TWI452545B - Teaching aid for human body immunity system - Google Patents

Description

Human immunology teaching device

The invention relates to a human immune teaching device, which can help the general public or students to learn the health knowledge about the human immune system in a relaxed environment.

The immune system plays an important role in the human body, and it checks the normal functioning of the human body. Although the general public or schoolchildren have the importance of the cognitive immune system, it is still unclear about how the human immune system works and how it interacts with the bacteria that invade the human body.

Schools, medicine or health institutions often provide health knowledge such as human immunity to the public or schoolchildren. However, it is often difficult to effectively attract attention and interest in the use of stereotyped propaganda and education, resulting in limited absorption and less effective publicity. At the same time, such information is slightly difficult, so it is rarely seen by people as a common sense.

In view of this, it is a great help to promote the concept of health if it can provide a teaching device that not only attracts people's interest, but also can further promote people to share with friends.

The main purpose of the present invention is to teach a human immunology teaching device related to the human immune system through an interactive game.

The human immunology teaching device provided to achieve the above object includes a display module, a control module and an arithmetic unit, and the computing device is coupled to the display module and the control module, and the computing device outputs a message and is The display module is displayed by the user for inputting signals for processing by the user, and the computing device is further brought into a plurality of modules to enter operations. The modules include: a scene module, including one (M) ×N) The main scene composed of checkerboards, wherein M and N are not less than 1, and (M+N) is not less than 4; a parameter module includes an energy parameter, a fractional parameter and a time parameter, wherein the energy The parameter system gradually or batchwise increases with the increase of time parameters; a pathogen unit module, including a plurality of pathogen units, each pathogen unit increases with time parameters and the autonomous scene enters the checkerboard one by one or batch and gradually faces the main scene. Moving at the other end; an immune unit module comprising a plurality of immune units; and an immune selection module comprising a plurality of immune unit options each corresponding to an immune unit, each immune unit option having an energy a value, a cooling time condition value, and an auxiliary condition value; wherein, when the energy condition value, the cooling time condition value, and the subsidiary condition value of each of the immune unit options are satisfied, each of the immune unit options may be selected and selected in the main scene Selecting a checkerboard to set an immune unit corresponding to the immune unit option, and subtracting the energy condition value from the energy parameter; wherein each of the germ unit and the immune unit respectively have a life value parameter, and each of the pathogen units is in a moving path When encountering an immune unit, the immune unit is attacked and deducted from its vital value parameter until one of the health parameters is zero and is eliminated and a corresponding scoring component is generated. Clicking on the scoring component may increase the score parameter correspondingly. Wherein the immune unit comprises at least one energy extraction unit, at least one active immune unit, at least one defensive immune unit, and at least one triggering immune unit, wherein the energy extraction unit generates energy elements over time. The energy element can be selected to increase the energy parameter, and the active immune unit can be used for the pathogen Element attack, the defensive immune cells attack the bacteria can withstand more units of the trigger can trigger immune system cells to generate specific immune cell, or the onset of action.

The human immune teaching device of the invention is brought into the operation of each module by the computing device, and simulates the mechanism of the immune system and the invading human pathogens, and each mechanism reflects the working principle of each immune cell to a considerable extent, and utilizes the educational system. In the way of music, users can understand the immune system related knowledge in a subtle way to achieve education and publicity.

The invention provides a human immune teaching device, which comprises a display module, a control module, a database module and an operator. The display is coupled to the display module, the control module and the database module, wherein the operator outputs a message and is displayed by the display module, the control module is for the user to operate and input the control signal for the operator Processing, the database module describes the basic introduction of each germ unit and immune unit, the principle of action and the operation rules in the device, the operator is further brought into a plurality of modules to enter the operation, the modules include:

A scene module comprising a main scene composed of (M×N) checkerboards, wherein M and N are not less than 1, and (M+N) is not less than 4; in a preferred embodiment of the present invention, The main scene consists of (9 × 5) checkerboards, the background of which can be characterized by blood vessels and red. In addition, the scene module may further include a display block for displaying the parameter module and the immune selection module.

A parameter module includes an energy parameter, a fractional parameter, and a time parameter, wherein the energy parameter gradually increases or batches as the time parameter increases; for example, the energy parameter is batched every ten seconds of the time parameter The secondary corresponds to an increase of ten energy; or, for example, the energy parameter increases an energy for each second increment of the time parameter.

A germ unit module includes a plurality of germ unit units, and each pathogen unit has an increase in time parameters, and one end of the autonomous scene enters the checkerboard one by one or a batch and gradually moves toward the other end of the main scene. The above-mentioned germ unit can represent bacteria and has phases. The different life value parameter or speed parameter, the moving speed of each of the pathogen units on the main scene depends on its speed parameter.

An immune unit module comprising a plurality of immune units. The immunological units comprise at least one energy harvesting unit, at least one active immune unit, at least one defensive immune unit, and at least one triggering immune unit. The energy extraction immune unit generates an energy element over time, and the energy element can be selected to increase the energy parameter; the active immune unit can attack the bacterial unit; the defensive immune unit can bear the bacterial unit More attacks; the triggering immune unit can trigger the generation or initiation of a specific immune unit.

