CN111158466B - AI glasses sensing interaction method, system, medium and equipment suitable for intelligent chess - Google Patents

Abstract

The application provides an AI (analog input) glasses sensing interaction method, an AI glasses sensing interaction system, an AI glasses sensing interaction medium and AI glasses sensing interaction equipment suitable for intelligent chess, comprising the following steps: identification number step: acquiring AI eyeglass number confirmation information; a chess type identification step: acquiring chess manual type confirmation information; and (3) identifying the positions of the chessmen: acquiring the chess piece position confirmation information according to the chess piece position identification information; interconnection communication step: acquiring group office pairing confirmation information according to interconnection communication control information and AI (advanced technology attachment) eyeglass number confirmation information; acquiring group office pairing control information according to the group office pairing confirmation information; and a presentation and display step: acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information and the group bureau pairing confirmation information; and acquiring presentation display control information according to the presentation display type information. The application can bring better immersion experience to users, and realize the intelligent combination of the intelligent chess and the AI glasses.

Description

AI glasses sensing interaction method, system, medium and equipment suitable for intelligent chess

Technical Field

The application relates to the field of intelligent sensing interaction, in particular to an AI (advanced technology attachment) glasses sensing interaction method, an AI glasses sensing interaction system, an AI glasses sensing interaction medium and AI glasses sensing interaction equipment suitable for intelligent chess.

Background

The existing intelligent chessboard technology is single in view of the effect of realizing, and the detection and identification of the falling positions of chesses and the guiding of LED paths of chess. For example, the intelligent chessboard displays the ion falling position and state guiding information on the chessboard through LED light, and a user realizes the falling and separating purposes of the chesses or the chesses through LED guiding. The chessboard cannot further give out more detailed specific targeted global information reminding and guiding, and more scientific specific detailed reminding and strategy guiding information cannot be obtained. Therefore, the expansion of the scene actual combat effect and wider scene application of the intelligent chess in entertainment, training and activities are restricted. When a user performs man-machine or real person fight or chess learning on a real intelligent chessboard, the intelligent chessboard provides the enhanced visual and information guiding effect which cannot be displayed by the real intelligent chessboard in the chess playing process through the AI intelligent glasses besides providing the real touch feeling and chess playing effect. The arrival of the 5G age and the day-to-day variation of AI technology bring new ideas for solving the defects of the prior art.

Patent document CN110236895a discloses AI (Artificial Intelligent) navigation glasses for blind people, said glasses comprising: the glasses frame and PCBA installed on the glasses frame. The PCBA is provided with a binocular camera, a 6-axis IMU sensor, an embedded AI processor, a voice processor, a Bluetooth/WiFi module and a mobile data transmission module. The binocular camera and the 6-axis IMU sensor collect surrounding environment video images and motion tracks, the AI navigation processor completes environment feature recognition, space matching, depth information extraction and three-dimensional reconstruction through a visual algorithm, and the blind person is helped to establish environment three-dimensional perception through voice description of the environment features. The voice description is output to the blind person through the bone conduction earphone, and the blind person wearing the glasses navigates and avoids the obstacle under the prompting of voice, so that free walking is realized. The patent is not well suited for use in AI eyeglass sensing interactions for intelligent chess.

Disclosure of Invention

Aiming at the defects in the prior art, the application aims to provide an AI (advanced technology attachment) glasses sensing interaction method, an AI glasses sensing interaction system, an AI glasses sensing interaction medium and AI glasses sensing interaction equipment suitable for intelligent chess.

The application provides an AI (analog input) glasses sensing interaction method suitable for an intelligent chess, which comprises the following steps: identification number step: acquiring AI eyeglass number confirmation information according to the AI eyeglass number parameters; a chess type identification step: acquiring chess manual type confirmation information according to the chess manual type identification information; and (3) identifying the positions of the chessmen: acquiring the chess piece position confirmation information according to the chess piece position identification information; interconnection communication step: acquiring group office pairing confirmation information according to interconnection communication control information and AI (advanced technology attachment) eyeglass number confirmation information; acquiring group office pairing control information according to the group office pairing confirmation information; and a presentation and display step: acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information and the group bureau pairing confirmation information; and acquiring presentation display control information according to the presentation display type information.

Preferably, the presenting and displaying step includes: rendering: and acquiring presentation rendering display control information according to the presentation display type information and the chess manual type confirmation information.

