CN115129192A

CN115129192A - Man-machine interaction system applied to fertilizer packaging bags

Info

Publication number: CN115129192A
Application number: CN202110320806.9A
Authority: CN
Inventors: 廖文文; 贺康利; 李玉光; 黄天成; 刘何远
Original assignee: Shenzhen Batian Ecotypic Engineering Co Ltd
Current assignee: Shenzhen Batian Ecotypic Engineering Co Ltd
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2022-09-30

Abstract

The invention provides a man-machine interaction system applied to a fertilizer packaging bag, which comprises a functional information carrier, a processor and a memory, wherein a link of the man-machine interaction system is stored in the functional information carrier, the processor is used for pushing an interaction interface corresponding to the link to a terminal when receiving a calling instruction generated by scanning the functional information carrier by the terminal, and the processor is used for calling fertilizer information related to fertilizer contained in the fertilizer packaging bag in the memory according to the input information after receiving input information input through the interaction interface and controlling the fertilizer information to be output at the interaction interface. The application provides a man-machine interaction system passes through the terminal scanning function information carrier and produces interactive interface to can call out the fertilizer information relevant with the fertilizer that accommodates in the fertilizer wrapping bag in the memory behind interactive interface input information, thereby can know fertilizer information fast, with the relevant information of the quick acquisition fertilizer of help peasant household.

Description

Man-machine interaction system applied to fertilizer packaging bags

Technical Field

The invention relates to the technical field of agriculture, in particular to a man-machine interaction system applied to fertilizer packaging bags.

Background

The traditional agriculture is developed by the traditional experience accumulated by generations in a manual labor mode mainly comprising manpower, animal power, hand tools, ironware and the like under the natural economic condition, and is dominated by self-sufficient natural economy. With the development of scientific technology, more and more internet technologies are applied to traditional agriculture, wherein the technology of internet of things is applied to traditional agriculture in smart agriculture, and agricultural production is controlled by applying sensors and software through a mobile platform or a computer platform, so that the traditional agriculture is more intelligent. In addition to accurate sensing, control and decision management, the intelligent agriculture also comprises contents in aspects of agricultural electronic commerce, food source tracing and anti-counterfeiting, agricultural leisure travel, agricultural information service and the like in a broad sense. The current fertilizer is packaged by a fertilizer packaging bag, basic information such as fertilizer information, production date and the like is printed on the packaging bag, more information about the packaged fertilizer cannot be obtained due to the limited area of the packaging bag, and the information about the fertilizer specification is required to be known and is limited.

Disclosure of Invention

In view of this, the present invention provides a human-computer interaction system applicable to fertilizer packaging bags, which enables a user to quickly know fertilizer information and output corresponding information according to user input information.

The application provides a be applied to human-computer interaction system of fertilizer wrapping bag, human-computer interaction system includes function information carrier, treater and memory, the storage has human-computer interaction system's link in the function information carrier, the treater is used for receiving the terminal scanning during the calling instruction that function information carrier and produced, to terminal propelling movement one with link the mutual interface that corresponds, the treater is used for receiving and passing through behind the input information of mutual interface input, according to the input information is transferred get in the memory with fertilizer relevant fertilizer information of the fertilizer of acceping in the fertilizer wrapping bag, and control is in the mutual interface output fertilizer information.

In a possible implementation manner, the memory further stores crop information, and the processor is further configured to, after receiving a crop input through the interactive interface, retrieve crop information related to the crop in the memory according to the crop, and control output of the crop information on the interactive interface.

In one possible implementation manner, the processor is further configured to display a part of the content in the crop information in a specific color in the interactive interface.

In one possible implementation manner, the interactive interface comprises a prompt icon, and the prompt icon is located at one end of the interactive interface; the prompt icon is used for prompting that input information is being received or prompting that the fertilizer information is being output on the interactive interface.

In a possible implementation manner, the interactive interface further includes an information input icon, the information input icon is located at the other end of the interactive interface, and the processor controls the prompt icon to display prompt information that the input information is being received and receives the input information input by the user after the information input icon is triggered by the user.

In a possible implementation manner, the interactive interface further includes an information interaction display area, and the information interaction display area is located between the prompt icon and the information input icon; the information interaction display area is used for displaying input information when the processor is receiving the input information and is used for displaying the fertilizer information when the processor controls the fertilizer information to be output at the interaction interface.

