CN115802567A - Light area dividing system and method - Google Patents

Abstract

The invention belongs to the technical field of light control, and particularly relates to a light area division system and method. The system comprises a control terminal, M light arrays and a node controller corresponding to each of the M light arrays, wherein the control terminal comprises a storage unit, an input unit and a processing unit, the storage unit is used for storing a distribution diagram of the M light arrays input by a user through the control terminal, the input unit is used for enabling N light arrays which are continuously arranged in the distribution diagram and designated by the user through the control terminal to be a light group, and setting light attributes for each light group according to the partition result of the light group on the distribution diagram, the processing unit is further used for generating a control command according to the partition result of the light group and the light attributes, and sending the control command to the node controller, and the node controller is used for receiving and executing the control command. Therefore, the area division can be flexibly carried out according to the field requirement, and the complicated renovation steps and high cost of the traditional paint zoning are reduced.

Description

Light area dividing system and method

Technical Field

The invention belongs to the technical field of light control, and particularly relates to a light area division system and a light area division method.

Background

In the cigarette production and manufacturing process, a cigarette production line is usually built in a factory building with a certain size, a plurality of areas with different functions and operations are usually divided in the factory building, and because large-scale equipment which is often in a moving state is installed in some areas, if workers are not familiar to the factory, the accidents that the equipment injures people are very easy to cause are easily caused.

The existing factory building zoning method is to paint a layer of paint with different colors on the bottom surface, and to divide the zones according to the colors of the paint, but the zoning method needs to scrape the old paint and paint the new paint again when the zones are adjusted, so that the problems of high cost and inflexible zone division exist.

Disclosure of Invention

The purpose of the invention is: the system and the method for dividing the light area are provided, and aim to conveniently divide the area of a factory building, reduce the high cost required by the traditional paint zoning and enable the area division of the factory building to be more flexible.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

in a first aspect, an embodiment of the present application provides a lighting area division system, including a control terminal, M lighting arrays, and a node controller corresponding to each of the M lighting arrays, where each lighting array includes one or more lighting devices, and M is an integer greater than or equal to 1;

the control terminal comprises a storage unit, an input unit and a processing unit, wherein the storage unit is used for storing the distribution maps of the M light arrays, which are input by a user through the control terminal;

the input unit is used for enabling N lamp arrays which are continuously arranged in the distribution diagram and designated by a user through the control terminal to be one lamp group, and setting a lamp attribute for each lamp group according to a partitioning result of the lamp group on the distribution diagram, wherein N is an integer which is greater than or equal to 1 and less than or equal to M;

the processing unit is also used for generating a unique index for each lamplight group and storing the unique index to the storage unit after the partition result is generated;

the processing unit is also used for generating a control command according to the partitioning result and the light attribute of the light group and sending the control command to the node controller;

the node controller is used for receiving and executing the control command.

With reference to the first aspect, in some optional embodiments, the control command includes a switch state of the lighting device and a light attribute including a color, a brightness, and a duration.

With reference to the first aspect, in some optional embodiments, the processing unit is further configured to send a request message to the node controller, where the request message is used to detect an operating state of the lighting device.

With reference to the first aspect, in some optional embodiments, a control script is further stored in the storage unit, where the control script is used to store a preset command;

the processing unit is also used for starting an offline mode according to an instruction sent by a user through the control terminal;

when the processing unit does not send a control command to the node controller within a first preset time after the off-line mode is started, the control script is used for enabling the processing unit to send a preset command to the node controller, and the preset command carries control parameters for controlling the lighting equipment.

With reference to the first aspect, in some optional embodiments, the infrared photographing apparatus further includes an alarm system, where the alarm system includes an alarm and an infrared camera, and the processing unit is further configured to obtain an infrared picture taken by the infrared camera;

the processing unit is further used for controlling the alarm to give an alarm when the fact that the pedestrian exists in the specified area of the infrared picture is determined.

With reference to the first aspect, in some optional embodiments, the alarm system further includes a microphone and a second sound device, and the processing unit is further configured to control the microphone and the second sound device to be turned on when it is determined that there is a pedestrian in the designated area of the infrared picture, so that an administrator inputs a voice through the microphone and outputs the voice through the second sound device.

