CN107403138A - Demonstrate processing method, the processing system of production estimation growth process - Google Patents

Abstract

The invention provides a kind of processing method, processing system for demonstrating plant growing process.Wherein, a kind of processing method for demonstrating plant growing process, including：Timing acquiring and the image for storing crops, image include the photo of crops or the video interception of crops；The quantity of statistical picture, and by the quantity of image compared with first threshold；When the quantity of image reaches first threshold, each image is synthesized into animation according to time order and function order；The animation of synthesis is sent to terminal and demonstrated.Pass through technical scheme, it not only can quickly show the process of plant growth, and it is also the record of the plantation course to greenhouse, allow users to experience plant from germination to the growth course of maturation, so as to add the enjoyment of user's planting vegetable, increase the attached value of greenhouse, and improve the usage experience of user.

Description

Processing method and processing system for demonstrating crop production length process

Technical Field

The invention relates to the technical field of agricultural planting, in particular to a processing method for demonstrating a crop production long process and a processing system for demonstrating the crop production long process.

Background

At present, the greenhouse is basically provided with a camera, the production condition of the greenhouse is monitored by checking vegetable photos, and the greenhouse can be used as a vegetable tracing mode.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the invention proposes a treatment method for demonstrating the long course of crop production.

A second aspect of the invention is to propose a processing system for demonstrating the long process of crop production.

In view of the above, the first aspect of the present invention provides a processing method for demonstrating the growth process of crops, comprising: collecting and storing images of crops at regular time, wherein the images comprise photos of the crops or video screenshots of the crops; counting the number of images and comparing the number of images with a first threshold; when the number of the images reaches a first threshold value, synthesizing the images into animation according to the time sequence; and sending the synthesized animation to a terminal for demonstration.

According to the processing method for demonstrating the crop growth process, photos of crops in the greenhouse or video screenshots are collected at regular time, the collected photos or video screenshots are stored, then the stored photos or video screenshots are arranged according to the time sequence to be made into animations, and the animations are sent to the terminal for demonstration. Through the animation, the process of plant growth can be rapidly shown, the planting process of the greenhouse is recorded, and a user can experience the growth process from germination to maturity of the plant, so that the pleasure of planting vegetables by the user is increased, the attached value of the greenhouse is increased, and the use experience of the user is improved.

In particular implementations, the composite animation may be configured according to a number of stored images of the crop, where the images of the crop include a photograph of the crop or a video shot of the crop. For example, when the number of stored photos reaches 240, an animation may be composed, and if the animation plays 24 photos per second, 10 seconds may be played. If the number of stored photos continues to increase after the animation is first synthesized, it may be set that the animation is synthesized again when the number of stored photos reaches a set value, and the animation synthesized again may be merged with the animation synthesized previously, so that animation harvested from the beginning of planting to maturity may be obtained.

In addition, the control method for reminding the food storage time according to the invention can also have the following additional technical characteristics:

in the above technical solution, preferably, the step of collecting and storing the images of the crops at regular time specifically includes: collecting photos of crops according to a preset frequency, and storing the photos of the crops; or collecting the videos of the crops according to a preset time interval, carrying out image recognition on the videos, and intercepting and storing the images corresponding to any image frame when the image corresponding to any image frame in the videos is different from the image corresponding to the previous frame of any image frame.

In the technical scheme, the method for collecting and storing the images of the crops at regular time comprises two schemes. Firstly, acquiring photos of crops according to a preset frequency, and storing the photos of the crops; secondly, collecting videos of crops according to a preset time interval, carrying out image recognition analysis on the collected videos, and when the content of a certain image frame and the content of the previous image frame have color or content and the like which are obviously changed, for example, when a plant blooms or fruits, new color or shape content appears in the image frame, determining that a photo corresponding to the certain image frame is an expression that the crops enter a new growth state, and intercepting the photos that the crops enter the new growth state and storing the photos in sequence. Finally, the stored photos or video screenshots are arranged and synthesized into animation according to the time sequence, the process of plant growth can be rapidly shown through the animation, the planting process of the greenhouse is recorded, and a user can experience the growth process from germination to maturity of the plants, so that the pleasure of planting vegetables by the user is increased, the auxiliary value of the greenhouse is increased, and the use experience of the user is improved.