In one possible implementation, the fertilizer information includes a name of the fertilizer contained in the fertilizer packaging bag, and at least one of a price, a use method, a use time, and a crop variety of the fertilizer.

In one possible implementation, the crop information includes at least one of a price of the crop, a market demand, a fertilization method of the crop, and a planting method of the crop.

In a possible implementation manner, the human-computer interaction system further includes a positioning module, the positioning module is configured to position and output a geographic position, the processor is connected to the positioning module and reads the geographic position output by the positioning module, a first corresponding relationship between a plurality of geographic positions and fertilizer information is stored in the memory, and the processor is further configured to retrieve the fertilizer information corresponding to the geographic positions in the memory according to the first corresponding relationship, and control the interactive interface to output the fertilizer information.

In a possible implementation manner, the human-computer interaction system further includes a positioning module, the positioning module is configured to position and output a geographic position, the processor is connected to the positioning module and reads the geographic position output by the positioning module, a second correspondence between a plurality of geographic positions and crop information is stored in the memory, and the processor is further configured to retrieve the crop information corresponding to the geographic position in the memory according to the second correspondence and control the interactive interface to output the crop information.

The invention has the beneficial effects that: the application provides a be applied to man-machine interaction system of fertilizer wrapping bag and produce interactive interface through terminal scanning function information carrier to can call out the fertilizer information relevant with the fertilizer that accommodates in the fertilizer wrapping bag in the memory behind interactive interface input information, thereby can know fertilizer information fast, and can carry out the man-machine interaction relevant with fertilizer information, with the quick relevant information who obtains fertilizer of help peasant household.

Drawings

Fig. 1 is a block diagram illustrating a human-computer interaction system applied to a fertilizer packaging bag according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram of a human-computer interaction system for implementing a fertilizer packaging bag according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an interactive interface provided in an embodiment of the present application;

FIG. 4 is a schematic diagram of an interactive interface provided in an embodiment of the present application;

FIG. 5 is a schematic diagram of an interactive interface provided in an embodiment of the present application;

fig. 6 is a block diagram of a human-computer interaction system applied to a fertilizer packaging bag according to an embodiment of the present application.

Detailed Description

While the following is a description of the preferred embodiments of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

Herein, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, the meaning of "a plurality" is two or more unless otherwise specified.

Further, where directional terms such as "upper", "lower", etc., are defined herein with respect to a schematically-disposed orientation of a structure in the drawings, it is to be understood that such directional terms are relative concepts that are used for descriptive and clarity purposes relative to the structure, and that they may vary accordingly depending on the orientation in which the structure is disposed.

Referring to fig. 1 and 2, an embodiment of the present invention provides a human-computer interaction system 10 applied to a fertilizer packaging bag 1, where the human-computer interaction system 10 includes a function information carrier 100, a processor 200 and a memory 300, a link of the human-computer interaction system 10 is stored in the function information carrier 100, the processor 200 is configured to push an interaction interface 400 corresponding to the link to a terminal 20 when receiving a call instruction generated by the terminal 20 scanning the function information carrier 100, and the processor 200 is configured to call fertilizer information related to fertilizer contained in the fertilizer packaging bag 1 in the memory 300 according to input information after receiving the input information input through the interaction interface 400, and control the fertilizer information to be output at the interaction interface 400.

Wherein, the functional information carrier 100 can be disposed on the fertilizer packaging bag 1, so that the man-machine interaction system 10 can be applied to the fertilizer packaging bag 1. In particular, the functional information carrier 100 may be a graphic code, including a two-dimensional code, a bar code, or other graphic codes. The terminal 20 is provided with a camera, and when the functional information carrier 100 is a two-dimensional code, the interactive interface 400 corresponding to the functional information carrier 100 is popped up on the interface of the terminal 20 after the two-dimensional code is scanned by the camera. The fertilizer in the fertilizer packaging bag 1 can be set according to actual needs, including but not limited to inorganic fertilizer, organic fertilizer, polymer fertilizer and the like, the inorganic fertilizer includes nitrogen fertilizer, phosphate fertilizer, potash fertilizer, inorganic binary fertilizer, inorganic ternary fertilizer or medium trace element fertilizer and the like, and the inorganic fertilizer includes granular fertilizer, liquid fertilizer, crown fertilizer or gas fertilizer and the like in shape. The shape of the fertilizer packaging bag 1 is not limited, and the fertilizer packaging bag comprises a rectangle, a square or a barrel shape, a bottle shape and the like.

