat sink is located on the back of the client host, is made of a high thermal conductivity metal material and a novel non-metal material, and is configured with a silent fan to cool the temperature of the image evaluation system host.

7. The intelligent film image evaluation system adopting the cloud detection technology as claimed in claim 3, wherein the high-brightness light source evaluation window can ensure uniform illumination in the field of view, and the area size is controlled by the evaluation integrated control and display unit to turn on or off the light source of the preset area, so as to adapt to the observation requirements of films with different sizes.

8. The intelligent film image evaluation system using cloud detection technology as claimed in claim 3, wherein said film evaluation integrated control and display unit comprises a control module, an image processing and analyzing module and an image and data display module;

the control module is used for controlling the brightness of the high-brightness light source film evaluation window, the start or the end of the scanning of the film digital image, the display and the switching of the digital image, and the locking, the restarting and the closing of the image evaluation system;

the image processing and analyzing module is used for marking, rotating and reducing the data image;

the image and data display module is used for displaying images and data.

9. The intelligent film image evaluation system using cloud detection technology as claimed in claim 3, wherein said module M3 comprises: the cloud server can process the received digital image, intelligently identifies defects through Fourier transformation, filtering, noise reduction, image synthesis, image enhancement and deep learning, and transmits the digital image and the judgment result back to the data acquisition processing communication circuit.

10. An intelligent film image evaluation method using cloud detection technology, characterized in that, the intelligent film image evaluation system using cloud detection technology according to any one of claims 1-9 is used to execute the following steps:

step M1: the high-brightness light source film evaluation window is electrified and lightened, and the film is placed on the high-brightness light source film evaluation window;

step M2: the user side host generates normal light intensity through the foot switch controller, and adjusts the light source brightness of the high-brightness light source evaluation window in real time through adjusting the brightness control button;

step M3: controlling the film image scanner to scan the film through the grading comprehensive control and display unit, and returning the film image scanner to the initial position after the scanning is finished;

step M4: transmitting the scanning data to a cloud server through a data acquisition processing communication circuit;

step M5: the scanning data are calculated and processed by the cloud server to obtain digital images and film evaluation results, the data images and the film evaluation results are transmitted to the data acquisition processing communication circuit, and the digital images and the evaluation results are displayed in real time through the grading comprehensive control and display unit.

Images