In any of the above technical solutions, preferably, before the step of periodically acquiring and storing the image of the crop, the method further includes: and setting a preset frequency and a preset time interval according to the growth cycle of the crops.

In the technical scheme, when the greenhouse starts to plant, the photos of crops are collected according to a preset frequency, for example, the preset frequency can be set to be 1 hour for shooting the photos once, and it can be understood that for vegetables with different growth cycles, different timing shooting time can be set, for example, for melons and vegetables with a longer growth cycle, the timing shooting time can be set to be 12 hours or 24 hours, and for leaf vegetables with a shorter growth cycle, the timing shooting time can be set to be 1 hour or 2 hours; or the video of the crop is collected at a preset time interval, for example, the preset time interval is set to 10 minutes, and it can be understood that different time intervals can be set for vegetables with different growth cycles.

In any of the above technical solutions, preferably, after the step of sending the synthesized animation to the client for presentation, the method further includes: continuously counting the number of the images, and comparing the number of the images with a first threshold value; when the number of the images reaches a first threshold value, synthesizing the images into animations again according to the time sequence, and combining the current synthesized animation with the previously synthesized animation; and sending the combined animation to a terminal for demonstration.

In the technical scheme, if the number of the stored photos continues to increase after the animation is synthesized for the first time, the animation synthesis can be performed again when the number of the stored photos reaches a set value, and the animation synthesized again can be combined with the animation synthesized before, so that the animation harvested from the beginning of planting to maturity can be obtained.

In any of the above technical solutions, preferably, the first threshold value ranges from 200 sheets to 300 sheets.

In this embodiment, the composite animation may be set according to the number of stored images of the crop by limiting the range of the first threshold, and the range of the first threshold is 200 to 300, but is not limited thereto. Alternatively, the first threshold is 240, and when the number of stored images reaches 240, an animation may be synthesized, and if the animation plays 24 photos per second, 10 seconds may be played. If the number of stored images continues to increase after the animation is first synthesized, the animation is synthesized again when the number of stored images reaches the first threshold value, and the animation synthesized again may be merged with the animation synthesized previously, so that the animation harvested from the start of planting until maturity may be obtained.

In a second aspect of the invention, a processing system for demonstrating the growth process of crop production is provided, comprising: the collecting unit is used for collecting and storing images of crops at regular time, and the images comprise photos of the crops or video screenshots of the crops; a counting unit for counting the number of images and comparing the number of images with a first threshold value; the processing unit is used for synthesizing the animation of each image according to the time sequence when the number of the images reaches a first threshold value; and the sending unit is used for sending the synthesized animation to the terminal for demonstration.

According to the processing system for demonstrating the crop growth process, photos of crops in the greenhouse are collected at regular time or video screenshots are extracted, the collected photos or video screenshots are stored, then the stored photos or video screenshots are arranged according to a time sequence to be made into animations, and the animations are sent to the terminal for demonstration. Through the animation, the process of plant growth can be rapidly shown, the planting process of the greenhouse is recorded, and a user can experience the growth process from germination to maturity of the plant, so that the pleasure of planting vegetables by the user is increased, the attached value of the greenhouse is increased, and the use experience of the user is improved.

In particular implementations, the composite animation may be configured according to a number of stored images of the crop, where the images of the crop include a photograph of the crop or a video shot of the crop. For example, when the number of stored photos reaches 240, an animation may be composed, and if the animation plays 24 photos per second, 10 seconds may be played. If the number of stored photos continues to increase after the animation is first synthesized, it may be set that the animation is synthesized again when the number of stored photos reaches a set value, and the animation synthesized again may be merged with the animation synthesized previously, so that animation harvested from the beginning of planting to maturity may be obtained.

