阅读说明：本技术 记忆力测试装置 (Memory testing device ) 是由 张鹏飞 于 2020-05-20 设计创作，主要内容包括：本发明涉及记忆力训练仪器,公开一种记忆力测试装置,包括控制单元(1),控制单元(1)耦接有启动单元(2)、键盘输入单元(3)、显示单元(4)及提示单元(5),本发明的记忆力测试装置,通过触发启动单元(2),能够让控制单元(1)内置的随机函数程序产生随机数并将随机数通过显示单元(4)进行显示；用户可通过显示单元(4)查看当前所生成的随机数,以对随机数进行记忆；经过延时程序延时后,控制单元(1)能够控制显示单元(4)熄灭,以进入测试环节；此时,用户可通过键盘输入单元(3)将刚才记忆的显示于显示单元(4)内的随机数进行键入,并通过控制单元(1)进行比对。(The invention relates to a memory training instrument and discloses a memory testing device which comprises a control unit (1), wherein the control unit (1) is coupled with a starting unit (2), a keyboard input unit (3), a display unit (4) and a prompt unit (5), and the memory testing device can enable a random function program built in the control unit (1) to generate a random number and display the random number through the display unit (4) by triggering the starting unit (2); the user can view the currently generated random number through the display unit (4) to memorize the random number; after the delay of the delay program, the control unit (1) can control the display unit (4) to extinguish so as to enter a testing link; at this time, the user can enter the random number displayed in the display unit (4) which is just memorized through the keyboard input unit (3) and compare the random number through the control unit (1).)

1. A memory testing device is characterized in that: the device comprises a control unit (1), wherein the control unit (1) is coupled with a starting unit (2), a keyboard input unit (3), a display unit (4) and a prompt unit (5), and a random function program and a time delay program are arranged in the control unit (1); the starting unit (2) responds to external triggering to send a starting signal to the control unit (1), the control unit (1) receives the starting signal, generates a random number through a built-in random function program, processes the generated random number and then sends the processed random number to the display unit (4) for displaying, and the control unit (1) delays through a delay program and then closes a random numerical value displayed in the display unit (4);

when the random numerical value displayed in the display unit (4) is closed, the keyboard input unit (3) responds to external trigger to input a corresponding numerical value to the control unit (1), and the control unit (1) compares the numerical value input by the keyboard input unit (3) with a numerical value generated by a random function program; if the numerical value input by the keyboard input unit (3) is consistent with the numerical value generated by the random function program, the control unit (1) controls the prompt unit (5) to output correct prompt information; on the contrary, if the numerical value input by the keyboard input unit (3) is inconsistent with the numerical value generated by the random function program, the control unit (1) controls the prompt unit (5) to output error prompt information.

2. The memory test device of claim 1, wherein: when the starting unit (2) responds to external trigger to send two starting signals to the control unit (1), the control unit (1) generates long random numbers through a built-in random function program and sends the generated long random numbers to the display unit (4) for displaying after processing;

when the starting unit (2) responds to an external trigger to send a single starting signal to the control unit (1), the control unit (1) generates a short random number through a built-in random function program and sends the generated short random number to the display unit (4) for displaying after processing.

3. The memory test device of claim 1, wherein: a unit number is preset in the control unit (1), in each unit number, the control unit (1) is used for recording the number comparison result of each time, and after the unit number is finished, the control unit (1) is used for counting the correct number of times that the number input by the keyboard input unit (3) is the same as the number generated by the random function program and calculating the proportion of the correct number of times in the unit number to obtain the test result.

4. The memory test device of claim 3, wherein: the mobile terminal is characterized by further comprising a mobile terminal (6), the control unit (1) is further coupled with a wireless transmitting module (7), the mobile terminal (6) comprises a wireless receiving module (8), a control module (9), a storage module (10) and a display module (11), and the wireless transmitting module (7) is in wireless communication connection with the wireless receiving module (8);

the control unit (1) remotely sends the obtained test result data to a wireless receiving module (8) of the mobile terminal (6) through a wireless transmitting module (7), and the control module (9) sends the test result data received by the wireless receiving module (8) to a storage module (10) for storage; the control module (9) is used for calling the test result data in the storage module (10) to the display module (11) for displaying.

5. The memory test device of claim 4, wherein: the mobile terminal (6) also comprises a biological identification module (12), and reference biological characteristic information is preset in the biological identification module (12); the biometric identification module (12) is used for acquiring the actual biometric characteristic information of the user and comparing the acquired actual biometric characteristic information with the built-in reference biometric characteristic information; if the actual biological characteristic information is consistent with the reference biological characteristic information, the control module (9) can call the test result data in the storage module (10) to the display module (11) for displaying; on the contrary, if the actual biological characteristic information is inconsistent with the reference biological characteristic information, the control module (9) cannot call the test result data in the storage module (10).

Technical Field

The invention relates to a memory training instrument, in particular to a memory testing device.

Background

With the pace of life of modern society becoming faster and the popularization of computer network technology, people increasingly rely on computers and mobile terminals, and information fragmentation and zero dispersion accepted by people directly or indirectly cause memory loss of modern people, and even young people have amnesia which is not consistent with the age. However, most of forgetfulness is not organic lesion and is not a problem of the brain, but is caused by the change of memory habits of people, and the forgetfulness can be recovered after diligent practice at ordinary times.

