CN114518893A - Child programming product updating system and method - Google Patents

Abstract

The invention discloses a child programming product updating system and a child programming product updating method, wherein the child programming product updating system comprises a force calculating module and an execution unit, the force calculating module runs on a user terminal or a cloud server, and the execution unit comprises auxiliary materials; when the child programming product is started for the first time, sending configuration information to a cloud server and a user terminal; the configuration information comprises product version information and product auxiliary material information; the user terminal is used for acquiring new auxiliary material information, selecting an updating scheme of auxiliary material point position-action mapping logic and sending an updating instruction; the cloud server is used for receiving the updating instruction and controlling the calculation force module, the execution unit and the user terminal to download and update according to the updating scheme. The invention can realize the quick update of the programming products of children, parents or players can update different programming and game contents cooperatively through the updating mechanism, so that one set of hardware products can carry out the interaction of a plurality of sets of contents, and the value of the products and the system is improved.

Description

Child programming product updating system and method

Technical Field

The invention relates to the field of artificial intelligence, in particular to a child programming product updating system and method.

Background

Programming is a process of solving a certain problem by computer codes, specifying a certain operation mode for a certain computing system, enabling the computing system to operate according to the operation mode, and finally obtaining a corresponding result. In the information age today, programming is advocated as the most effective language for communicating with computers.

As the concept of juvenile programming has become more prevalent, more people have become aware of the necessity for children to be exposed to computer science under new times. Therefore, children programming education and children programming products are emerging.

However, most of the existing children programming products in the market mainly use modules with fixed programming capability and auxiliary materials with fixed modes, so that the hardware utilization rate is low, the interestingness is not strong, the children programming products are mainly used for extraclass interested institutions, and the children programming products are not attractive to the household market.

Disclosure of Invention

The invention mainly aims to provide a child programming product updating system and method, and aims to solve the technical problems that the existing child programming product is mainly provided with a module with fixed programming capability and auxiliary materials with fixed modes, so that the hardware utilization rate is not high, and the interestingness is not strong.

In order to achieve the above object, the present invention provides a child programming product updating system, including a calculation module and an execution unit, where the calculation module runs on a user terminal or a cloud server, and the execution unit includes auxiliary materials; when the child programming product is started for the first time, sending configuration information to a cloud server and a user terminal; the configuration information comprises product version information and product auxiliary material information; the user terminal is used for acquiring new auxiliary material information, selecting an updating scheme of auxiliary material point position-action mapping logic and sending an updating instruction; and the cloud server is used for receiving the updating instruction and controlling the calculation force module, the execution unit and the user terminal to download and update according to the updating scheme.

Optionally, the new auxiliary material information is obtained by pushing an update scheme of the existing auxiliary material to the user terminal by the cloud server; or, the new auxiliary material information is acquired by the user.

Optionally, the user obtains new auxiliary material information by himself, the user terminal identifies the unique identification mark of the auxiliary material, and the auxiliary material updating scheme corresponding to the version information of the auxiliary material is queried and bound from the cloud server according to the unique identification mark; the point location-action mapping logic is the mapping relation between the position information corresponding to the identity recognition mechanism at different positions of the auxiliary material and the reaction action of the execution unit.

Optionally, after the update of the update scheme is completed, the user terminal becomes an authorized material of the user terminal, and the user terminal is further configured to view all authorized materials of the account.

Optionally, after the user terminal selects a certain authorized auxiliary material, the user terminal requests the computing module and the execution unit to switch to the designated matching mode of the authorized auxiliary material through wireless communication or a cloud server.

Optionally, the user terminal includes a control module and an interaction module; the control module is used for a user to initiate and determine a programming instruction; the interaction module is used for displaying an execution result corresponding to an execution program, and the execution program is formed by combining a plurality of programming instructions.

Optionally, the computation module is further configured to execute a feature recognition algorithm, recognize an execution program or an execution command corresponding to the programming instruction, and send the execution program or the execution command to the execution unit; and the execution unit completes the specified action according to the execution program or the execution command and feeds back the execution result to the user terminal.