Preferably, the method further comprises: gesture interaction recognition: acquiring gesture instruction result information according to the gesture instruction information; the presenting and displaying step further includes: gesture function presentation display step: and acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information, the group bureau pairing confirmation information and the gesture instruction result information.

Preferably, the interconnecting communication step includes: and 5G interconnection communication step: transmitting the interconnection communication control information and the AI eyeglass number confirmation information by adopting a 5G network according to the interconnection communication control information and the AI eyeglass number confirmation information, and acquiring the group office pairing confirmation information; the presenting and displaying step includes: a reference information display step: and obtaining the display result information of the reference information according to the selection information of the reference information.

Preferably, it comprises: and an identification number module: acquiring AI eyeglass number confirmation information according to the AI eyeglass number parameters; chess type identification module: acquiring chess manual type confirmation information according to the chess manual type identification information; the chessman position identification module: acquiring chess piece position confirmation information according to chess manual type identification information; and (3) interconnecting the communication modules: acquiring group office pairing confirmation information according to interconnection communication control information and AI (advanced technology attachment) eyeglass number confirmation information; acquiring group office pairing control information according to the group office pairing confirmation information; and a presentation display module: acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information and the group bureau pairing confirmation information; and acquiring presentation display control information according to the presentation display type information.

Preferably, the presentation display module includes: and a rendering module: and acquiring presentation rendering display control information according to the presentation display type information and the chess manual type confirmation information.

Preferably, the method further comprises: gesture interaction recognition module: acquiring gesture instruction result information according to the gesture instruction information; the presentation display module further includes: gesture function presents the display module: and acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information, the group bureau pairing confirmation information and the gesture instruction result information.

Preferably, the interconnection communication module includes: 5G interconnection communication module: transmitting the interconnection communication control information and the AI eyeglass number confirmation information by adopting a 5G network according to the interconnection communication control information and the AI eyeglass number confirmation information, and acquiring the group office pairing confirmation information; the presentation display module includes: and the reference information display module is used for: and obtaining the display result information of the reference information according to the selection information of the reference information.

According to the present application, there is provided a computer-readable storage medium storing a computer program which, when executed by a processor, implements the steps of an AI glasses sensing interaction method suitable for an intelligent chess.

According to the AI glasses sensing interaction equipment suitable for intelligent chess, provided by the application, the AI glasses sensing interaction equipment comprises: a controller; the controller includes: a computer readable storage medium storing a computer program which when executed by a processor implements the steps of an AI glasses sensing interaction method suitable for an intelligent chess; alternatively, the controller includes an AI eyeglass sensory interaction system adapted for use with the intelligent chess.

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

1. the application can bring better immersion experience to users, and realize the intelligent combination of intelligent chess and AI glasses;

2. the intelligent chess has the characteristics of small volume, light weight, low cost, mature technology and stable performance;

3. the application thoroughly overturns the user experience and cognition of the intelligent chessboard, runs through the fusion of the physical chessboard chessmen in reality and the AI technology, and mutually compensates for the congenital deficiency when the physical chessboard chessmen and the AI technology are separated and independently used.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, given with reference to the accompanying drawings in which:

FIG. 1 is a schematic flow chart of the method of the present application.

Fig. 2 is a schematic view of a structural framework of the present application.

Detailed Description

The present application will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the present application, but are not intended to limit the application in any way. It should be noted that variations and modifications could be made by those skilled in the art without departing from the inventive concept. These are all within the scope of the present application.