With reference to the first aspect, in some optional embodiments, the system further comprises a guidance system;

the guiding system comprises an induction tag, induction devices and first sound equipment, and each light group is internally provided with one induction device;

the storage unit is further used for storing partition profile audios corresponding to the corresponding light groups, wherein the partition profile audios are associated with the unique indexes of the light groups;

and the processing unit is further used for controlling the first sound equipment to call a target partition profile audio frequency from the storage unit and play the target partition profile audio frequency when the sensing tag appears in the sensing range of the sensing device, wherein the target partition profile audio frequency is the partition profile audio frequency of the light group where the current sensing device is located.

With reference to the first aspect, in some optional embodiments, the lighting system further comprises a power supply system, and the power supply system is configured to supply power to the light array, the control terminal, and the node controller.

In a second aspect, an embodiment of the present application further provides a light area dividing method, which is applied to the light area dividing system, where the method includes:

s1, when a control terminal generates a starting command for starting a system, the control terminal generates a corresponding control command and sends the corresponding control command to all node controllers corresponding to each light group;

and S2, each node controller controls the light array corresponding to the node controller to operate according to control parameters carried in the received control command, wherein the control parameters comprise the on-off state and the light attributes of light equipment in the light array, and the light attributes comprise color, brightness and duration.

With reference to the second aspect, in some optional embodiments, before the respective control command is sent by the control terminal to all node controllers corresponding to each light group, the method further includes:

s101, an input unit of the control terminal sets control parameters for each light group according to the partitioning result of each light group on a preset distribution diagram, and stores the control parameters corresponding to each light group in a storage unit of the control terminal.

The invention adopting the technical scheme has the advantages that:

in the technical scheme provided by the application, the light array which is continuously arranged is set to be a light group through the input unit in the control terminal, the relevant light attributes are set for the light group, the partition result and the light attributes are generated into the control command through the processing unit and sent to the node controller, and finally the light equipment in the light array is controlled through the node controller to carry out corresponding light display.

Drawings

The invention is further illustrated by the non-limiting examples given in the accompanying drawings;

fig. 1 is a schematic structural diagram of a light area dividing system according to an embodiment of the present invention;

fig. 2 is a second schematic structural diagram of a light area dividing system according to an embodiment of the present invention;

fig. 3 is a schematic flow chart of a light area dividing method according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to the drawings and specific embodiments, wherein like reference numerals are used for similar or identical parts in the drawings or the description, and implementations not shown or described in the drawings are known to those of ordinary skill in the art. In the description of the present application, the terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Referring to fig. 2, fig. 2 shows a schematic structural diagram of a light area division system disclosed in an embodiment of the present invention. The light area divides the system can include control terminal, light array, lighting apparatus, node controller, electrical power generating system, alarm, infrared camera, microphone, first stereo set equipment, response label, induction system, second stereo set equipment.

Wherein, control terminal with node controller, alarm, infrared camera, microphone, first stereo set equipment, induction system, second stereo set equipment electricity are connected, the light array with the node controller electricity is connected, control terminal, light array and node controller all with the electrical power generating system electricity is connected.

In this embodiment, the control terminal includes a storage unit, an input unit, and a processing unit.

In this embodiment, a light array includes one or more light fixtures. Each lighting device can emit light with different colors according to requirements. That is, a single lighting device may include a plurality of beads that emit different colors. For example, lighting apparatus can include red lamp pearl, green lamp pearl, blue lamp pearl etc. can send the monochromatic light of three kinds of colours red, green, blue respectively, and in addition, the lamp pearl of different colours can be luminous through the combination to form the light of other colours, the combination mode is conventional mode, and no longer repeated here.

In this embodiment, the sensing device can provide the feedback signal to the control terminal when the sensing tag appears in the sensing range of the sensing device, and the control terminal controls the second sound equipment when receiving the feedback signal.

Embodiment 1, based on the foregoing structure, referring to fig. 1, the present invention provides a light area division system, which may include a control terminal, M light arrays, and a node controller corresponding to each of the M light arrays. Each light array comprises one or more light devices, and M is an integer greater than or equal to 1.

Specifically, the control terminal may include a storage unit, an input unit, and a processing unit, where the storage unit is configured to store a distribution map of the M light arrays entered by the user through the control terminal.