Optionally, the execution unit further includes an optical identification module, an operation and storage module, a transmission module and a multimedia module; the optical identification module carries out interactive identification with the auxiliary material and executes a preset function at a specified position of the auxiliary material according to an execution program or an execution command; the operation and storage module processes and judges the executive program or executive command and then sends the executive program or executive command to the transmission module and/or the multimedia module; the transmission module receives an execution program or an execution command and completes corresponding designated actions; the multimedia module receives the executive program or the executive command and completes the corresponding sound, light and dynamic effects.

Optionally, the auxiliary material is paper or solid entity, and includes optical identification features and/or antennas embedded in different areas; the optical identification feature is printed, stamped or engraved on the surface of the auxiliary material.

Corresponding to the child programming result feedback system, the invention provides a child programming product updating method, which comprises the following steps: when the child programming product is started for the first time, sending configuration information to a cloud server and a user terminal; the configuration information comprises product version information and product auxiliary material information; acquiring new auxiliary material information, selecting an updating scheme of auxiliary material point-action mapping logic, and sending an updating instruction; and receiving an updating instruction, and controlling the calculation force module, the execution unit and the user terminal to download and update according to the auxiliary material updating scheme.

The invention has the beneficial effects that:

(1) through the cooperative cooperation of the user terminal, the cloud server, the calculation module and the execution unit, the quick update of the child programming product can be realized, and parents or companions can cooperatively update different programming and game contents through the update mechanism, so that one set of hardware product can interact with a plurality of sets of contents, and the value of the product and the system is improved;

(2) the execution result is fed back through the execution unit, and a child user can determine the own programming result and train the closed-loop feedback logic of the child;

(3) through the force calculation module, specific patterns on plastic, metal entities or printed matters can be identified, and corresponding execution programs are sent to one or more designated execution units.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a diagram illustrating an embodiment of an execution unit of the present invention;

FIG. 2 is a schematic diagram of a child programming product according to an embodiment of the invention;

FIG. 3 is a schematic diagram of a child programming product according to another embodiment of the invention;

FIG. 4 is a sequence of images of an embodiment of the present invention in which a plurality of specific patterns are located on different carriers;

FIG. 5 is a sequence of images of another embodiment of the present invention with specific patterns on different carriers;

FIG. 6 is a sequence of images of an embodiment of the present invention in which a plurality of specific patterns are respectively located on the same carrier;

FIG. 7 is a schematic view of one embodiment of an identifiable feature on a carrier of the present invention;

FIG. 8 is a schematic view of another embodiment of an identifiable feature on a carrier of the present invention;

FIG. 9 is a flowchart illustrating a method for updating a child programming product according to the present invention.

Description of the drawings: 1-execution unit, 10-auxiliary material, 11-optical identification module, 12-operation and storage module, 13-transmission module, 14-multimedia module, 15-replaceable role module, 16-transceiver; 2-a user terminal, 3-a cloud server, 4-a carrier, 5-a thermal printer, 6-an optical identification unit, 7-an identification starting point, 8-a graphic window and 9-an identification window.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a child programming product updating system which comprises a force calculating module and an execution unit 1, wherein the force calculating module runs on a user terminal 2 or a cloud server 3, and the execution unit 1 comprises an auxiliary material 10; when the child programming product is started for the first time, sending configuration information to the cloud server 3 and the user terminal 2; the configuration information comprises product version information and product auxiliary material information; the user terminal 2 is used for acquiring new auxiliary material information, selecting an updating scheme of point position-action mapping logic of the auxiliary material 10 and sending an updating instruction; the cloud server 3 is used for receiving the update instruction and controlling the calculation power module, the execution unit 1 and the user terminal 2 to download and update according to the auxiliary material update scheme.

According to the invention, through the cooperative cooperation of the user terminal 2, the cloud server 3, the computing power module and the execution unit 1, the quick update of the child programming product can be realized, and parents or companions can cooperatively update different programming and game contents through the update mechanism, so that one set of hardware product can interact with a plurality of sets of contents, and the value of the product and the system is improved.

In this embodiment, after the user terminal 2 acquires new auxiliary material information, the cloud server 3 pushes multimedia content related to the new auxiliary material information to the computing power module, and pushes necessary elements of a new auxiliary material information execution method to the execution unit 1.