As shown in fig. 1-2, the AI glasses sensing interaction method suitable for an intelligent chess according to the present application includes: identification number step: acquiring AI eyeglass number confirmation information according to the AI eyeglass number parameters; in the AI eyeglass sensing interaction method suitable for the intelligent chess, a plurality of AI eyeglasses are required to be paired and networked, the AI eyeglass number is an identity card of the AI eyeglasses, and in the step of identifying the number, the basic information of the AI eyeglasses is confirmed according to the AI eyeglass number. A chess type identification step: acquiring chess manual type confirmation information according to the chess manual type identification information; in the chess game type identification step, a chess manual selected by a user, such as a Chinese chess manual, a go chess manual, a gobang chess manual and the like, is judged. The AI smart glasses will learn the type of the game player through the game type identification step. And (3) identifying the positions of the chessmen: acquiring the chess piece position confirmation information according to the chess piece position identification information; the AI smart glasses will know the position of the pawn through the pawn position identification step. Interconnection communication step: acquiring group office pairing confirmation information according to interconnection communication control information and AI (advanced technology attachment) eyeglass number confirmation information; acquiring group office pairing control information according to the group office pairing confirmation information; in the interconnection communication step, information interaction among the AI glasses, between the AI glasses and the intelligent chess and between the intelligent chess is carried out. And a presentation and display step: acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information and the group bureau pairing confirmation information; and acquiring presentation display control information according to the presentation display type information. In the presenting and displaying step, the chess game, the dynamic positions of the chessmen and other reference information are displayed on the intelligent glasses.

The AI intelligent glasses are connected with the intelligent chessboard through information, and after the intelligent chessboard is connected with the cloud server through a 5G network, the data interaction between the intelligent chessboard at the front end and the AI glasses and the cloud server is realized. The server calculates, analyzes, compares, positions and generates AI data by receiving the chess playing information of the intelligent chessboard and the image acquisition information of the AI glasses, and then transmits the chess playing instruction and strategy of the next step to the intelligent chessboard and the AI glasses system and equipment in real time through a 5G network. The AI glasses carried by the user can prompt the user of the possible falling position of the opposite party, chess force analysis and other information through the window with the display characteristic, and simultaneously prompt the optimal falling position and the reference position of the corresponding chessboard. The user adopts a targeted strategy to fall on the surface of the intelligent chessboard according to the visual and audio information prompt of the AI glasses. The AI glasses locate the falling state and identify the chess attribute through the mini high-definition camera integrated on the AI glasses, and meanwhile, the intelligent chessboard synchronously and accurately identifies the information of the falling state of the chessmen on the chessboard through the detection and scanning circuit of the falling ion position of the PCB chessboard, so that the operation and decision of the next step of the system are misled due to the fact that the chessmen and the chessmen are possibly position-offset by the vision capture of the AI glasses are calibrated, and the influence on delay and game experience in the fight process is avoided.

Preferably, the presenting and displaying step includes: rendering: and acquiring presentation rendering display control information according to the presentation display type information and the chess manual type confirmation information. This step will realize displaying more humanized, more colorful chess game pictures on the intelligent glasses.

Preferably, the method further comprises: gesture interaction recognition: acquiring gesture instruction result information according to the gesture instruction information; the presenting and displaying step further includes: gesture function presentation display step: and acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information, the group bureau pairing confirmation information and the gesture instruction result information. The user can adjust AI glasses and intelligent chess utensil interaction through the gesture, and the user also can carry out various instructions through the gesture.

Preferably, the interconnecting communication step includes: and 5G interconnection communication step: transmitting the interconnection communication control information and the AI eyeglass number confirmation information by adopting a 5G network according to the interconnection communication control information and the AI eyeglass number confirmation information, and acquiring the group office pairing confirmation information; the presenting and displaying step includes: a reference information display step: and obtaining the display result information of the reference information according to the selection information of the reference information. In the AI glasses sensing interaction method for the intelligent chess, a large amount of information interaction transmission is needed, and the traditional 4G network cannot well meet requirements in terms of instantaneity, high efficiency and the like. Thus, the present application will use a 5G network as a preferred solution.

Specifically, in one embodiment, an AI glasses sensing interaction method suitable for an intelligent chess includes the following steps:

step M1: the user carries AI glasses, renders chess face fight scenes, and acquires chess face fight scene rendering information;

step M2, according to the information of the chess pieces touched by a user, switching interface selection (the visual angle of the macroscopic chess face, namely, the traditional playing visual angle, is switched to the visual angle of the chess pieces) to obtain the information of the selection result of the switching interface;

m3, rendering the view scene of the chess piece, and obtaining view rendering scene information of the chess piece;

according to chess face war scene rendering information and chess view rendering scene information, acquiring switched rendering scene information; therefore, the user can watch the chess game from the view angle of the chess pieces by touching the specific chess pieces, for example, the user selects the view angle of the general chess pieces in the Chinese chess, the user can see that the character wearing the marshal clothing is operating in the tent (the user can also switch the first view angle and the second view angle), the user selects the view angle of the chess pieces in the Chinese chess, and the user can see the scene that the minister of the clothing of the body wearing the man is the monarch.