In the above technical solution, preferably, the acquisition unit is specifically configured to: collecting photos of crops according to a preset frequency, and storing the photos of the crops; or collecting the videos of the crops according to a preset time interval, carrying out image recognition on the videos, and intercepting and storing the images corresponding to any image frame when the image corresponding to any image frame in the videos is different from the image corresponding to the previous frame of any image frame.

In the technical scheme, the method for collecting and storing the images of the crops at regular time comprises two schemes. Firstly, acquiring photos of crops according to a preset frequency, and storing the photos of the crops; secondly, collecting videos of crops according to a preset time interval, carrying out image recognition analysis on the collected videos, and when the content of a certain image frame and the content of the previous image frame have color or content and the like which are obviously changed, for example, when a plant blooms or fruits, new color or shape content appears in the image frame, determining that a photo corresponding to the certain image frame is an expression that the crops enter a new growth state, and intercepting the photos that the crops enter the new growth state and storing the photos in sequence. And finally, the stored photos or video screenshots are arranged and synthesized into animation according to a time sequence, the process of plant growth can be rapidly and comprehensively shown through the animation, the record of the planting process of the greenhouse is also provided, the use experience of a user is improved, and the attached value of the greenhouse is improved.

In any of the above technical solutions, preferably, the method further includes: and the setting unit is used for setting a preset frequency and a preset time interval according to the growth cycle of the crops before the step of collecting and storing the images of the crops at regular time.

In the technical scheme, when the greenhouse starts to plant, the photos of crops are collected according to a preset frequency, for example, the preset frequency can be set to be 1 hour for shooting the photos once, and it can be understood that for vegetables with different growth cycles, different timing shooting time can be set, for example, for melons and vegetables with a longer growth cycle, the timing shooting time can be set to be 12 hours or 24 hours, and for leaf vegetables with a shorter growth cycle, the timing shooting time can be set to be 1 hour or 2 hours; or the video of the crop is collected at a preset time interval, for example, the preset time interval is set to 10 minutes, and it can be understood that different time intervals can be set for vegetables with different growth cycles.

In any of the above technical solutions, preferably, the counting unit is further configured to continue counting the number of images after the step of sending the synthesized animation to the client for demonstration, and comparing the number of images with the first threshold; the processing unit is further used for synthesizing the animation of each image according to the time sequence again when the number of the images reaches the first threshold value, and combining the currently synthesized animation with the previously synthesized animation; and the sending unit is also used for sending the combined animation to the terminal for demonstration.

In the technical scheme, if the number of the stored photos continues to increase after the animation is synthesized for the first time, the animation synthesis can be performed again when the number of the stored photos reaches a set value, and the animation synthesized again can be combined with the animation synthesized before, so that the animation harvested from the beginning of planting to maturity can be obtained.

In any of the above technical solutions, preferably, the first threshold value ranges from 200 sheets to 300 sheets.

In this embodiment, the composite animation may be set according to the number of stored images of the crop by limiting the range of the first threshold, and the range of the first threshold is 200 to 300, but is not limited thereto. Alternatively, the first threshold is 240, and when the number of stored images reaches 240, an animation may be synthesized, and if the animation plays 24 photos per second, 10 seconds may be played. If the number of stored images continues to increase after the animation is first synthesized, the animation is synthesized again when the number of stored images reaches the first threshold value, and the animation synthesized again may be merged with the animation synthesized previously, so that the animation harvested from the start of planting until maturity may be obtained.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 shows a schematic flow diagram of a process for demonstrating a crop production long process according to one embodiment of the present invention;

FIG. 2 shows a schematic flow diagram of a process for demonstrating a crop production long process according to another embodiment of the present invention;