In this embodiment, the new auxiliary material information is acquired by pushing an update scheme of an existing auxiliary material to the user terminal 2 by the cloud server 3; or, the new auxiliary material information is acquired by the user.

In this embodiment, the user obtains new auxiliary material information by himself, where the user terminal 2 identifies the unique identification mark of the auxiliary material 10, and queries and binds an auxiliary material update scheme corresponding to the version information of the auxiliary material 10 from the cloud server 3 according to the unique identification mark; the "point location-action" mapping logic is a mapping relationship between the location information corresponding to the identity recognition mechanism at different locations of the auxiliary material 10 and the action reflected by the execution unit 1. The reaction action comprises an execution action and an acousto-optic special effect.

Preferably, the user terminal 2 identifies the unique identification mark of the auxiliary material 10 by scanning an identification code (such as a two-dimensional code, a barcode, etc.) or by Near Field Communication (NFC).

Specifically, the unique identification of the auxiliary material 10 is information stored in an encoding method such as an oid (optical identification), a one-dimensional barcode, or a two-dimensional code. The unique identification marks correspond to the point locations on the auxiliary material 10 one to one. That is, each point location may have a unique identifier. In this embodiment, the identity recognition mechanism is embodied by a unique identification tag. That is, the identification information of the auxiliary material 10 can be identified by identifying the unique identification mark of the auxiliary material 10.

Preferably, the auxiliary material 10 may be divided into a plurality of points according to a specific specification size. For example, the auxiliary material 10 is divided into a plurality of grids, and each grid corresponds to one point.

In this embodiment, after the update is completed, that is, the authorized auxiliary materials of the user terminal 2 are obtained, and the user terminal 2 is further configured to check all the authorized auxiliary materials of the account. Preferably, after the user terminal 2 selects a certain authorized auxiliary material, the computing module and the execution unit 1 are required to be switched to the designated matching mode of the authorized auxiliary material through wireless communication or the cloud server 3.

In the present embodiment, the authorized materials of the account are directly related to the account, and the authorized materials to be checked are the same regardless of the user terminal 2 in which the account is registered. However, the user terminal 2 also has the right to locally cache information of a part of the auxiliary materials 10, such as the basic auxiliary materials 10.

In this embodiment, after the update, the user terminal 2 sends the update status to the cloud server 3; and the cloud server 3 receives the updating state and pushes the updating state to the local account, and if the pushing state is unsuccessful in updating, the local account is prompted to update again.

In this embodiment, the user terminal 2 includes a control module and an interaction module; the control module is used for initiating and determining a programming instruction by a user; the interaction module is used for displaying an execution result corresponding to the execution program, and the execution program is formed by combining a plurality of programming instructions.

In this embodiment, the computation module is further configured to execute a feature recognition algorithm, recognize an execution program or an execution command corresponding to the programming instruction, and issue the execution program to the execution unit 1; the execution unit 1 completes the designated action according to the execution program or the execution command and feeds back the execution result to the user terminal 2.

The invention can identify specific patterns on plastic, metal entities or printed matters through the force calculation module, and simultaneously sends corresponding execution programs to one or more designated execution units 1.

Referring to fig. 1 and 2, fig. 2 is a schematic diagram of a child programming product according to an embodiment of the invention. In this embodiment, the execution unit 1 further includes an optical recognition module 11, an operation and storage module 12, a transmission module 13 and a multimedia module 14; the optical identification module 11 performs interactive identification with the auxiliary material 10, and executes a preset function of an execution program at a specified position of the auxiliary material 10 according to the execution program or the execution command; the operation and storage module 12 processes and judges the execution program or the execution command, and then sends the execution program or the execution command to the transmission module 13 and/or the multimedia module 14; the transmission module 13 receives the execution program or the execution command and completes the corresponding designated action; the multimedia module 14 receives the execution program or the execution command and performs the corresponding sound, light and dynamic effects.

Preferably, the execution program received by the execution unit 1 is executed during the execution process, and the next designated action of the transmission module 13 is performed on the basis of the completion of the last designated action.