The input unit is used for enabling N light arrays which are arranged in the distribution diagram and designated by a user through the control terminal to be one light group, and setting light attributes for each light group according to the partitioning result of the light groups on the distribution diagram, wherein N is an integer which is larger than or equal to 1 and smaller than or equal to M.

And the processing unit is also used for generating a unique index for each light group and storing the unique index to the storage unit after the partition result is generated.

And the processing unit is also used for generating a control command according to the partitioning result and the light attribute of the light group and sending the control command to the node controller.

The node controller is used for receiving and executing the control command.

In the above embodiments, the input unit may be, but is not limited to, an electronic touch screen, a mouse, and other modules.

The method comprises the steps that a user selects a section of continuously arranged light arrays in a distribution diagram of the light arrays to be a light group through an electronic touch screen connected with a control terminal, light attributes are set for the currently selected light group, a plurality of light groups are selected in such a mode until the selected range of the light groups covers the whole distribution diagram, then the user triggers a confirmation key on the electronic touch screen, a processing unit generates a control command corresponding to the current partition result and the light attributes after receiving a confirmation signal, the control command is sent to a node controller, and the node controller controls light equipment in the light arrays to execute the corresponding control command.

As an alternative embodiment, the control command includes the on-off state of the lighting device and the light attributes including color, brightness and duration.

As an optional implementation manner, the processing unit is further configured to send a request message to the node controller, where the request message is used to detect the operating state of the lighting device.

In the foregoing embodiment, the request message is used to detect a working state of the lighting device, after the lighting device executes a command sent by the processing unit, the processing unit sends a request message to the node controller once every time a second preset duration elapses, when the processing unit receives a response message indicating that the lighting device is working normally, the processing unit determines that the lighting device is working normally and immediately enters a cycle of sending the request message next time, and when the processing unit receives a response message indicating that the lighting device is working abnormally, the processing unit determines that the lighting device is working abnormally, and the control terminal displays an abnormal pop-up window.

As an optional implementation manner, a control script is further stored in the storage unit, and the control script is used for storing a preset command;

the processing unit is also used for starting an offline mode according to an instruction sent by a user through the control terminal;

and when the processing unit does not send a control command to the node controller within a first preset time after the off-line mode is started, the control script is used for the processing unit to send a preset command to the node controller.

In the above embodiment, the preset command carries a set of control parameters for controlling the lighting device, where the control parameters include a light-on state, a light color, a brightness, and a duration of the lighting device, for example, on a day of a production operation, a large device in a plant is turned on in two hours from 3 pm, the large device needs to move in an area a of the plant during the operation, but a plant administrator leaves a work post at 1 pm until the supervisory control terminal is unattended, and the area a does not operate before the large device is turned on, that is, the area a is a normal pass area before 3 pm, the lighting device disposed in the area a displays white light, the area a is an operation dangerous area after 3 pm, the lighting device needs to be adjusted to display red light to warn pedestrians, when the administrator leaves the post at 1 pm, the offline mode is turned on and the first preset duration is set to two hours, that is, that a processing unit of the control terminal after two hours does not send a control command to the node controller without being operated by a person, the script control unit triggers the script to start the control the processing unit, and the control unit to receive the preset light control command, and receive the preset parameters of the preset lighting device according to the preset lighting device, and the control command.

The method comprises the steps that a user sends an offline instruction to a processing unit through an electronic touch screen connected with a control terminal, the processing unit starts an offline mode after receiving the offline instruction, if the processing unit does not send a control command to a node controller within a first preset time length after the offline mode is started, a control script is used for enabling the processing unit to send the preset command to the node controller, and if the processing unit sends the control command to the node controller within the first preset time length after the offline mode is started, the processing unit defaults that the operation of the user has the intention of exiting the offline mode while the control command is sent, and then the processing unit exits the offline mode.

Referring to fig. 2, as an alternative embodiment, the light area division system may further include an alarm system.

The alarm system can comprise an alarm and an infrared camera, and the processing unit is also used for acquiring an infrared picture shot by the infrared camera;

the processing unit is further used for controlling the alarm to give an alarm when the fact that the pedestrian exists in the specified area of the infrared picture is determined.