M4, obtaining associated history story result information according to the associated history story selection information; the user can also select the associated history stories, so that the warfare at the moment can be matched with the classical warfare in history through big data analysis, and the user can more immersively experience the fun of intelligent chess playing;

step M5: acquiring switching visual information according to the information of the rotating chessmen of the user; and the user rotates the chess piece information to indicate the change of the rotation of the chess piece, and the visual angle of the virtual picture displayed by the AI glasses changes with the synchronous rotation of the chess piece.

AI glasses can also adopt intelligent wearing equipment such as VR helmet, and the feel of helmet is experienced to the user can also use intelligent finger to press from both sides. AI glasses can also find the most appropriate music for the battle at this time through big data analysis. In this process, a large amount of data transmission is required, and a 5G network is necessarily required.

Specifically, in one embodiment, an AI glasses smart chess sensory interaction system 'AI glasses' comprises: the mirror comprises a mirror bracket body, a mirror middle frame, a mirror left frame and a mirror right frame; the lens left side frame is provided with a mounting groove, the MCU central processing unit, the memory, the first wireless communication module, the mini high-definition camera and the first bone conduction earphone pronunciation unit are all arranged in the mounting groove, and the camera faces to the parallel direction observed by a user. The mirror right frame is provided with a mounting groove, and the display module, the second bone conduction earphone pronunciation unit, the audio acquisition module, the biological sensing acquisition module and the power module are all arranged in the mounting groove.

The left frame of the AI glasses intelligent chess sensory interaction system is provided with a mounting groove 'first wireless communication module', and the first wireless communication module comprises; bluetooth module or WIFI module (short for module A) and 5G mobile interconnection communication module (short for module B)

The intelligent chess set sensing interaction system is characterized in that a left frame of the intelligent chess set sensing interaction system for the AI glasses is provided with a mounting groove 'module A', the module A is connected with a wireless data receiving and transmitting interface on an intelligent chessboard body, the intelligent chessboard is connected with the AI glasses through connection, real-time interaction of multiple information of the intelligent chessboard and the AI glasses is achieved, and therefore real-time comprehensive information exchange and interaction of the intelligent chessboard, the AI glasses and users are achieved.

The intelligent chess set sensing interaction system is characterized in that a left frame of the intelligent chess set sensing interaction system of the AI glasses is provided with a mounting groove 'module B', the module B is connected with a 5G mobile data network, and multiple information real-time interaction of the intelligent chessboard, the AI glasses and the cloud server is realized through connection, so that real-time comprehensive information exchange and interaction of the intelligent chessboard, the AI glasses, a user and the cloud server are achieved.

A "mini high definition digtal camera" for AI glasses of control, the parallel direction that is used for the control shines towards the user and observes.

The 'display module' of the AI glasses for monitoring is characterized in that the display module comprises; the AR/VR device comprises an AR/VR core processor, an AI engine, a display window, a multi-point gesture control module, an accelerometer and a USB interface device.

The AR/VR core processor of the AI glasses for monitoring adopts more than four cores, the highest main frequency is 1.7GHz, and 3GB of operation and storage can be supported.

In the "AI engine" of the AI glasses for monitoring, the AI engine can provide support for knowledge, motion prediction, etc. for the following artificial intelligence assistant.

In the display window of the AI glasses for monitoring, the display window provides more than 640 multiplied by 360 resolution, and the camera part is provided with 800 ten thousand pixel lenses, so as to provide a shooting view field with a maximum 80-degree wide angle.

In the gesture control module of the AI glasses for monitoring, the multi-point gesture control module can convert different actions of a human hand into signal instructions.

In the "accelerometer" of the AI glasses for monitoring, the accelerometer can generate different control signals and instructions along with the up-down and left-right shaking of the head of a user, and keep real-time information interaction with a person.

In the "accelerometer" of the AI glasses for monitoring, the USB interface device is mainly an interface for providing charging for the AI glasses and an interface for wired interaction of external information.