FIG. 3 shows a schematic flow diagram of a process for demonstrating a crop production long process according to yet another embodiment of the present invention;

FIG. 4 shows a schematic block diagram of a processing system demonstrating a crop production long process, according to one embodiment of the present invention;

FIG. 5 shows a schematic block diagram of a processing system demonstrating a crop production long process according to another embodiment of the present invention;

FIG. 6 shows a schematic block diagram of a terminal according to one embodiment of the present invention;

FIG. 7 shows a schematic diagram of a computer device according to an embodiment of the invention.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

As shown in fig. 1, a flow diagram of a treatment method demonstrating a crop production long process according to one embodiment of the present invention. The processing method 100 includes:

step 102, collecting and storing images of crops at regular time, wherein the images comprise photos of the crops or video screenshots of the crops;

step 104, counting the number of images, and comparing the number of images with a first threshold value;

step 106, when the number of the images reaches a first threshold value, synthesizing the images into animation according to the time sequence;

and step 108, sending the synthesized animation to the terminal for demonstration.

The processing method 100 for demonstrating the crop growth process collects photos of crops in a greenhouse regularly or extracts video screenshots, stores the collected photos or video screenshots, then arranges the stored photos or video screenshots according to a time sequence to manufacture animations, and sends the animations to a terminal for demonstration. Through the animation, the process of plant growth can be rapidly shown, the planting process of the greenhouse is recorded, and a user can experience the growth process from germination to maturity of the plant, so that the pleasure of planting vegetables by the user is increased, the attached value of the greenhouse is increased, and the use experience of the user is improved.

In particular implementations, the composite animation may be configured according to a number of stored images of the crop, where the images of the crop include a photograph of the crop or a video shot of the crop. For example, when the number of stored photos reaches 240, an animation may be composed, and if the animation plays 24 photos per second, 10 seconds may be played. If the number of stored photos continues to increase after the animation is first synthesized, it may be set that the animation is synthesized again when the number of stored photos reaches a set value, and the animation synthesized again may be merged with the animation synthesized previously, so that animation harvested from the beginning of planting to maturity may be obtained.

As shown in fig. 2, a flow diagram of a treatment method demonstrating a crop production long process according to another embodiment of the present invention. The processing method 200 includes:

step 202, collecting and storing images of crops at regular time, wherein the images comprise photos of the crops or video screenshots of the crops; wherein,

the method comprises the steps of collecting and storing images of crops at regular time, and specifically comprises the following steps: collecting photos of crops according to a preset frequency, and storing the photos of the crops; or collecting the videos of the crops according to a preset time interval, carrying out image recognition on the videos, and intercepting and storing the images corresponding to any image frame when the image corresponding to any image frame in the videos is different from the image corresponding to the previous frame of any image frame;

step 204, counting the number of the images, and comparing the number of the images with a first threshold value;

step 206, when the number of the images reaches a first threshold value, synthesizing the images into animation according to the time sequence;

and step 208, sending the synthesized animation to the terminal for demonstration.

In this embodiment, the timing of the collection and storage of the images of the crop includes two schemes. Firstly, acquiring photos of crops according to a preset frequency, and storing the photos of the crops; secondly, collecting videos of crops according to a preset time interval, carrying out image recognition analysis on the collected videos, and when the content of a certain image frame and the content of the previous image frame have color or content and the like which are obviously changed, for example, when a plant blooms or fruits, new color or shape content appears in the image frame, determining that a photo corresponding to the certain image frame is an expression that the crops enter a new growth state, and intercepting the photos that the crops enter the new growth state and storing the photos in sequence. And finally, the stored photos or video screenshots are arranged and synthesized into animation according to a time sequence, the process of plant growth can be rapidly and comprehensively shown through the animation, the record of the planting process of the greenhouse is also provided, the use experience of a user is improved, and the attached value of the greenhouse is improved.