In the embodiment, the control terminal can acquire the infrared picture shot by the infrared camera in real time, and simultaneously judge whether a pedestrian exists in the designated area of the infrared picture according to the infrared picture, if so, the control terminal immediately controls the alarm to give an alarm and is communicated with the microphone and the first sound equipment; if not, the control terminal continues to circularly acquire the infrared picture and judges whether a person exists in the picture range. In the embodiment, the processing unit continuously acquires the infrared picture shot by the infrared camera, judges whether the specified area of the infrared picture has the human-shaped contour, confirms that the pedestrian appears in the specified area of the infrared picture when the human-shaped contour exists in the specified area of the infrared picture, controls the alarm to give an alarm, confirms that the pedestrian does not appear in the specified area of the infrared picture when the human-shaped contour does not exist in the specified area of the infrared picture, and then performs the next cycle of acquiring the infrared picture.

Wherein, the appointed area in the infrared picture can be set up according to actual conditions are nimble. For example, the designated area may be an area corresponding to any one of the light groups within a visual field captured by the infrared camera. Each light group is used for indicating and dividing an area on the ground of the plant, and the area corresponding to the plant of each light group can be flexibly arranged. For example, in a factory building, in an area where ordinary employees are prohibited from entering, a plurality of lighting devices are arranged at intervals along the edge of the area to form a lighting array, and the formed lighting array is a lighting group in the area. In addition, in the plant, in the area where visitors are allowed to enter, a plurality of lighting devices can be arranged at intervals along the edge of the area to form another lighting array, and the formed lighting array is the lighting group in the area. Therefore, different areas of the factory building can be indicated and divided through different lighting sets.

It should be noted that the correspondence between the light groups and the areas in the factory building can be flexibly set according to the actual situation, and is not specifically limited herein. In addition, the lighting equipment or the lighting group can be installed on the ground of the factory building, or on the overhead pipeline, the ceiling and other parts of the factory building, and the installation position of the lighting equipment is not particularly limited. As an optional implementation manner, the alarm system further includes a microphone and a second sound device, and the processing unit is further configured to control the microphone and the second sound device to be turned on when it is determined that there is a pedestrian in the designated area of the infrared picture, so that an administrator inputs a voice through the microphone and outputs the voice through the second sound device.

In the above embodiments, the microphone is typically located in the monitoring room and the second audio device is typically located in the area of the premises corresponding to the light bank. When the human-shaped outline exists in the designated area of the infrared picture, the processing unit confirms that the pedestrian exists in the designated area of the infrared picture, and then the processing unit controls the microphone and the second sound equipment to be started. After the microphone and the second sound equipment are started, the administrator can call through the microphone, and the voice content of the administrator is output through the second sound equipment, so that the pedestrian who mistakenly enters the dangerous area is warned. When no human-shaped outline exists in the designated area of the infrared picture, the processing unit confirms that no pedestrian exists in the designated area of the infrared picture, and the microphone and the second sound equipment are turned off.

Referring to fig. 2, as an alternative embodiment, the light area division system may further include a guide system.

Specifically, the guidance system includes response label, induction system and first stereo set equipment, every all be provided with an induction system in the light group.

The storage unit is further configured to store a partition profile audio corresponding to the light group, wherein the partition profile audio is associated with the unique index for the light group.

And the processing unit is further used for controlling the first sound equipment to call a target partition introduction audio frequency from the storage unit and play the target partition introduction audio frequency when the sensing tag appears in the sensing range of the sensing device, wherein the target partition introduction audio frequency is the partition introduction audio frequency of the light group where the current sensing device is located.

In the above embodiment, when the sensing tag appears in the sensing range of the sensing device, the processing unit receives the feedback signal from the sensing device, and then the processing unit searches the partition introduction audio of the current light group in the storage unit according to the light group corresponding to the sensing device sending the feedback signal and the unique index of the light group, and controls the first sound equipment to call the audio for playing.

As an optional implementation manner, the light area division system may further include a power supply system, and the power supply system is configured to supply power to the light array, the control terminal, and the node controller.

In the above embodiments, the power supply system may be, but is not limited to, a storage battery, a generator, and the like.