Specifically, in one embodiment, AI glasses may also employ VR helmets, employing VR ordering functionality to provide customers with another way of playing in wear-out time. For the material production of the VR scene, the panoramic shooting of the scene 360 can be realized, and the real person introduces dishes one by one. Namely; after a customer enters a virtual reality scene, the customer can see a dish display and display table in the virtual scene, an electronic mouse fixed trigger point is arranged in the VR glasses, and when the customer locks vision on any dish, the electronic mouse trigger point stays on the interested dish for about 2 seconds, a multiple selection menu is unfolded on the VR screen. The real 3D dish comprises audio and video scenes introduced by a real person and real 3D dishes and other detailed audio and video information. For the material production of the VR scene, the virtual fictive gorgeous scene can be also adopted, and in the virtual gorgeous 3D scene, all the ordering steps are completed. VR and the intelligent chess table exist in an interactive relationship, namely; the selection, up, down, left, right, front, back, left and right angle changes of the virtual scene can be realized on the function keys of the intelligent chess table so as to supplement the electronic cursor selection function of the VR helmet. A handheld device is configured corresponding to a VR helmet, so that the virtual world function interaction is completed.

With the popularization of 5G networks, because the VR technology cannot compress, the displayed frames are all main frames, so the requirement on a large-bandwidth low-delay network is very high, in order to further integrate the application of the VR technology on a chess table, in addition, the chess table is provided with the 5G network and the function key characteristics, and further feasibility is obtained by integrating VR and meeting the video transmission of the VR technology. The application of the 5G technology can realize cloud platform, realize online real-time interaction of a plurality of networks and better display the technical expansion application of VR. The application integrates VR technology, has dish ordering function, provides other interaction method of single or multi-user network on-line VR small game for customers, and has better application prospect. Thus, in the patent design, the ordering of VR and VR games should be designed and presented as emphasis. The organic combination of VR + intelligent chess table will further promote the value application of intelligent chess table.

According to the application, the AI glasses sensing interaction system suitable for the intelligent chess comprises: and an identification number module: acquiring AI eyeglass number confirmation information according to the AI eyeglass number parameters; chess type identification module: acquiring chess manual type confirmation information according to the chess manual type identification information; the chessman position identification module: acquiring chess piece position confirmation information according to chess manual type identification information; and (3) interconnecting the communication modules: acquiring group office pairing confirmation information according to interconnection communication control information and AI (advanced technology attachment) eyeglass number confirmation information; acquiring group office pairing control information according to the group office pairing confirmation information; and a presentation display module: acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information and the group bureau pairing confirmation information; and acquiring presentation display control information according to the presentation display type information.

Preferably, the presentation display module includes: and a rendering module: and acquiring presentation rendering display control information according to the presentation display type information and the chess manual type confirmation information.

Preferably, the method further comprises: gesture interaction recognition module: acquiring gesture instruction result information according to the gesture instruction information; the presentation display module further includes: gesture function presents the display module: and acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information, the group bureau pairing confirmation information and the gesture instruction result information.

Preferably, the interconnection communication module includes: 5G interconnection communication module: transmitting the interconnection communication control information and the AI eyeglass number confirmation information by adopting a 5G network according to the interconnection communication control information and the AI eyeglass number confirmation information, and acquiring the group office pairing confirmation information; the presentation display module includes: and the reference information display module is used for: and obtaining the display result information of the reference information according to the selection information of the reference information.

Specifically, in one embodiment, the AI glasses sensing interaction system suitable for the intelligent chess adopts an AI glasses unit and an intelligent chess unit; the AI eyeglass unit includes: the intelligent unit installation groove, the wireless communication unit, the 5G mobile communication unit, the display unit and the camera unit; the intelligent unit mounting groove is arranged on any side or any multiple sides of the AI glasses unit; the wireless communication unit, the 5G mobile communication unit, the display unit and the camera unit are arranged in the intelligent unit mounting groove.

