阅读说明：本技术 一种人机互动式游戏系统 (Man-machine interactive game system ) 是由 林岸腾 王国彪 赖建辉 莫永安 孙悦 于 2020-06-30 设计创作，主要内容包括：一种人机互动式游戏系统,包括了数字信号产生机构、数字信号传输通道、计算机、软件以及图像显示机构,所述数字信号产生机构通过人体运动产生数字信号,所述软件设置在计算机中,所述数字信号通过数字信号传输通道发送给软件,所述软件包含有数据转换模块,所述数据转换模块按照一定的规则将接收到的数字信号转化成整型数值,其特征在于,在所述软件中还设置有图像帧模块和数据比较模块,通过所述数据比较模块将所述数据转换模块转化成整型数值与所述图像帧模块中图像帧的数值按照一定的规则进行比较之后,所述图像帧在所述图像显示机构上显示时,所述图像帧根据所述图像显示信号的变化而发生外形尺寸变化。(A man-machine interactive game system comprises a digital signal generating mechanism, a digital signal transmission channel, a computer, software and an image display mechanism, the digital signal generating mechanism generates digital signals through human body movement, the software is arranged in a computer, the digital signal is transmitted to software through a digital signal transmission channel, the software comprises a data conversion module, the data conversion module converts the received digital signal into an integer value according to a certain rule, it is characterized in that the software is also provided with an image frame module and a data comparison module, after the data conversion module is converted into integer numerical values by the data comparison module and the numerical values of the image frames in the image frame module are compared according to a certain rule, when the image frame is displayed on the image display mechanism, the image frame changes in external dimension according to the change of the image display signal.)

1. A man-machine interactive game system comprises a digital signal generating mechanism, a digital signal transmission channel, a computer, software and an image display mechanism, wherein the digital signal generating mechanism generates digital signals through human body movement, the software is arranged in the computer, the digital signals are sent to the software through the digital signal transmission channel, the software comprises a data conversion module, the data conversion module converts the received digital signals into integer values according to a certain rule, and the man-machine interactive game system is characterized in that an image frame module and a data comparison module are also arranged in the software, the data comparison module compares the integer values converted by the data conversion module with the values of the image frames in the image frame module according to a certain rule, and then the data comparison module generates image display signals according to a certain rule, when the image frame is displayed on the image display mechanism, the image frame changes in external dimension according to the change of the image display signal.

2. The human-machine interactive game system as claimed in claim 1, wherein the digital signal generated by the digital signal generating means through human body motion is hexadecimal and is 00000000, 00000001, 00000002, 00000003, 00000004, 00000005, 00000006, 00000007, 00000008, 00000009, 00000010.

3. The human-machine interactive game system as claimed in claim 1, wherein the digital signal generating mechanism comprises a cylindrical cylinder, a piston reciprocating in the cylinder, an air outlet at the bottom of the cylinder, a magnetic member at or near the bottom of the piston, and a magnetic sensor at one end of the air outlet, wherein when the piston moves from top to bottom, the magnetic member on the piston can trigger the magnetic sensor at the bottom of the cylinder, and the magnetic sensor generates a signal for controlling the game by sensing the triggering of the magnetic member.

4. The human-machine interactive game system as claimed in claim 3, wherein the magnetic sensor is provided with a magnetic float, a hollow guide rod, and a reed switch installed in the hollow guide rod, two ends of the hollow guide rod are provided with a position limiting device, two metal reeds are installed inside the magnetic float, the magnetic float can slide up and down along the hollow guide rod, when the piston moves from top to bottom to trigger the magnetic sensor, the magnetic float slides up to the position of the reed switch along the hollow guide rod under the action of magnetic force adsorption, and the metal reeds inside the magnetic float are in contact with and electrically connected to the reed switch to realize the internal conduction of the magnetic sensor, thereby generating a signal for controlling the game.

5. The human-machine interactive game system as claimed in claim 4, wherein the limiting device comprises an upper limiting part and a lower limiting part, the upper and lower limiting parts are used for blocking the magnetic floater to prevent the magnetic floater from sliding off the hollow guide rod.

6. The human-machine interactive game system as claimed in claim 1, wherein the digital signal transmission channel is a data line or an integrated circuit or an electrical signal.

7. The human-computer interactive game system as claimed in claim 1, wherein the image display mechanism is a computer monitor or a projection screen or an LED display screen.

8. The human-computer interactive game system as claimed in claim 1, wherein the data conversion module converts the received digital signal into integer values according to a rule that hexadecimal numbers are converted into decimal numbers.