As shown in fig. 3, a flow diagram of a treatment method demonstrating a crop production long process according to still another embodiment of the present invention. Wherein the processing method 300 comprises:

step 302, setting a preset frequency and a preset time interval according to the growth cycle of crops;

step 304, collecting photos of crops according to a preset frequency, and storing the photos of the crops; or collecting the videos of the crops according to a preset time interval, carrying out image recognition on the videos, and intercepting and storing the images corresponding to any image frame when the image corresponding to any image frame in the videos is different from the image corresponding to the previous frame of any image frame;

step 306, counting the number of images, and comparing the number of images with a first threshold, wherein the images comprise photos of crops or video screenshots of the crops;

308, when the number of the images reaches a first threshold value, synthesizing the images into animation according to the time sequence;

and step 310, sending the synthesized animation to the terminal for demonstration.

In this embodiment, when the greenhouse starts to plant, the photos of the crops are collected according to a preset frequency, for example, the preset frequency can be set to 1 hour for taking photos once, and it can be understood that for vegetables with different growth cycles, different timing photographing time can be set, for example, for melons and vegetables with a longer growth cycle, the timing photographing time can be set to 12 hours or 24 hours, and for leaf vegetables with a shorter growth cycle, the timing photographing time can be set to 1 hour or 2 hours; or the video of the crop is collected at a preset time interval, for example, the preset time interval is set to 10 minutes, and it can be understood that different time intervals can be set for vegetables with different growth cycles.

In any of the above embodiments, preferably, after the step of sending the synthesized animation to the client for presentation, the method further includes: continuously counting the number of the images, and comparing the number of the images with a first threshold value; when the number of the images reaches a first threshold value, synthesizing the images into animations again according to the time sequence, and combining the current synthesized animation with the previously synthesized animation; and sending the combined animation to a terminal for demonstration.

In this embodiment, if the number of stored photographs continues to increase after the animation is first synthesized, it may be set that the animation is synthesized again when the number of stored photographs reaches a set value, and the animation synthesized again may be merged with the animation synthesized previously, so that animation harvested from the start of planting until maturity may be obtained.

In any of the above embodiments, preferably, the first threshold value ranges from 200 sheets to 300 sheets.

In this embodiment, the composite animation may be set according to the number of images of the stored crop by defining a range of the first threshold, which is 200 to 300, but is not limited thereto. Alternatively, the first threshold is 240, and when the number of stored images reaches 240, an animation may be synthesized, and if the animation plays 24 photos per second, 10 seconds may be played. If the number of stored images continues to increase after the animation is first synthesized, the animation is synthesized again when the number of stored images reaches the first threshold value, and the animation synthesized again may be merged with the animation synthesized previously, so that the animation harvested from the start of planting until maturity may be obtained.

As shown in fig. 4, a schematic block diagram of a processing system demonstrating a crop production long process according to one embodiment of the present invention. Wherein the processing system 400 comprises:

the collecting unit 402 is used for collecting and storing images of crops at regular time, wherein the images comprise photos of the crops or video screenshots of the crops;

a counting unit 404 for counting the number of images and comparing the number of images with a first threshold;

the processing unit 406 is configured to synthesize animations according to the time sequence of the images when the number of the images reaches a first threshold;

and a sending unit 408, configured to send the synthesized animation to the terminal for presentation.

According to the processing system 400 for demonstrating the crop growth process, photos of crops in the greenhouse are collected at regular time or video screenshots are extracted, the collected photos or video screenshots are stored, then the stored photos or video screenshots are arranged according to a time sequence to be made into animations, and the animations are sent to the terminal for demonstration. Through the animation, the process of plant growth can be rapidly shown, the planting process of the greenhouse is recorded, and a user can experience the growth process from germination to maturity of the plant, so that the pleasure of planting vegetables by the user is increased, the attached value of the greenhouse is increased, and the use experience of the user is improved.