The wireless communication unit is connected with a wireless data receiving and transmitting interface on the intelligent chess unit; the intelligent chessboard and the AI glasses are connected through the connection, so that the real-time interaction of multiple information of the intelligent chessboard and the AI glasses is realized, and the real-time comprehensive information exchange and interaction of the intelligent chessboard, the AI glasses and the user are realized; the 5G mobile communication unit is connected with a 5G mobile data network, and multiple information real-time interaction of the intelligent chessboard, the AI glasses and the cloud server is realized through connection, so that real-time comprehensive information exchange and interaction of the intelligent chessboard, the AI glasses, the user and the cloud server are realized; the camera unit irradiates towards a parallel direction observed by a user; the display unit includes: the device comprises an AR/VR core processor, a gesture control unit, an accelerometer unit, an AI engine unit, a display window unit and a USB interface unit; the AR/VR core processor is configured by more than four cores, and the main frequency of the AR/VR core processor is less than or equal to 1.7GHz; the AI engine unit can provide object recognition support and action prediction support; the display window unit adopts 800 ten thousand pixel lenses to provide a shooting visual field with a maximum 80-degree wide angle; the gesture control unit can convert different actions of a human hand into signal instructions; the accelerometer unit can generate different control signals and instructions along with the up-down and left-right shaking of the head of a user, and can keep real-time information interaction with a person; the USB interface device can provide a charged interface for the AI glasses and perform wired information interaction to the outside.

Specifically, in one embodiment, an "intelligent chessboard" of an AI eyeglass intelligent chess sensory interaction system comprises: the system comprises a sensing interaction integrated circuit unit, a path display unit and a sensing trigger unit; the sensor interaction integrated circuit unit comprises: the PCB integrated circuit comprises a PCB integrated circuit main board, circuit contacts, an MCU control chip and a communication unit; the circuit contact, the MCU control chip and the communication unit are fixed on the PCB integrated circuit main board; the path display unit and the sensing trigger unit are connected with the MCU control chip; the communication unit is connected with the upper computer unit; the circuit contacts are arranged on the bottom surface of the PCB integrated circuit main board; the circuit contacts employ one or more adjacent but unconnected wire contacts. A hall element of the photoresistor type is present on the surface of the PCB, namely: the PCB bottom contact is arranged, position information can be triggered through the photoresistor Hall element, and in addition, the contact and the Hall element are designed to double confirm the position, so that 100% of accuracy can be achieved in any environment. The intelligent chess has the characteristics of small size, light weight, low cost, mature technology and stable performance.

Specifically, in one embodiment, a "cloud server" of an AI eyeglass smart chess sensory interaction system includes; AI engine, database. The AI engine is a set of software carrier based on artificial intelligent neural network, and is a software architecture with calculation, analysis, comparison, positioning, decision making and generation characteristics. The database is a chess manual for storing massive information, a chess manual for memorizing self-learning by a computer, and a chess manual for memorizing human-to-human combat in reality, which stores data quantity and waits for the AI engine to call and learn at any time.

According to the computer medium provided by the application, the computer program realizes the steps of the AI glasses sensing interaction method suitable for the intelligent chess when being executed by the processor.

According to the AI glasses sensing interaction equipment suitable for intelligent chess, provided by the application, the AI glasses sensing interaction equipment comprises: a controller; the controller includes: a computer readable storage medium storing a computer program which when executed by a processor implements the steps of an AI glasses sensing interaction method suitable for an intelligent chess; alternatively, the controller includes an AI eyeglass sensory interaction system adapted for use with the intelligent chess.

The application thoroughly overturns the user experience and cognition of the intelligent chessboard, runs through the fusion of the physical chessboard chessmen in reality and the AI technology, and mutually compensates for the congenital deficiency when the two chessmen are separated and independently used. For example; the AI intelligent glasses can be realized on a common chessboard without electronic informatization function without an intelligent chessboard, but because the physical chessboard cannot give out the accurate coordinates of the AI glasses, the full process of the chess game is realized by totally relying on AI vision capture, the difficulty of technical operation is higher, because the chessmen on the chessboard and the users are living bodies, the problems of height, sitting posture and overmovement of the users are additionally added, the angle and the direction of the surface of the chessboard are continuously changed, and the positioning accuracy, the instantaneity and the working operation pressure of AI vision are caused to cause serious technical barriers, so that the misjudgment and confusion of a computer system are easier to cause.

In summary, the application provides the collocation use of the intelligent chessboard and the AI glasses, in particular provides hundred percent of coordinate precision for the precise positioning of the AI glasses, and not only provides a reference basis for the precise position of the AI glasses, but also ensures that the AI glasses continuously optimize the visual precise position precision of the binding user through a self-learning method so as to facilitate the user to obtain a good and acceptable AI fight effect even if the common chessboard without electronic informatization function is adopted when the user is separated from the intelligent chessboard. The intelligent chess game system is greatly convenient for users to rely on the intelligent chessboard, and the fight effect of the AI chess game can be achieved only by carrying the AI glasses when the users go out. Meanwhile, the proposal of the AI glasses particularly aims at the chess education field, greatly expands the application based on the combination of the entity chessboard and the AI glasses, and has milestone significance for the chess training field.