In this embodiment, the execution unit 1 further includes a replaceable role module 15, which is used to assist the execution unit 1 to complete a designated action, and a user can replace the replaceable role module 15 according to his/her preference, so as to add interest to the programming and learning process.

In this embodiment, an example is that the visual terminal recognizes an instruction of the executing device to advance several steps, wherein one step will encounter a preset obstacle in the auxiliary material 10 or an obstacle implemented during the game, and the computing module notifies the executing device to execute a relevant reaction according to the computing result, such as stopping, collecting and paying a voucher in the game, or avoiding.

In this embodiment, there are a plurality of execution units 1, each corresponding to a different user terminal 2. Multiple execution units 1 (E)₁,E₂,E₃…) is played on the same auxiliary material 10 (e.g. a board), at which time the power module receives E₁The program instruction is advanced by several steps. The power calculating module judges E according to the position information of the existing chessman₁Will pass through E₂And determining that E is under a specific rule₁Need to execute sound effect M₁And action A₁，E₂Need to execute sound effect M₂And action A₂Then, the calculation module sends the specific execution programs to the corresponding user terminals 2 respectively.

Preferably, in order to improve the accuracy of issuing the execution program by the computing power module, different identification features (different identification features respectively corresponding to different execution units 1) can be used as the computing powerA determination assistance information of the force module. For example, read to red media (corresponding execution unit E)₁) The corresponding programming instruction issues the execution program to the execution unit E₁(ii) a And green media (corresponding execution unit E)₂) The corresponding programming instruction issues the execution program to the execution unit E₂。

In this embodiment, the update scheme for pushing the existing auxiliary materials to the user terminal 2 by the cloud server 3 may be stored in the operation and storage module 12 or the computation module, so that the execution unit 1 is convenient to switch to a specific designated matching mode of authorized auxiliary materials. If the computing and storing module 12 or the computing power module has insufficient storage space, the cloud server 3 prompts the user terminal 2 to delete part of authorized auxiliary materials or execute content coverage. Content override, i.e., deleting a certain number of authorized auxiliary materials and adding the same number of updated auxiliary materials.

Preferably, the optical identification module 11 performs interactive identification with a point on the auxiliary material 10 (such as a chessboard), and an example is that the optical identification module 11 performs interactive identification on an OID lattice on the printed matter based on an OID technology, and executes a program preset function at a specified position.

In another example, the optical recognition module 11 takes a picture of an identification code (e.g. two-dimensional code, bar code) engraved or stamped on the surface of a specific material, processes the picture, and performs a predetermined function at a specific position.

According to the invention, the execution result is fed back through the execution unit 1, so that a child user can determine the own programming result and train the closed-loop feedback logic of the child. Preferably, the execution unit 1 may be internally or externally provided with a radio frequency identification (RFID or NFC) transceiver 16, and the transceiver 16 may interact with a passive antenna in the auxiliary material 10. Specifically, the execution unit 1 reads an identification mechanism such as an RFID or NFC antenna or an OID identification point on the auxiliary material 10.

Referring to fig. 3, the squared figure in the auxiliary material 10 is respectively numbered as the ID number 001-. The ID status of the number 001-. Therefore, when the execution unit 1 is updated, the ID number, the ID status, and the reaction action corresponding to the ID number and the execution unit 1 in the auxiliary material 10 are updated.

The ID status indicates whether the execution unit 1 has passed, for example, if the execution unit 1 has no cell with the way number 001 during the completion of the current execution program, the ID status of the cell with the way number 001 is indicated as 0, and if the execution unit 1 has a cell with the way number 001, the ID status of the cell is indicated as 1. And, when the execution unit 1 passes through the cell with the number 001, the preset function is executed according to the logical mapping of the point location-action.

In the present invention, it is possible to assist in determining whether or not the execution result of the execution unit 1 corresponds to the execution program by displaying the ID status.

In the present embodiment, the auxiliary material 10 is paper or solid, and includes optical identification features and/or antennas embedded in different areas; the optical identification features are printed, stamped or engraved on the surface of the auxiliary material 10. Preferably, the solid entity is a plastic or a metal.