In particular implementations, the composite animation may be configured according to a number of stored images of the crop, where the images of the crop include a photograph of the crop or a video shot of the crop. For example, when the number of stored photos reaches 240, an animation may be composed, and if the animation plays 24 photos per second, 10 seconds may be played. If the number of stored photos continues to increase after the animation is first synthesized, it may be set that the animation is synthesized again when the number of stored photos reaches a set value, and the animation synthesized again may be merged with the animation synthesized previously, so that animation harvested from the beginning of planting to maturity may be obtained.

In the above embodiment, preferably, the acquisition unit 402 is specifically configured to: collecting photos of crops according to a preset frequency, and storing the photos of the crops; or collecting the videos of the crops according to a preset time interval, carrying out image recognition on the videos, and intercepting and storing the images corresponding to any image frame when the image corresponding to any image frame in the videos is different from the image corresponding to the previous frame of any image frame.

In this embodiment, the timing of the collection and storage of the images of the crop includes two schemes. Firstly, acquiring photos of crops according to a preset frequency, and storing the photos of the crops; secondly, collecting videos of crops according to a preset time interval, carrying out image recognition analysis on the collected videos, and when the content of a certain image frame and the content of the previous image frame have color or content and the like which are obviously changed, for example, when a plant blooms or fruits, new color or shape content appears in the image frame, determining that a photo corresponding to the certain image frame is an expression that the crops enter a new growth state, and intercepting the photos that the crops enter the new growth state and storing the photos in sequence. And finally, the stored photos or video screenshots are arranged and synthesized into animation according to a time sequence, the process of plant growth can be rapidly and comprehensively shown through the animation, the record of the planting process of the greenhouse is also provided, the use experience of a user is improved, and the attached value of the greenhouse is improved.

As shown in fig. 5, a schematic block diagram of a processing system demonstrating a crop production long process according to another embodiment of the present invention. Wherein the processing system 500 comprises:

the collecting unit 502 is used for collecting and storing images of crops at regular time, wherein the images comprise photos of the crops or video screenshots of the crops;

a counting unit 504 for counting the number of images and comparing the number of images with a first threshold;

the processing unit 506 is configured to synthesize animations according to the time sequence of the images when the number of the images reaches a first threshold;

a sending unit 508, configured to send the synthesized animation to a terminal for demonstration;

the setting unit 510 is configured to set a preset frequency and a preset time interval according to a growth cycle of the crop before the step of collecting and storing the image of the crop at regular time.

In this embodiment, when the greenhouse starts to plant, the photos of the crops are collected according to a preset frequency, for example, the preset frequency can be set to 1 hour for taking photos once, and it can be understood that for vegetables with different growth cycles, different timing photographing time can be set, for example, for melons and vegetables with a longer growth cycle, the timing photographing time can be set to 12 hours or 24 hours, and for leaf vegetables with a shorter growth cycle, the timing photographing time can be set to 1 hour or 2 hours; or the video of the crop is collected at a preset time interval, for example, the preset time interval is set to 10 minutes, and it can be understood that different time intervals can be set for vegetables with different growth cycles.

In any of the above embodiments, preferably, the counting unit is further configured to continue counting the number of images after the step of sending the synthesized animation to the client for demonstration, and comparing the number of images with the first threshold; the processing unit is further used for synthesizing the animation of each image according to the time sequence again when the number of the images reaches the first threshold value, and combining the currently synthesized animation with the previously synthesized animation; and the sending unit is also used for sending the combined animation to the terminal for demonstration.

In this embodiment, if the number of stored photographs continues to increase after the animation is first synthesized, it may be set that the animation is synthesized again when the number of stored photographs reaches a set value, and the animation synthesized again may be merged with the animation synthesized previously, so that animation harvested from the start of planting until maturity may be obtained.

In any of the above embodiments, preferably, the first threshold value ranges from 200 sheets to 300 sheets.