Wherein, the input information can be set according to actual needs, for example, the input information is banana, after inputting banana, the interactive interface 400 outputs the method of using the fertilizer for banana, when the fertilizer is crown fertilizer, after inputting banana, the interactive interface 400 outputs the method of using the crown fertilizer for banana.

In one possible implementation, the fertilizer information includes a name of the fertilizer contained in the fertilizer packaging bag 1, and includes at least one of a price, a use method, a use time, a production date, and a used crop variety of the fertilizer. As shown in fig. 2, when the fertilizer information includes the name of the fertilizer, the name of the fertilizer is directly popped up at the interactive interface 400 after the functional information carrier 100 is scanned by the terminal 20. That is, after the user scans the functional information carrier 100 (such as a two-dimensional code) on the fertilizer packaging bag 1 by using the terminal 20, the fertilizer information is directly popped up, so that the user can more conveniently know the fertilizer information of the fertilizer, for example, know the price change trend, to judge whether the fertilizer needs to be purchased in advance, so as to prevent the situation that the price of the fertilizer is increased when the crop needs to use the fertilizer, for example, know the use method of the fertilizer, to guide the application of fertilizer to the crop, for example, know the use time, to prepare the fertilizer in advance, for example, know the variety of the crop, to select a proper crop to use the fertilizer, and to improve the yield of the crop.

In some embodiments, the fertilizer information may be information including fertilizer keywords, and specifically, the fertilizer information includes a series of information related to the fertilizer, for example, when the fertilizer keywords are crown fertilizers, a "special crown fertilizers" is popped up to a special person at the interactive interface 400, the series of information includes the keyword "crown fertilizers" in the fertilizer information, and the series of information including the fertilizer keywords may be set as needed to make the human-computer interaction more flexible and changeable and improve the anthropomorphic characteristics of the human-computer interaction system.

The human-computer interaction system 10 applied to the fertilizer packaging bag 1 provided by the application generates the interactive interface 400 by scanning the functional information carrier 100 through the terminal 20, and can retrieve the fertilizer information related to the fertilizer contained in the fertilizer packaging bag 1 in the memory 300 after the information is input by the interactive interface 400, so that the fertilizer information can be rapidly known, and human-computer interaction related to the fertilizer information can be performed, so as to help farmers rapidly obtain the related information of the fertilizer.

The fertilizer packaging bag 1 comprises an image-text area, a packaging area and an information area, fertilizer information is displayed in the image-text area, the packaging area is used for packaging the opening of the fertilizer packaging bag 1, and a function information carrier 100 is arranged in the information area. In one embodiment, the functional information carrier is printed on an outer surface of the information area. In one embodiment, the functional information carrier is formed on a substrate and is fixed to the information area through the substrate. In one embodiment, the functional information carrier is printed or etched on the substrate. In one embodiment, the information area occupies 10% to 30% of the area of the fertilizer packaging bag. The terminal is beneficial to the user to obtain the information by one-eye identification, and is beneficial to the terminal focusing scanning, and the terminal is not easy to identify if the setting is too small.

In a possible implementation manner, the memory 300 further stores crop information, and the processor 200 is further configured to, after receiving a crop input through the interactive interface 400, retrieve crop information related to the crop in the memory 300 according to the crop, and control the output of the crop information at the interactive interface 400. Wherein the crops comprise cabbage heart, radish, tomato, pepper, banana and the like.

In one possible implementation, the crop information includes at least one of a price of the crop, a market demand, a fertilizing method of the crop, and a planting method of the crop. Taking banana as an example for explanation, when banana is input, the banana crop information including market quotation, price and the like is output. In one embodiment, when the input information is the same as the crop information, the fertilizer information is first output to first understand the fertilizer application method to the crop.

In one possible implementation, the processor 200 is further configured to display a portion of the content in the crop information in a specific color in the interactive interface 400. In the present application, the specific color is a color different from other crop information, such as red, blue or yellow, and key digital information such as the price of the heart of a dish, the market demand, the supply amount, and the like is displayed in red with emphasis, and other contents are displayed in black. For example, when the object information is the price of bananas, the price data of the bananas can be displayed in red, and other characters are displayed in black, so that a user can quickly know the price data of the bananas.