Referring to fig. 3, in another embodiment of the present invention, the programming product further includes a carrier 4 and an optical recognition unit 6, the carrier 4 has a specific pattern thereon, and the specific pattern is used for representing an execution command; the optical identification unit 6 comprises an image acquisition module, the image acquisition module is used for acquiring a carrier image and recording an image sequence, and the image sequence is formed by combining a plurality of specific patterns; the force calculation module carries out preprocessing on the carrier image, identifies an executive program or an executive command of an image sequence and sends the executive program or the executive command to the execution unit 1; the execution program is formed by combining a plurality of execution commands according to the sequence contained in the image sequence; the execution unit 1 completes the designated action according to the execution program or the execution command and feeds back the execution result to the user terminal 2.

Furthermore, the carrier 4 has an identifiable feature for characterizing an identification direction of the specific pattern, and the optical identification unit 6 determines the position of the specific pattern on the carrier 4 by means of the identification direction.

Preferably, referring to fig. 4 and 5, the plurality of specific patterns are respectively located on different carriers 4. At the moment, the image acquisition modules acquire carrier images one by one to form and record an image sequence. In fig. 4, the execution procedure of the image sequence characterization is as follows: go straight left-perform dance-go straight right-go straight forward first and then turn right-play music-go back backward.

Alternatively, a plurality of specific patterns are located on the same carrier 4, see fig. 6. At this time, the image acquisition module acquires the carrier image and the image sequence recorded on the carrier image.

Further, the specific figure is a figure such as an arrow, a dance man (refer to the third picture in the first column of fig. 4), a musical note, and the like. Specifically, the arrow indicates the direction in which the movement is performed, the dancing little person indicates performing dance, and the note indicates performing music playback.

Specifically, in the present embodiment, please refer to fig. 4 and fig. 6 when the carrier 4 is a paper carrier. The selection of the specific pattern can be completed in the mobile terminal or the computer webpage end, and the specific pattern is transmitted to the thermal printer 5 through the internet, the local area network or the personal area network, printed on paper and adopts the recognizable feature as shown in fig. 7.

Alternatively, as shown in fig. 5 and 8, the carrier 4 is a solid body, preferably plastic or metal. At this time, the specific pattern is punched or engraved on the surface of the carrier 4, and a feature of the carrier 4 itself may be used as an identifiable feature, preferably an asymmetric recess, for identifying the identification direction of the specific pattern.

Referring to fig. 7 and 8 in combination, the recognizable feature is composed of an identification starting point 7, a graphic window 8 and an identification window 9; the identification starting point 7 is used for determining an identification point by the force calculation module, the pattern window 8 is used for limiting the size of a specific pattern, the identification window 9 is used for limiting the identification range of the force calculation module, and the identification window 9 is larger than the pattern window 8.

The image acquisition module is preferably a camera, and the force calculation module corrects and preprocesses the carrier image according to the parameters of the camera. After the camera takes the image of the support and records the image sequence, the force calculation module executes a feature recognition algorithm in the image window 8 and the recognition starting point 7 to recognize the execution command of the representation of the support image.

Preferably, the pre-processing comprises binarization, smoothing, filtering, dynamic range compression, interpolation or contrast stretching.

The present embodiment can recognize a specific pattern on plastic, metal entity or printed matter through the optical recognition unit 6 and the force calculation module, and simultaneously transmit a corresponding execution command to a designated one or more execution units 1. In addition, through the carrier 4, the force calculation module, the execution unit 1 and the like, the multi-dimensional interaction of the execution unit 1 with the environment and the user is realized, and the lack of interaction sense and accuracy in the programming process of children is avoided; the interactivity of the child programming product is improved, and the immersive interactive experience of programming learning is provided.

In addition, referring to fig. 9, corresponding to the child programming result feedback system, the present invention provides a child programming product updating method, which includes the following steps: when the child programming product is started for the first time, sending configuration information to the cloud server 3 and the user terminal 2; the configuration information comprises product version information and product auxiliary material information; acquiring new auxiliary material information, selecting an updating scheme of point-to-action mapping logic of the auxiliary material 10, and sending an updating instruction; and receiving an updating instruction, and controlling the calculation power module, the execution unit 1 and the user terminal 2 to download and update according to the auxiliary material updating scheme.