In this embodiment, the composite animation may be set according to the number of images of the stored crop by defining a range of the first threshold, which is 200 to 300, but is not limited thereto. Alternatively, the first threshold is 240, and when the number of stored images reaches 240, an animation may be synthesized, and if the animation plays 24 photos per second, 10 seconds may be played. If the number of stored images continues to increase after the animation is first synthesized, the animation is synthesized again when the number of stored images reaches the first threshold value, and the animation synthesized again may be merged with the animation synthesized previously, so that the animation harvested from the start of planting until maturity may be obtained.

As shown in fig. 6, a schematic block diagram of a terminal according to one embodiment of the present invention. Wherein, this terminal 600 includes: a processing system 602 for demonstrating a long crop production process as in any of the above embodiments is included.

The terminal 600 provided by the present invention employs the processing system 602 for demonstrating the crop production length process in any of the above embodiments, so that the terminal has all the advantages of the processing system 602 for demonstrating the crop production length process, and details are not repeated herein.

FIG. 7 is a schematic diagram of a computer device according to one embodiment of the invention. The computer device 1 comprises a memory 12, a processor 14 and a computer program stored on the memory 12 and executable on the processor 14, the processor 14 being adapted to perform the steps of the processing method for demonstrating a crop production run as in any of the embodiments described above.

The computer equipment 1 provided by the invention can realize the timely collection of photos of crops in the greenhouse or the extraction of video screenshots, the storage of the collected photos or video screenshots, the preparation of animations from the stored photos or video screenshots according to the time sequence, and the transmission of the animations to the terminal for demonstration. Through the animation not only can be quick show vegetation's process, increased the enjoyment that the user planted vegetables, increase the affiliated value of big-arch shelter, also be the record to the planting process of big-arch shelter in addition, make the user can experience the plant from sprouting to ripe growth process, increased the use of big-arch shelter and experienced, promote the user and use experience.

In a fifth aspect of the present invention, a computer-readable storage medium is proposed, on which a computer program is stored, which computer program, when being executed by a processor, realizes the steps of the processing method for demonstrating the crop production length process as in any of the above embodiments.

The computer-readable storage medium provided by the invention can realize the timing collection of photos of crops in the greenhouse or the extraction of video screenshots, the storage of the collected photos or video screenshots, the preparation of animations from the stored photos or video screenshots according to the time sequence, and the transmission of the animations to a terminal for demonstration. Through the animation, the process of plant growth can be rapidly shown, the planting process of the greenhouse is recorded, and a user can experience the growth process from germination to maturity of the plant, so that the pleasure of planting vegetables by the user is increased, the attached value of the greenhouse is increased, and the use experience of the user is improved.

In the first specific embodiment, when the greenhouse starts to plant, the plants in the greenhouse are regularly photographed through the camera, stored in a local storage, temporarily photographed once in an hour, uploaded to the server through the internet, and stored in the server. The server side can set the timing time or the requirements of the user, when the number of the photos is larger than a set value, the photos are synthesized into short films of dozens of seconds by using a synthesis technology, and the animation is transmitted to a planting equipment side, such as a mobile phone, so that the growth process of the plants is displayed to the user, and in addition, the user can visit and watch the plants through a web side.

In this embodiment, the setting value is 240, and when the number of stored photos is greater than 240, an animation is synthesized, and if the animation plays 24 photos per second, it only needs to play for 10 seconds. And if the number of the stored photos is continuously increased, when the number of the stored photos reaches 240 again, synthesizing the animation again, combining the animation synthesized again with the animation synthesized before, updating the animation synthesized before, and transmitting the updated animation to the mobile phone end of the user, so that the whole growth process from planting to mature harvesting can be displayed.