The application can bring better immersion experience to users, and realize the intelligent combination of intelligent chess and AI glasses; the intelligent chess has the characteristics of small size, light weight, low cost, mature technology and stable performance.

Those skilled in the art will appreciate that the application provides a system and its individual devices, modules, units, etc. that can be implemented entirely by logic programming of method steps, in addition to being implemented as pure computer readable program code, in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers, etc. Therefore, the system and various devices, modules and units thereof provided by the application can be regarded as a hardware component, and the devices, modules and units for realizing various functions included in the system can also be regarded as structures in the hardware component; means, modules, and units for implementing the various functions may also be considered as either software modules for implementing the methods or structures within hardware components.

The foregoing describes specific embodiments of the present application. It is to be understood that the application is not limited to the particular embodiments described above, and that various changes or modifications may be made by those skilled in the art within the scope of the appended claims without affecting the spirit of the application. The embodiments of the application and the features of the embodiments may be combined with each other arbitrarily without conflict.

Claims (6)

1. An AI glasses sensing interaction method suitable for intelligent chess is characterized by comprising the following steps:

identification number step: acquiring AI eyeglass number confirmation information according to the AI eyeglass number parameters;

a chess type identification step: acquiring chess manual type confirmation information according to the chess manual type identification information;

and (3) identifying the positions of the chessmen: acquiring the chess piece position confirmation information according to the chess piece position identification information;

interconnection communication step: acquiring group office pairing confirmation information according to interconnection communication control information and AI (advanced technology attachment) eyeglass number confirmation information;

acquiring group office pairing control information according to the group office pairing confirmation information;

and a presentation and display step: acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information and the group bureau pairing confirmation information;

acquiring presentation display control information according to the presentation display type information;

the presenting and displaying step includes:

rendering: acquiring presentation rendering display control information according to presentation display type information and chess manual type confirmation information;

the interconnection communication step comprises the following steps:

and 5G interconnection communication step: transmitting the interconnection communication control information and the AI eyeglass number confirmation information by adopting a 5G network according to the interconnection communication control information and the AI eyeglass number confirmation information, and acquiring the group office pairing confirmation information;

the presenting and displaying step includes:

a reference information display step: acquiring reference information display result information according to the reference information selection information;

the AI glasses include: the mirror comprises a mirror bracket body, a mirror middle frame, a mirror left frame and a mirror right frame; the lens left frame is provided with an installation groove, the MCU central processing unit, the memory, the first wireless communication module, the mini high-definition camera and the first bone conduction earphone pronunciation unit are all arranged in the installation groove, and the camera faces to the parallel direction observed by a user; the mirror right frame is provided with a mounting groove, and the display module, the second bone conduction earphone pronunciation unit, the audio acquisition module, the biological sensing acquisition module and the power supply module are all arranged in the mounting groove;

the first wireless communication module comprises a Bluetooth module or a WIFI module, which is marked as a module A, and a 5G mobile interconnection communication module is marked as a module B;

the module A is connected with a wireless data receiving and transmitting interface on the intelligent chessboard body, and the intelligent chessboard is connected with the AI glasses through the connection, so that the real-time interaction of multiple information of the intelligent chessboard and the AI glasses is realized, and the real-time comprehensive information exchange and interaction of the intelligent chessboard, the AI glasses and the users are realized;

the module B is connected with the 5G mobile data network, and the multiple information real-time interaction of the intelligent chessboard, the AI glasses and the cloud server is realized through connection, so that the real-time comprehensive information exchange and interaction of the intelligent chessboard, the AI glasses, the user and the cloud server are realized;

the mini high-definition camera of the AI glasses for monitoring irradiates towards the parallel direction observed by the user;

the display module comprises an AR/VR core processor, an AI engine, a display window, a multi-point gesture control module, an accelerometer and a USB interface device;

the AR/VR core processor of the AI glasses for monitoring adopts more than four cores to configure, the highest main frequency is 1.7GHz, and 3GB of operation and storage can be supported;