In one possible implementation, the processor 200 is further configured to display a portion of the content in the crop information in the interactive interface 400 with a specific size. In this application, the specific size means a font size larger than that of other crop information or a line thickness (as shown in fig. 5) to highlight the key information.

Referring to fig. 3, in one possible implementation, the interactive interface 400 includes a prompt icon 410, and the prompt icon 410 is located at one end of the interactive interface 400; the prompt icon 410 is used to prompt that input information is being received or that fertilizer information is being output at the interactive interface. For example, the prompt icon is a character image of a certain animal or a customized character image. In some embodiments, the prompt icon 410 may also be a combination of a picture and text, such as displaying something listening near a certain aniogram when input information is being accepted (as shown in FIG. 3), and displaying something talking near a certain aniogram when information is being output from the interactive interface 400 (as shown in FIG. 4).

In some embodiments, the prompt icon 410 may also move in response to a drag or the like by the user. In some embodiments, the prompt icon 410 may also change in size or shape in response to user manipulation.

In a possible implementation manner, the interactive interface 400 further includes an information input icon 420, the information input icon 420 is located at the other end of the interactive interface 400, and the processor 200 controls the prompt icon 410 to display a prompt message that the input message is being received and receive the input message input by the user after the information input icon 420 is triggered by the user. The trigger action is to point the information input icon 420 below the interactive interface 400.

In one possible implementation, the input information includes text information and voice information. For example, the terminal 20 includes an information input module including a voice recognition sub-module for receiving and recognizing a user's voice and transmitting the voice to the processor, and a text input sub-module for inputting text information and transmitting the text information to the processor.

The interactive interface output information may be output on the interactive interface 400 through text information or through voice broadcast. For example, the terminal 20 has an output module including a voice output sub-module and a voice output sub-module, where the voice output sub-module is used to output voice information, and the voice output sub-module is used to output text information.

In one possible implementation, the interactive interface 400 further includes an information interaction display area 430, and the information interaction display area 430 is located between the prompt icon 410 and the information input icon 420; the information interactive display area 430 is used for displaying input information when the processor 200 is receiving the input information and for displaying fertilizer information when the processor 200 controls the fertilizer information to be output at the interactive interface 400. The area ratio of the information interaction display area 430 to the interaction interface 400 is greater than 50%, so that more information can be displayed in the information interaction display area 430.

Referring to fig. 6, in a possible implementation manner, the human-computer interaction system 10 further includes a positioning module 500, the positioning module 500 is configured to position and output a geographic location, the processor 200 is connected to the positioning module 500 and reads the geographic location output by the positioning module 500, the memory 300 stores a plurality of first corresponding relationships between the geographic location and fertilizer information, and the processor 200 is further configured to retrieve the fertilizer information corresponding to the geographic location in the memory 300 according to the first corresponding relationships, and control the interactive interface 400 to output the fertilizer information. For example, the positioning module 500 positions the current location of the user and the terminal 20 as Hainan, and after the banana is input through the interactive interface 400, the processor 200 retrieves fertilizer information of the banana for using the crown fertilizer in Hainan. Due to the geographical location, the growing environment of crops changes, and the method for applying fertilizers to the crops also differs. In this embodiment, the positioning module 500 is used to position the geographical location and output the corresponding fertilizer information according to the geographical location, so that the user can obtain fertilizer information more beneficial to fertilizer use or crop growth.

In a possible implementation manner, the human-computer interaction system 10 further includes a positioning module 500, the positioning module 500 is configured to position and output a geographic location, the processor 200 is connected to the positioning module 500 and reads the geographic location output by the positioning module 500, the memory 300 stores a plurality of second corresponding relationships between the geographic location and crop information, and the processor 200 is further configured to retrieve the crop information corresponding to the geographic location in the memory 300 according to the second corresponding relationships and control the interactive interface 400 to output the crop information. For example, the positioning module 500 positions the user and the terminal 20 as northeast, and when the heart of a dish is input through the interactive interface 400, the processor 200 retrieves crop information of the heart of the dish in the northeast, such as market quotation and price of the heart of the dish in the northeast. Due to different geographical positions, crop information such as market conditions, prices and the like of crops can be different. In this embodiment, the positioning module 500 is used to position the geographic location and output the corresponding crop information according to the geographic location, so that the user can obtain the accurate crop information.