In a preferred embodiment of the invention, the energy extraction immunization unit comprises a gland unit; the defensive immunization unit comprises a skin unit and a mucosal unit; wherein when the mucosal unit is destroyed, a specific checkerboard is caused The pathogen unit is unable to move within a certain period of time from the time parameter; in a preferred embodiment of the invention, the active immune unit comprises a lysozyme unit, a phagocytic unit, a B cell unit, and a cytocidal T cell unit; The lysozyme unit sequentially attacks the pathogen unit located in front of the cell with the increase of the time parameter, so that the cell unit reduces the health parameter; similarly, the B cell unit initiates the attack on the path unit with an increase in the time parameter. , the germ unit reduces the health parameter and the velocity parameter; the phagocytic unit is used to phagocytize the adjacent germ unit regardless of whether the health parameter is zero or not, and the phagocytic unit needs a period of time after phagocytizing the pathogen unit Time can then devour another pathogen unit; once the cell killer T cell unit is set, it will be restricted when it encounters the germ unit The germ cells move and compete against each other and attack each other; in a preferred embodiment of the invention, the triggering immunization unit comprises an inflammatory response unit and a helper T cell unit, the inflammatory reaction unit being disposed adjacent to the phagocytic unit At the time, any four checkerboard cells around the phagocytic cell unit can be triggered to generate other phagocytic cell units, which are subsequently destroyed; the helper T cell unit is used to be placed on a checkerboard cell in which the phagocytic unit is present, Combining with the phagocytic cell unit; wherein the immune unit option has an immune unit option corresponding to each of the immune units, wherein a helper T cell option corresponding to the helper T cell unit, a B cell option corresponding to the B cell unit, and A cytokine T cell option corresponding to the cytokine T cell unit, the accessory condition of the helper T cell option further includes the presence of a phagocytic cell unit in the main scene, and the B cell option and the accessory condition of the killing T cell option are both A helper T cell unit was present on the main scene. That is, after the reaction of phagocytic cells is required, the activation of helper T cells can be induced, and the T cells can be further activated to further activate B cells and kill T cells.

An immune selection module includes a plurality of immune unit options each corresponding to an immune unit, each immune unit option having an energy condition value, a cooling time condition value, and an auxiliary condition value. The energy condition value means that the energy parameter needs to be greater than a predetermined value, and the cooling time condition refers to a time parameter that the next same immune unit option can be selected after the current immune unit option is selected. Ancillary condition values can be used, for example, at a particular level, or other conditions set for the helper T cell option, B cell option, and cell kill T cell options as previously described.

Wherein, after satisfying the energy condition value, the cooling time condition value and the auxiliary condition value of each of the immune unit options, each of the immune unit options can be selected and a checkerboard is selected in the main scene to set the immune corresponding to the immune unit option. The unit, while deducting the energy condition value from the energy parameter.

Wherein, each of the germ unit and the immunization unit respectively have a life value parameter, and each of the pathogen units attacks the immune unit when the immune unit encounters the immune unit, and deducts the vital value parameter until one of the health parameters It is destroyed by zero.

Please refer to the first figure. After the game starts, the device of the present invention generates a main scene in the display module and loads the parameter mode in the display block. When the game is performed, as the time parameter increases, the germ unit will enter the main scene, and the operator will periodically judge. Whether the condition of the immune unit option is reached, if it is achieved, the immune unit option is available for selection and is assigned to the checkerboard of the main scene, and then the board The cell will generate an immune unit to set it, and the energy parameter deducts the energy condition value of the immune unit.

Furthermore, as shown in the second figure, the increase in the score parameter of the present invention depends on the calculation of the scoring system and the continuous scoring system. The scoring system, in addition to generating a scoring element after the killing of the germ cell or the immune unit is killed, the scavenging element is also generated when the lysozyme unit and the B cell unit hit the germ unit after launching the attack; in addition, each in the main scene When a new immune unit is set up, the scoring component is also obtained; after selecting the above scoring component, the score parameter can be correspondingly increased. The continuous scoring system means that when the scoring component is obtained, when a scoring component is acquired for each additional three seconds of the time parameter, it is regarded as achieving a continuous score, and each consecutive score of five consecutive scores can be scored by one unit score and additional Increasing the score parameter, the score parameter of the increase in the score of the unit is incremented according to the number of consecutive scores of consecutive units.

The invention utilizes the above device to simulate the offensive and defensive effects of the immune unit and the germ unit in the human body, and teaches the user the role of each immune unit and its limitation under the set use conditions, and then utilizes the information. The establishment of scoring and continuous scoring mode drives users to understand the content of the game and pursue high scores, so that they can learn actively and produce better learning effects and long-term impressions. In addition, the use of this device to entertain and educate is more helpful to become a topic among users. In addition to enhancing understanding through mutual discussion, there is a greater opportunity to encourage potential users to access the device and promote it. purpose. The ideal result is that the user understands the working mechanism of the human immune system in a relaxed environment, so that the general public can further increase their valuable knowledge of human health.