in the AI engine of the AI glasses used for monitoring, the AI engine can provide knowledge and action prediction support for the following artificial intelligent assistant;

in the display window of the AI glasses for monitoring, the display window provides more than 640 multiplied by 360 resolution, and the camera part is provided with 800 ten thousand pixel lenses, so as to provide a shooting view field with a maximum 80-degree wide angle;

in the gesture control module of the AI glasses for monitoring, the multi-point gesture control module can convert different actions of a human hand into signal instructions;

in the accelerometer of the AI glasses for monitoring, the accelerometer can generate different control signals and instructions along with the up-down and left-right shaking of the head of a user, and keep real-time information interaction with people;

in the accelerometer of the AI glasses for monitoring, the USB interface device is mainly used for providing a charging interface for the AI glasses and an interface for wired interaction of external information;

the interaction method specifically comprises the following steps:

step M1: the user carries AI glasses, renders chess face fight scenes, and acquires chess face fight scene rendering information;

m2, selecting a switching interface according to the information of the chessman touched by the user, and acquiring selection result information of the switching interface;

m3, rendering the view scene of the chess piece, and obtaining view rendering scene information of the chess piece;

according to chess face war scene rendering information and chess view rendering scene information, acquiring switched rendering scene information; thus, the user can watch the chess game from the view angle of the chess pieces by touching the specific chess pieces;

m4, obtaining associated history story result information according to the associated history story selection information; the user can also select the associated history stories, so that the warfare at the moment can be matched with the classical warfare in history through big data analysis, and the user can more immersively experience the fun of intelligent chess playing;

step M5: acquiring switching visual information according to the information of the rotating chessmen of the user; and the user rotates the chess piece information to indicate the change of the rotation of the chess piece, and the visual angle of the virtual picture displayed by the AI glasses changes with the synchronous rotation of the chess piece.

2. The AI eyeglass sensing interaction method for intelligent chess according to claim 1, further comprising: gesture interaction recognition: acquiring gesture instruction result information according to the gesture instruction information;

the presenting and displaying step further includes:

gesture function presentation display step: and acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information, the group bureau pairing confirmation information and the gesture instruction result information.

3. An interactive system using the AI glasses sensing interactive method for intelligent chess as claimed in claim 1, comprising:

and an identification number module: acquiring AI eyeglass number confirmation information according to the AI eyeglass number parameters;

chess type identification module: acquiring chess manual type confirmation information according to the chess manual type identification information;

the chessman position identification module: acquiring chess piece position confirmation information according to chess manual type identification information;

and (3) interconnecting the communication modules: acquiring group office pairing confirmation information according to interconnection communication control information and AI (advanced technology attachment) eyeglass number confirmation information;

acquiring group office pairing control information according to the group office pairing confirmation information;

and a presentation display module: acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information and the group bureau pairing confirmation information;

acquiring presentation display control information according to the presentation display type information;

the presentation display module includes:

and a rendering module: acquiring presentation rendering display control information according to presentation display type information and chess manual type confirmation information;

the interconnection communication module comprises:

5G interconnection communication module: transmitting the interconnection communication control information and the AI eyeglass number confirmation information by adopting a 5G network according to the interconnection communication control information and the AI eyeglass number confirmation information, and acquiring the group office pairing confirmation information;

the presentation display module includes:

and the reference information display module is used for: and obtaining the display result information of the reference information according to the selection information of the reference information.

4. An interactive system according to claim 3, further comprising: gesture interaction recognition module: acquiring gesture instruction result information according to the gesture instruction information;

the presentation display module further includes:

gesture function presents the display module: and acquiring display type information according to the AI eyeglass number confirmation information, the chess manual type confirmation information, the chess piece position confirmation information, the group bureau pairing confirmation information and the gesture instruction result information.

5. A computer readable storage medium storing a computer program, wherein the computer program when executed by a processor implements the steps of the AI glasses sensing interaction method for intelligent chess of any of claims 1-2.

6. AI glasses sensing interaction device suitable for intelligent chess utensil, its characterized in that includes: a controller;

the controller comprising the computer readable storage medium of claim 5 storing a computer program which, when executed by a processor, implements the steps of the AI spectacle sensory interaction method of any one of claims 1 to 2 for a smart chess; alternatively, the controller comprises the interaction system of any of claims 3 to 4.