To sum up, the embodiment of the present invention provides a light area dividing system, which selects a segment of continuously arranged light arrays from a distribution graph of the light arrays through an input unit to be a light group, that is, an area, and sets a unique index and a plurality of light attributes, such as lighting time of lighting equipment, color of the light, and brightness of the light, for the light arrays in the area, so as to cycle until the set light group covers the distribution graph of the whole light arrays.

After the setting is finished, the input unit sends the partition result to the processing unit, the processing unit edits the partition result and the light attribute into a control command, the control command is sent to the node controller, and the light equipment is controlled by the node controller to carry out corresponding light display.

In the process of displaying the lighting equipment, if a user sends an offline instruction to the processing unit through the electronic touch screen connected with the control terminal, the processing unit starts an offline mode after receiving the offline instruction, if the processing unit does not send a control instruction to the node controller within a first preset time after the offline mode is started, the control script is used for enabling the processing unit to send a preset instruction to the node controller, if the processing unit sends the control instruction to the node controller within the first preset time after the offline mode is started, the processing unit defaults that the operation of the user has the intention of exiting the offline mode while the control instruction is sent, and then the processing unit exits the offline mode.

In the process of displaying the lighting equipment, the processing unit sends a request message for checking the working state of the lighting equipment to the node controller once every time when a second preset duration passes, if the processing unit receives a response message of normal working of the lighting equipment, the lighting equipment is determined to be in the normal working state and enters a cycle of sending the request message next time, and if the processing unit does not receive the response message of normal working of the lighting equipment, the lighting equipment is determined to be in an abnormal working state and abnormal popup windows are displayed through the control terminal.

In light equipment's normal operating condition, predetermine a plurality of light groups and be dangerous light group, and shoot the infrared picture of every dangerous light group in real time through infrared camera, processing unit constantly acquires the real-time infrared picture that comes from infrared camera, when the biological image of hommization profile appears in the appointed region of picture, it appears in dangerous light group to determine someone, processing unit control alarm sends the police dispatch newspaper this moment, it leaves dangerous light group scope at this moment to signal this personnel immediately, and communicate the first stereo set equipment in control center's microphone and the factory building simultaneously, the person who appears in the manager and the dangerous light group of being convenient for exchanges.

In the normal working state of the lighting equipment, an induction device is installed in each lighting group, if an external visitor enters the distribution range of the lighting array, the worker can wear the wearable equipment embedded with the induction tag for the external visitor in advance, when the induction tag appears in the induction range of the induction device, the induction device sends number information to the control terminal, the processing unit searches partition brief introduction audios stored in the storage unit in advance according to the number information sent by the induction device and the unique index of the lighting group where the number is located, and the partition brief introduction audios are called through the second sound equipment to be played.

Embodiment 2 provides a light area dividing method, which can be applied to the light area dividing system, and the light area dividing system is implemented by matching devices in the light area dividing system. Referring to fig. 3, the method includes the steps of:

s1, when a control terminal generates a starting command for starting a system, the control terminal generates a corresponding control command and sends the corresponding control command to all node controllers corresponding to each light group;

and S2, each node controller controls the light array corresponding to the node controller to operate according to control parameters carried in the received control command, wherein the control parameters comprise the on-off state and the light attributes of light equipment in the light array, and the light attributes comprise color, brightness and duration.

In the step S1, when an operator triggers a start key through an electronic touch screen connected with a control terminal, the control terminal generates a start command, and simultaneously generates a corresponding control command and sends the corresponding control command to all node controllers corresponding to each lamplight group;

in step S2, the node controller receives the control command from the control terminal, and executes the corresponding control command according to the control parameters carried in the control command, such as the on-off state, color, brightness, and duration of the lighting devices in the lighting array.

As an optional implementation manner, before the control terminal sends the corresponding control command to all the node controllers corresponding to each light group, the method further includes:

s101, an input unit of the control terminal sets control parameters for each light group according to the partitioning result of each light group on a preset distribution diagram, and stores the control parameters corresponding to each light group in a storage unit of the control terminal.

In step S101, a user sets a segment of the consecutively arranged light arrays as a light group through the input unit, repeats the operation until all the light groups cover the distribution map of the entire light array, sets a control parameter for each light group, and then stores the control parameter corresponding to each light group in the storage unit of the control terminal.