It can be seen that the present invention is not only novel and practical, but also has a significant and predictable effect, and it is legally required to file a patent application in accordance with the law.

The first figure is a block diagram of the main computing system of the human immunology teaching device of the present invention.

The second figure is a block diagram of the score and the system of the human immune teaching device of the present invention.

Claims (9)

A human immunology teaching device includes a display module, a control module and an arithmetic unit. The computing device is coupled to the display module and the control module, and the computing device outputs a message and is displayed by the display module. The control module is for the user to operate and input the control signal for the operator to process. The operator is further brought into a plurality of modules to enter the operation. The modules include: a scene module, including one (M×N) The main scene composed of the checkerboard, wherein M and N are not less than 1, and (M+N) is not less than 4; a parameter module includes an energy parameter, a fractional parameter and a time parameter, wherein the energy parameter is over time The parameter increases gradually or in batches; a germ unit module, including a plurality of germ units, each path unit increases with time parameters and the autonomous scene enters the checkerboard one by one or batch and gradually moves toward the other end of the main scene; An immune unit module comprising a plurality of immune units; and an immune selection module comprising a plurality of immune unit options each corresponding to an immune unit, each immune unit option having an energy condition value, a cooling An inter-condition value and an auxiliary condition value; wherein, after the energy condition value, the cooling time condition value, and the auxiliary condition value of each of the immune unit options are met, each of the immune unit options can be selected and a checkerboard is selected in the main scene. Setting an immune unit corresponding to the immune unit option, and deducting the energy condition value from the energy parameter; further, each of the pathogen unit and the immune unit respectively have a life value parameter, and each of the pathogen units encounters an immune unit in the mobile path The immune unit is attacked and deducted from its vital value parameter until one of the health parameters is zero and is destroyed and a corresponding scoring component is generated. Clicking the scoring component may increase the score parameter correspondingly; The immune unit includes at least one energy extraction unit, at least one active immune unit, at least one defensive immune unit, and at least one triggering immune unit, and the energy extraction immune unit generates an energy element over time, and the energy element can be The active immune unit can attack the germ unit by clicking on the increase in the energy parameter. Immune cells attack the bacteria can withstand more units of the trigger immune system may trigger generating unit, or onset of action of specific immune cells. For example, the human immunology teaching device described in claim 1 further includes a database module coupled with an arithmetic unit, which records the basic introduction, function principle and human immunology teaching device of each germ unit and immune unit. The arithmetic rules in the middle. The human immunology teaching apparatus according to claim 1, wherein the energy extraction unit comprises a gland unit. The human immunology teaching apparatus according to claim 1, wherein the defensive immunization unit comprises a skin unit and a mucous membrane unit; when the mucous membrane unit is destroyed, the pathogen unit in the specific checkerboard is caused from the time. The parameter cannot be moved for a certain period of time. The human immunology teaching apparatus according to claim 1, wherein the active immune unit comprises a lysozyme unit, a phagocytic unit, a B cell unit, and a cytocidal T cell unit; the lysozyme unit is over time Increasing the number of parameters and attacking the germ unit in front of it, causing the pathogen unit to reduce the health parameter; the phagocytic unit is used to phagocytize the adjacent germ unit regardless of whether its health parameter is zero or not; The unit system attacks the germ unit with the increase of the time parameter, so that it reduces the health parameter and the speed parameter; once the cell killing T cell unit is set, when the pathogen unit is encountered, the movement of the path unit is restricted and Confrontation and attack each other. The human immunology teaching apparatus according to claim 5, wherein the triggering immune unit comprises an inflammatory reaction unit and a helper T cell unit; and the inflammatory reaction unit is set to be adjacent to the phagocytic unit, which can trigger Any four phagocytic cells surrounding the phagocytic cell unit produce additional phagocytic cell units, which are subsequently destroyed; the helper T cell unit is used to be placed on a checkerboard cell in which phagocytic cells are present for use with the phagocytic cell unit Binding; wherein the immune unit option has a pair of helper T cell options that should aid the T cell unit, a B cell option for a corresponding B cell unit, and a cytocidal T cell option for a corresponding cytokine T cell unit, the helper T cell option The accessory condition is that a phagocytic unit has existed in the main scene, and the B cell option and the accessory condition of the killing T cell option are that a helper T cell unit exists in the main scene. The human immunology teaching apparatus according to claim 5, wherein the lysozyme unit and the B cell unit generate a scoring element after the attack is launched. The human immunology teaching apparatus according to claim 7, wherein a scoring component is generated each time a new immunization unit is set in the main scene. The human immunology teaching apparatus according to claim 8, wherein when a score component is obtained every three seconds of the time parameter, it is regarded as achieving a continuous score, and each consecutive score of five consecutive scores can be obtained by one consecutive unit. The score is additionally increased by the score parameter, and the score parameter of the continuous unit score is increased by the number of consecutive scores of consecutive hit units.