9. The system as claimed in claim 1, wherein the integer value converted by the data conversion module is compared with the value of the image frame in the image frame module according to a certain rule, wherein the certain rule is that the integer value is compared with the value of the x-axis of the image frame, if the integer value is greater than the value of the x-axis of the image frame, the value of the x-axis of the image frame is increased by a predetermined value, and gradually increased to be equal to the integer value, and then increased values of the y-axis and the z-axis of the image frame are increased to be equal to the value of the x-axis, and then the computer sends the increased value of the image frame to the image display mechanism, if the integer value is less than or equal to the value of the x-axis of the image frame, the values of the x coordinate axis, the y coordinate axis, and the z coordinate axis of the image frame are not changed, and the computer does not send the increased values of the image frame to the image display mechanism.

10. The system as claimed in claim 9, wherein the software further comprises a video module, and when the digital signal generated by the digital signal generating means is 00000005, 00000010, the video module transmits the sequence of image frames or video to the image display means via the computer, and the image display means displays the sequence of image frames or video.

Technical Field

The invention belongs to the field of game control systems, and particularly relates to a man-machine interaction game system.

Background

At present, games in the market adopt mouse, gamepad and keyboard operation games, the games have higher requirements on the operation level of a computer for players, have higher operation difficulty, are not suitable for children, teenagers and middle-aged and elderly people, have stronger addiction, and a plurality of game players are easy to drown in the games and are not beneficial to the physical and mental health of the players. In addition, most of the existing games can only be used indoors, are not suitable for the outdoor environment, and have strict requirements on the operating environment.

The invention discloses a man-machine interactive game system, and aims to provide a game system which simulates the inflating of an inflator and is suitable for players of all ages. This game system has the following features: 1. the game system is simple to operate but has strong interest, the game system adopts equipment similar to an inflator shape to operate the game, the game can be operated only by continuously inflating, the inflating times and speeds correspond to the game effect one by one, the operation is very simple, and the pump is adopted to operate the game, so that the game has higher interest; 2. the game is not limited by the environment when in use, can be used indoors or outdoors, such as in open-air places like parks, amusement parks and squares, and is a game system with extremely strong environment adaptability; 3. the game is suitable for players of all ages, is simple to operate, is suitable for both the old and the young, has no operational obstacle, and can be operated only by paying physical strength. 4. The inflator is beneficial to physical and psychological health, a player needs to constantly make vertical reciprocating motion for the piston of the inflator, more physical power is needed, and the inflator is more beneficial to physical health compared with an indoor game.

Disclosure of Invention

The invention aims to provide a man-machine interactive game system, which solves the defects and shortcomings in the prior art, and comprises a digital signal generating mechanism, a digital signal transmission channel, a computer, software and an image display mechanism, wherein the digital signal generating mechanism generates a digital signal through human body movement, the software is arranged in the computer, the digital signal is sent to the software through the digital signal transmission channel, the software comprises a data conversion module, the data conversion module converts the received digital signal into an integer value according to a certain rule, the software is also provided with an image frame module and a data comparison module, the data conversion module converts the integer value into the integer value through the data comparison module and compares the integer value with the value of an image frame in the image frame module according to a certain rule, the data comparison module generates an image display signal according to a certain rule, when the image frame is displayed on the image display mechanism, the image frame changes in external dimensions according to changes in the image display signal.

The technical scheme has the beneficial technical effects that: 1. the technical scheme inputs the result of human body movement, outputs the change of the image frame outline dimension, and corresponds the human body movement state and the image outline dimension one to one, thereby realizing very high human-computer interaction technical effect; 2. the technical scheme operates the game through human body movement, is simple to operate, has strong interestingness and is beneficial to physical and mental health. 3. The technical scheme can be directly realized and used outdoors, and the use environment requirement is reduced.

Drawings

FIG. 1 is a flowchart of the operation of the human-computer interaction system of the present invention.

FIG. 2 is a schematic diagram of the operation of the human-computer interaction system of the present invention

Fig. 3a is a state diagram of the magnetic sensor of the present invention when it is on.

Fig. 3b is a state diagram of the magnetic sensor of the present invention when it is turned off.

Fig. 4 is a cross-sectional view of the digital signal generating mechanism.

In the figure, 1 cylinder, 2 piston, 21 magnetic part, 3 magnetic sensor, 31 magnetic floater, 311 metal reed, 32 hollow guide rod, 33 reed switch, 341 upper limit part, 342 lower limit part, 4 lead, 5 handle, 6 image display mechanism, 7 computer, 8 digital signal generating mechanism, 9 image frame, 10 digital signal transmission channel, 101 digital signal transmission channel, 11 air outlet, 12 software.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. Referring to fig. 1-2, the present invention provides a human-machine interactive game system, which includes a digital signal generating mechanism 8, a digital signal transmission channel 10, a computer 7, a software 12 and an image display mechanism 6, wherein the software 12 is disposed in the computer 7, the digital signal generating mechanism 8 can be a device similar to an inflator or other devices capable of generating the same effect, a human body can generate a digital signal by inflating the inflator by simulating the operation of the inflator, and the image frame 9 is caused to generate the effect of changing the shape and size when displayed on the image display mechanism 6, and the working process of the system is as follows:

when the game is operated by human body, the inflator is inflated, at the moment, the digital signal generating mechanism 8 (namely the inflator) generates digital signals due to the motion of the human body, the digital signal is transmitted to software through a digital signal transmission channel 10, the software 12 further comprises a data conversion module, the data conversion module in the software 12 converts the received digital signal into an integer value according to a certain rule, the software 12 is further provided with an image frame module and a data comparison module, the data comparison module is used for comparing the integer value converted by the data conversion module with the value of the image frame 9 in the image frame module according to a certain rule, and then generates an image display signal according to a certain rule, when the image frame 9 is displayed on the image display unit 6 in this way, the image frame 9 changes in outer dimensions in accordance with a change in the image display signal. The specific variation rules are as follows: for example, the image frame 9 is a shark image, the size of which is compared with the integer value converted from the digital signal generated by the pump, and the comparison results are two:

1. the value of the shark image is larger than or equal to the integer value, the software does not adjust the value of the shark image according to the comparison result, and the overall dimension of the shark image is not changed on the image display mechanism 6;

2. the shark size is smaller than the integer value, and the software increases the shark size of the image until the shark size is equal to the integer value based on the comparison result, and the external dimension of the shark size is correspondingly increased and changed on the image display mechanism 6. The value of the shark image can be increased according to a value preset by the system, for example, the system can be preset to increase by 0.015 in each frame time, so that the shark image has a growing effect when displayed on the display mechanism.

The beneficial effects of the above technical scheme are that: 1. the game system is operated by simulating the mode of inflating the inflator and generates corresponding game effects, so that the operation is very simple, the interestingness is high, and the game system is suitable for groups of all ages; 2. the game is operated in a human body movement mode, which is beneficial to the physical and mental health of game players; 3. the game system can be used outdoors, is not limited by the field, and is convenient to install.

In the interactive game system, the digital signal generating means 8 can select different signal generating components and generate corresponding numerical values according to the characteristics of the signal generating components, and in the game system, the digital signal generated by the digital signal generating means 8 through the human body movement is hexadecimal numerical values and is 000000000000, 00000001, 00000002, 00000003, 00000004, 00000005, 00000006, 00000007, 00000008, 00000009 or 00000010.

Referring to fig. 3-4, the digital signal generating mechanism of the present invention will be further described in detail. The digital signal generating mechanism is similar to an inflator in overall appearance and comprises a cylindrical cylinder body 1 and a piston 2 capable of reciprocating in the cylinder body, wherein an air outlet 11 is formed in the bottom of the cylinder body 1, a magnetic component 21 is arranged at the bottom of the piston 2 or close to the bottom of the piston, a magnetic sensor 3 is arranged at one end of the air outlet 11, when the piston 2 moves from top to bottom, the magnetic component 21 on the piston 2 can trigger the magnetic sensor 3 at the bottom of the cylinder body 1, and the magnetic sensor 3 can generate a signal for controlling a game by sensing the trigger frequency of the magnetic component 21.

The magnetic sensor 3 is internally provided with a magnetic floater 31, a hollow guide rod 32, a reed switch 33 arranged in the hollow guide rod 32 and limiting devices at two ends of the hollow guide rod 32, two metal reeds 311 are arranged in the magnetic floater 31, when the piston 2 moves from top to bottom to trigger the magnetic sensor 3, under the action of magnetic force adsorption, the magnetic floater 31 upwards slides to the position of the reed switch 33 along the hollow guide rod 32, and the metal reeds 33 in the magnetic floater 31 can be in contact with and electrically connected with the reed switch 33 at the moment, so that the internal conduction of the magnetic sensor is realized, and a signal for controlling games is generated. The limiting device includes an upper limiting portion 341 and a lower limiting portion 342, and the upper limiting portion 341 and the lower limiting portion 341 are used for blocking the magnetic float 31 and preventing the magnetic float 31 from sliding off the hollow guide rod 32.

The limiting device comprises an upper limiting part and a lower limiting part, wherein the upper limiting part and the lower limiting part are used for clamping the magnetic floater to prevent the magnetic floater from sliding away from the hollow guide rod.

In this system, in order to implement signal transmission, the digital signal transmission channel 10 for transmitting digital signals is a data line or an integrated circuit or an electrical signal, and in specific implementation, signal transmission modes such as WIFI, bluetooth, and a signal line can be adopted for transmission.

The game system will produce image display effect, and the image display mechanism 6 can adopt a computer display or a projection screen or an LED display screen.