It should be noted that, in this specification, each embodiment is described in a progressive manner, and each embodiment focuses on differences from other embodiments, and portions that are the same as and similar to each other in each embodiment may be referred to. For the apparatus embodiment, and the storage medium embodiment, since they are substantially similar to the method embodiments, the description is relatively simple, and for the relevant points, reference may be made to the partial description of the method embodiments.

Also, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

While the above description shows and describes the preferred embodiments of the present invention, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The child programming product updating system is characterized by comprising a computing power module and an execution unit, wherein the computing power module runs on a user terminal or a cloud server, and the execution unit comprises auxiliary materials;

when the child programming product is started for the first time, sending configuration information to a cloud server and a user terminal; the configuration information comprises product version information and product auxiliary material information;

the user terminal is used for acquiring new auxiliary material information, selecting an updating scheme of auxiliary material point position-action mapping logic and sending an updating instruction;

and the cloud server is used for receiving the updating instruction and controlling the calculation force module, the execution unit and the user terminal to download and update according to the updating scheme.

2. A child programming product renewal system as defined in claim 1 wherein: the method comprises the steps that new auxiliary material information is obtained, and a cloud server pushes an updating scheme of existing auxiliary materials to a user terminal;

or, the new auxiliary material information is acquired by the user.

3. A child programming product update system according to claim 2, wherein: the method comprises the steps that a user obtains new auxiliary material information by himself, a unique identification mark of an auxiliary material is identified by a user terminal, and an auxiliary material updating scheme corresponding to version information of the auxiliary material is inquired and bound from a cloud server according to the unique identification mark;

the point location-action mapping logic is the mapping relation between the position information corresponding to the identity recognition mechanism at different positions of the auxiliary material and the reaction action of the execution unit.

4. A child programming product renewal system as defined in claim 1 wherein: and after the updating scheme is updated, the user terminal becomes the authorized auxiliary material of the user terminal, and the user terminal is also used for checking all the authorized auxiliary materials of the account.

5. A child programming product update system according to claim 4, wherein: after the user terminal selects a certain authorized auxiliary material, the user terminal requires the computing power module and the execution unit to be switched to the specified matching mode of the authorized auxiliary material through wireless communication or a cloud server.

6. A child programming product update system according to claim 1, wherein: the user terminal comprises a control module and an interaction module;

the control module is used for a user to initiate and determine a programming instruction; the interaction module is used for displaying an execution result corresponding to an execution program, and the execution program is formed by combining a plurality of programming instructions.

7. A child programming product renewal system according to claim 6 wherein: the computing power module is also used for executing a characteristic identification algorithm, identifying an execution program or an execution command corresponding to the programming instruction and sending the execution program or the execution command to the execution unit; and the execution unit completes the designated action according to the execution program or the execution command and feeds back the execution result to the user terminal.

8. A child programming product renewal system as defined in claim 7 wherein: the execution unit also comprises an optical identification module, an operation and storage module, a transmission module and a multimedia module;

the optical identification module carries out interactive identification with the auxiliary material and executes a preset function at the designated position of the auxiliary material according to an execution program or an execution command; the operation and storage module processes and judges the executive program or executive command and then sends the executive program or executive command to the transmission module and/or the multimedia module; the transmission module receives an execution program or an execution command and completes corresponding designated actions; the multimedia module receives the executive program or the executive command and completes the corresponding sound, light and dynamic effects.

9. A child programming product renewal system as defined in claim 8 wherein: the auxiliary material is paper or solid entity and comprises optical identification features and/or antennas embedded in different areas;

the optical identification feature is printed, stamped or engraved on the surface of the auxiliary material.

10. A child programming product updating method, comprising the steps of:

when the child programming product is started for the first time, sending configuration information to a cloud server and a user terminal; the configuration information comprises product version information and product auxiliary material information;

acquiring new auxiliary material information, selecting an updating scheme of auxiliary material point-action mapping logic, and sending an updating instruction;

and receiving an updating instruction, and controlling the calculation force module, the execution unit and the user terminal to download and update according to the auxiliary material updating scheme.

Images