It should be noted that, for the sake of brevity of the description, the implementation process of each step of the light region dividing method may refer to the function of the corresponding device or module in the light region dividing system, and the operation process of the light region dividing method is not described herein again.

The above provides a detailed description of a light area division system and method provided by the invention. The description of the specific embodiments is only intended to facilitate an understanding of the method of the invention and its core ideas. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, it is possible to make various improvements and modifications to the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. A light zone divides system which characterized in that: the system comprises a control terminal, M light arrays and a node controller corresponding to each of the M light arrays, wherein each light array comprises one or more light devices, and M is an integer greater than or equal to 1;

the control terminal comprises a storage unit, an input unit and a processing unit, wherein the storage unit is used for storing the distribution maps of the M light arrays input by the user through the control terminal;

the input unit is used for enabling N light arrays which are continuously arranged in the distribution diagram and are designated by a user through the control terminal to be one light group, and setting light attributes for each light group according to the partitioning result of the light groups on the distribution diagram, wherein N is an integer which is greater than or equal to 1 and less than or equal to M;

the processing unit is also used for generating a unique index for each lamplight group and storing the unique index to the storage unit after the partition result is generated;

the processing unit is also used for generating a control command according to the partitioning result and the light attribute of the light group and sending the control command to the node controller;

the node controller is used for receiving and executing the control command.

2. A light zone dividing system according to claim 1, wherein: the control command comprises the on-off state of the lighting equipment and the light attributes, wherein the light attributes comprise color, brightness and duration.

3. A light zone dividing system according to claim 1, wherein: the processing unit is further configured to send a request packet to the node controller, where the request packet is used to detect a working state of the lighting device.

4. A light zone dividing system according to claim 1, wherein: the storage unit is also internally stored with a control script, and the control script is used for storing a preset command;

the processing unit is also used for starting an offline mode according to an instruction sent by a user through the control terminal;

when the processing unit does not send a control command to the node controller within a first preset duration after the offline mode is started, the control script is used for enabling the processing unit to send a preset command to the node controller; the preset command carries control parameters for controlling the lighting equipment.

5. A light zone dividing system according to claim 1, wherein: the processing unit is also used for acquiring an infrared picture shot by the infrared camera;

the processing unit is further used for controlling the alarm to give an alarm when the fact that the pedestrian exists in the specified area of the infrared picture is determined.

6. A light zone dividing system according to claim 5, wherein: the alarm system further comprises a microphone and second sound equipment, the processing unit is further used for determining that the pedestrians are in the designated area of the infrared picture, controlling the microphone and the second sound equipment to be started, enabling an administrator to input voice through the microphone, and outputting the voice through the second sound equipment.

7. A light zone dividing system according to claim 1, wherein: also includes a guidance system;

the guiding system comprises an induction tag, induction devices and first sound equipment, and each light group is internally provided with one induction device;

the storage unit is further used for storing partition profile audios corresponding to the corresponding light groups, wherein the partition profile audios are associated with the unique indexes of the light groups;

the processing unit is further configured to control the first sound equipment to call a target partition profile audio from the storage unit and play the target partition profile audio when the sensing tag appears in the sensing range of the sensing device, where the target partition profile audio is a partition profile audio of a light group in which the sensing device is currently located.

8. A light zone dividing system according to claim 1, wherein: the lighting system further comprises a power supply system, and the power supply system is used for supplying power to the lighting array, the control terminal and the node controller.

9. A light area division method is characterized in that: the light area dividing system applied to any one of claims 1 to 7, the method comprising:

s1, when a control terminal generates a starting command for starting a system, the control terminal generates a corresponding control command and sends the corresponding control command to all node controllers corresponding to each light group;

s2, each node controller controls the light array corresponding to the node controller to operate according to control parameters carried in the received control command, wherein the control parameters comprise the on-off state and the light attributes of light equipment in the light array, and the light attributes comprise color, brightness and duration.

10. The method of claim 9, wherein: before the control terminal sends the corresponding control command to all the node controllers corresponding to each light group, the method further includes:

s101, an input unit of the control terminal sets control parameters for each light group according to the partitioning result of each light group on a preset distribution diagram, and stores the control parameters corresponding to each light group in a storage unit of the control terminal.

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