In one possible implementation, the memory 300 further stores agricultural information related to crops, and the processor 200 is further configured to control the interactive interface 400 to output the agricultural information corresponding to the input information according to the input information. The agricultural information includes at least one of soil quality, environmental quality, climate information, and government support policies. For example, when the planting environment of the flowering cabbage is input, the soil quality, environment, climate and the like suitable for planting the flowering cabbage are output.

In a possible implementation manner, the human-computer interaction system 10 further includes a positioning module 500, the positioning module 500 is configured to position and output a geographic location, the processor 200 is connected to the positioning module 500 and reads the geographic location output by the positioning module 500, the memory 300 stores a plurality of third corresponding relationships between the geographic location and the agricultural information, and the processor 200 is further configured to retrieve the agricultural information corresponding to the geographic location in the memory 300 according to the third corresponding relationships, and control the interactive interface 400 to output the agricultural information. Due to different geographical locations, the agricultural information may be different. In this embodiment, the positioning module 500 is used to position the geographic location and output the corresponding agricultural information according to the geographic location, so that the user can obtain the accurate agricultural information.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. 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. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. The utility model provides a be applied to man-machine interaction system of fertilizer wrapping bag, its characterized in that man-machine interaction system includes function information carrier, treater and memory, the link that has man-machine interaction system in the function information carrier is saved, the treater is used for receiving the terminal scanning when the call instruction that function information carrier and produced, to the terminal propelling movement one with link the interactive interface that corresponds, the treater is used for receiving through behind the input information of interactive interface input, according to the input information transfers in the memory with fertilizer relevant fertilizer information of the fertilizer of acceping in the fertilizer wrapping bag, and control is in interactive interface output fertilizer information.

2. The human-computer interaction system of claim 1, wherein the memory further stores crop information, and the processor is further configured to, after receiving a crop input through the interactive interface, retrieve crop information related to the crop from the memory according to the crop and control output of the crop information on the interactive interface.

3. A human-computer interaction system as in claim 2 wherein the processor is further configured to display a portion of the content in the crop information in a particular color in the interactive interface.

4. A human-computer interaction system as claimed in claim 1 wherein the interactive interface includes a prompt icon, the prompt icon being located at one end of the interactive interface; the prompt icon is used for prompting that input information is being received or prompting that the fertilizer information is being output on the interactive interface.

5. The human-computer interaction system of claim 4, wherein the interaction interface further comprises an information input icon at the other end of the interaction interface, and the processor controls the prompt icon to display prompt information that the input information is being received and to receive the input information input by the user after the information input icon is triggered by the user.

6. A human-computer interaction system as in claim 5, wherein the interaction interface further comprises an information interaction display area, the information interaction display area being located between the prompt icon and the information input icon; the information interaction display area is used for displaying input information when the processor is receiving the input information and displaying the fertilizer information when the processor controls the fertilizer information to be output at the interaction interface.

7. The human-computer interaction system of claim 1, wherein the fertilizer information comprises a name of fertilizer contained in the fertilizer packaging bag and at least one of a price, a method of use, a time of use, and a variety of crop used for the fertilizer.

8. A human-computer interaction system as claimed in claim 2 wherein the crop information comprises at least one of price of the crop, market demand, fertilization method of the crop and planting method of the crop.

9. The human-computer interaction system of claim 1, further comprising a positioning module, wherein the positioning module is configured to position and output a geographic location, the processor is connected to the positioning module and reads the geographic location output by the positioning module, the memory stores a plurality of first corresponding relationships between the geographic location and fertilizer information, and the processor is further configured to retrieve the fertilizer information corresponding to the geographic location in the memory according to the first corresponding relationships and control the fertilizer information to be output on the interaction interface.

10. The human-computer interaction system of claim 2, further comprising a positioning module, wherein the positioning module is configured to position and output a geographic location, the processor is connected to the positioning module and reads the geographic location output by the positioning module, the memory stores a plurality of second corresponding relationships between the geographic location and crop information, and the processor is further configured to retrieve the crop information corresponding to the geographic location from the memory according to the second corresponding relationships and control the crop information to be output on the interaction interface.