In a second specific embodiment, when planting in the greenhouse, the camera device shoots the crops to be planted, and the shot video is stored locally. If the shooting time is 10 minutes, the 10 minutes of video is stored locally as a section, and in order to save the local storage space, when the shooting of the video of the next time interval is finished, the video shot at the next time interval is overlaid with the video shot at the previous time interval. The locally stored video is transmitted to a server side, the server side carries out image recognition analysis on the received video, when an image corresponding to a certain image frame in the video is different from an image corresponding to a previous frame, if the plant blooms or fruits, the content of a new color or shape appears in the image frame, and the crop in the photo corresponding to the image frame enters a new growth state. At the moment, the screenshots of the crops entering the new growth state are stored according to the time sequence, when the number of the stored screenshots reaches a set value, for example, 240 screenshots, animation is synthesized according to the time sequence, the production process of the displayed crops is carried out, and if 20 photos are played every second, only 12 seconds are needed to be played, so that the process of rapidly showing the growth of the plants is realized.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A treatment method for demonstrating the growth process of crops, which is characterized by comprising the following steps:

regularly collecting and storing images of the crops, wherein the images comprise photos of the crops or video screenshots of the crops;

counting the number of the images and comparing the number of the images with a first threshold value;

when the number of the images reaches the first threshold value, synthesizing the images into animation according to the time sequence;

and sending the synthesized animation to a terminal for demonstration.

2. The processing method for demonstrating the crop production process according to claim 1, wherein the step of regularly acquiring and storing the images of the crops comprises:

collecting photos of the crops according to a preset frequency, and storing the photos of the crops; or

Collecting videos of the crops according to a preset time interval, carrying out image recognition on the videos, and when an image corresponding to any graphic frame in the videos is different from an image corresponding to a previous frame of the graphic frame, intercepting and storing the image corresponding to the graphic frame.

3. The method of claim 2, wherein prior to said step of periodically capturing and storing images of said crop, further comprising:

and setting a preset frequency and a preset time interval according to the growth cycle of the crops.

4. The processing method for demonstrating crop production length process according to any one of claims 1 to 3, further comprising, after said step of sending the synthesized animation to the client for demonstration:

continuously counting the number of the images and comparing the number of the images with the first threshold value;

when the number of the images reaches the first threshold value, combining the images into animation according to the time sequence again, and combining the animation which is currently combined with the animation which is previously combined;

and sending the combined animation to a terminal for demonstration.

5. The method for demonstrating crop production growth process according to any one of claims 1 to 3,

the value range of the first threshold is 200 to 300.

6. A processing system for demonstrating long crop production processes, comprising:

the collecting unit is used for collecting and storing images of the crops at regular time, and the images comprise photos of the crops or video screenshots of the crops;

a counting unit for counting the number of the images and comparing the number of the images with a first threshold value;

the processing unit is used for synthesizing the images into animation according to the time sequence when the number of the images reaches the first threshold value;

and the sending unit is used for sending the synthesized animation to the terminal for demonstration.

7. The processing system for demonstrating crop production elongation as claimed in claim 6, wherein said acquisition unit is specifically configured to:

collecting photos of the crops according to a preset frequency, and storing the photos of the crops; or

Collecting videos of the crops according to a preset time interval, carrying out image recognition on the videos, and when an image corresponding to any graphic frame in the videos is different from an image corresponding to a previous frame of the graphic frame, intercepting and storing the image corresponding to the graphic frame.

8. The system of claim 7, further comprising:

and the setting unit is used for setting a preset frequency and a preset time interval according to the growth cycle of the crops before the step of regularly acquiring and storing the images of the crops.

9. A processing system for demonstrating crop production growth process according to any one of claims 6 to 8,

the counting unit is further configured to continue counting the number of the images after the step of sending the synthesized animation to the client for demonstration, and compare the number of the images with the first threshold;

the processing unit is further configured to, when the number of the images reaches the first threshold, synthesize the images into animations again according to the time sequence, and merge the currently synthesized animation with the previously synthesized animation;

and the sending unit is also used for sending the combined animation to a terminal for demonstration.

10. A processing system for demonstrating crop production growth process according to any one of claims 6 to 8,

the value range of the first threshold is 200 to 300.