When data conversion is performed, the data conversion module in the software 12 converts the received digital signal into an integer value according to a certain rule, where the certain rule is a rule of converting a hexadecimal number into a decimal number. The beneficial effects of the technical method are as follows: conversion to decimal is more convenient to compare the signal value generated by the signal generating mechanism with the image frame 9 value, and is more data statistical to the use habit of people.

In the game process, the most core part of the game system is the comparison of numerical values, the integer numerical value converted by the data conversion module in the software 12 is compared with the numerical value of the image frame 9 in the image frame module according to a certain rule, wherein the certain rule is to compare the integer numerical value with the numerical value of the x coordinate axis of the image frame 9, and the comparison result is that the numerical value of the x coordinate axis of the image frame 9 is equal to or not changed from the integer numerical value, which is specifically as follows:

1. if the integer value is larger than the value of the x coordinate axis of the image frame 9, the value of the x coordinate axis of the image frame 9 is increased by taking a preset value as an increment, the increment is stopped when the value is gradually increased to be equal to the integer value, meanwhile, the values of the y coordinate axis and the z coordinate axis of the image frame 9 are also increased to be equal to the value of the x coordinate axis, then, the computer 7 sends the increased value of the image frame 9 to the image display mechanism 6 through a digital signal transmission channel 101, and the image display mechanism 6 displays an effect that the external dimension of the image frame 9 is gradually increased;

2. if the integer value is less than or equal to the image frame x coordinate value, the values of the x coordinate axis, the y coordinate axis and the z coordinate axis of the image frame 9 are not changed, the computer 7 does not send the increased image frame 9 value to the image display mechanism 6, and the image display mechanism 6 displays an image frame with the effect that the overall dimension of the image frame is not changed. The preset value can be freely set, the value determines the display effect on the image display mechanism 6, the smaller the value is, the slower the image growth speed is, and the larger the value is, the faster the image growth speed is. In this system, the preset value may be set to 0.015.

The beneficial technical effects of the technical scheme are as follows: through a comparison algorithm in software, digital signals generated by human body movement are converted into signals for controlling game operation, and control effect pictures of the game are displayed, so that the game playing method has high interactivity and interestingness.

In order to increase the interest of the game system, the game system can play an image frame sequence or a video sequence during the game process to provide a surprise for a game player, the software of the game system also comprises a video module, when the game player operates the game (inflates the inflator), and the digital signal generated by the digital signal generating mechanism 8 is 00000005 or 00000010, the video module sends the sequence image frame or video to the image display mechanism 6 through the computer 7, and the image display mechanism 6 displays the sequence image frame or video, so that the interest of the game is increased. The signal value of the image frame or video in which the sequence appears can be freely set, and can be arbitrarily set in 00000000 to 0000000010.

The digital signal generating mechanism 6 can also generate a digital signal through a pulse counter, and the pulse counter can receive instruction parameters from software in real time and return the numerical value in the pulse counter or execute zero clearing operation. There are many devices capable of generating digital signals, and the pulse counter is only one of them, and different signal generating devices can be selected according to actual needs.

In order to obtain the value in the pulse counter, the software sends the instruction parameter for obtaining the value to the pulse counter every sixty-one-tenth second, the instruction parameter for obtaining the value is 010300000002C 40B, and after receiving the instruction parameter for obtaining the value, the pulse counter sends the digital signal value generated by the pulse counter to the software 12. The time for the software 12 to send the instruction parameters to the pulse counter can be freely set or can be set to one hundredth of a second, in the game system, sixty one second actually belongs to the situation of acquiring numerical values in real time, and the real-time performance in the man-machine interaction process can be ensured by acquiring the numerical values of the pulse counter within a very short time, so that the situation that the picture of the image display mechanism 6 does not change correspondingly within a long time after the human body moves is avoided, and the interest and the interactivity of the game can be greatly reduced due to the delay.

Before the system game starts, when the human body does not move, the digital signal value in the pulse counter is 00000000, when the game is finished, the digital signal value in the pulse counter is 0000000010, when the digital signal value is 00000010, the software 12 sends a zero clearing parameter to the pulse counter through the digital signal transmission channel 10, the zero clearing parameter is 01050000 FF 008C 3A, after the pulse counter receives the zero clearing parameter, the value in the pulse counter becomes 00000000, the game returns to the initial state, the value of the image frame on the image display mechanism 6 also becomes 1, and the external dimension of the image frame 9 also becomes the initial size.

In the data comparison, the data conversion module converts the decimal value into the x coordinate axis of the image frame 9 for comparison, the initial value of the x coordinate axis of the image frame 9 is 1, the maximum value is 10, the maximum value can be set according to the actual requirement, the initial value of the x coordinate axis depends on the size of the image frame 9, and the program only reads the value of the x coordinate axis of the image frame 9. The y-coordinate axis of the image frame 9 may also be compared with the digitally converted integer value, if desired.

The above examples only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be 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.