Human memory is classified into long-term memory and short-term memory. The short-term memory information is kept for a short time, usually 5-20 seconds, and no longer than 1 minute. Short-term memory is sometimes referred to as telephone number memory, as if a person were to dial a telephone number immediately after the phone number was retrieved, and then the number was forgotten to be dialed. The short-term memory capacity reflects the information temporary storage capacity in the information processing process of the brain. It is therefore desirable to provide a device that can be used to test short term memory.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a memory testing device which is convenient and fast to operate and can be used for testing the short-term memory ability of a user.

In order to solve the technical problem, the invention is solved by the following technical scheme:

a memory testing device comprises a control unit, wherein the control unit is coupled with a starting unit, a keyboard input unit, a display unit and a prompt unit, and a random function program and a time delay program are arranged in the control unit; the starting unit responds to external triggering to send a starting signal to the control unit, the control unit receives the starting signal, generates a random number through a built-in random function program, processes the generated random number and sends the processed random number to the display unit for displaying, and the control unit delays through a delay program and then closes a random number displayed in the display unit;

when the random numerical value displayed in the display unit is closed, the keyboard input unit responds to external trigger to input a corresponding numerical value to the control unit, and the control unit compares the numerical value input by the keyboard input unit with a numerical value generated by a random function program; if the numerical value input by the keyboard input unit is consistent with the numerical value generated by the random function program, the control unit controls the prompt unit to output correct prompt information; otherwise, if the numerical value input by the keyboard input unit is inconsistent with the numerical value generated by the random function program, the control unit controls the prompt unit to output error prompt information.

By adopting the scheme, the starting unit is triggered, so that the random function program built in the control unit can generate random numbers and the random numbers are displayed through the display unit; a user can check the currently generated random number through the display unit so as to memorize the random number; after the delay of the delay program, the control unit can control the display unit to be extinguished so as to enter a testing link; at this time, the user can key in the random number displayed in the display unit through the keyboard input unit and compare the random number with the random number through the control unit; if the numerical value input by the keyboard input unit is consistent with the numerical value generated by the random function program, the random numerical value memorized by the user is correct, and at the moment, the control unit controls the prompt unit to output correct prompt information; otherwise, if the numerical value input by the keyboard input unit is inconsistent with the numerical value generated by the random function program, the random numerical value memorized by the user is wrong, and the control unit controls the prompt unit to output wrong prompt information.

Preferably, when the starting unit responds to external trigger and sends two starting signals to the control unit, the control unit generates long random numbers through a built-in random function program and sends the generated long random numbers to the display unit for displaying after processing;

when the starting unit responds to external trigger to send a single starting signal to the control unit, the control unit generates a short random number through a built-in random function program and sends the generated short random number to the display unit for displaying after processing.

By adopting the scheme, the control unit can generate long random numbers through a built-in random function program and display the long random numbers in the display unit by continuously triggering the starting unit twice so as to provide a memory test mode with relatively high difficulty; if the starting unit is triggered only once in unit time, the control unit generates a short random number through a built-in random function program and displays the short random number in the display unit so as to provide a memory testing mode with relatively low difficulty, so that a user can adjust the testing difficulty of the memory as required, and the memory testing device is more humanized.

Preferably, a unit number is preset in the control unit, the control unit is used for recording the number comparison result of each unit number, and after the unit number is finished, the control unit is used for counting the correct number of times that the number input by the keyboard input unit is the same as the number generated by the random function program and calculating the proportion of the correct number of times in the unit number to obtain the test result.

By adopting the scheme, the memory test result can be calculated by counting the correct times when the numerical value input by the keyboard input unit is the same as the numerical value generated by the random function program and calculating the proportion of the correct times in unit times, so that the test result is more visual.

Preferably, the mobile terminal further comprises a mobile terminal, the control unit is further coupled with a wireless transmitting module, the mobile terminal comprises a wireless receiving module, a control module, a storage module and a display module, and the wireless transmitting module is in wireless communication connection with the wireless receiving module;

the control unit remotely sends the obtained test result data to a wireless receiving module of the mobile terminal through a wireless transmitting module, and the control module sends the test result data received by the wireless receiving module to a storage module for storage; the control module is used for calling the test result data in the storage module to the display module for displaying.

By adopting the scheme, the memory test result belongs to the privacy data, and in order to avoid privacy disclosure, the obtained test result is directly transmitted into the mobile terminal of the corresponding user to be displayed, and can not be directly displayed on the test instrument, so that the privacy of the user is protected, and the mobile terminal is more humanized.

Preferably, the mobile terminal further comprises a biometric identification module, wherein the biometric identification module is internally preset with reference biometric characteristic information; the biological identification module is used for acquiring the actual biological characteristic information of the user and comparing the acquired actual biological characteristic information with the built-in reference biological characteristic information; if the actual biological characteristic information is consistent with the reference biological characteristic information, the control module can call the test result data in the storage module to the display module for displaying; on the contrary, if the actual biological characteristic information is inconsistent with the reference biological characteristic information, the control module cannot call the test result data in the storage module.

By adopting the scheme, the biological identification module provides a secret protection verification link for the user to check the memory test result data in the mobile terminal, the memory test result data in the mobile terminal can be checked only by the verified user, otherwise, the corresponding data cannot be called, and the security of the user privacy is further ensured.

Due to the adoption of the technical scheme, the invention has the remarkable technical effects that: by triggering the starting unit, a random function program built in the control unit can generate random numbers and the random numbers are displayed through the display unit; a user can check the currently generated random number through the display unit so as to memorize the random number; after the delay of the delay program, the control unit can control the display unit to be extinguished so as to enter a testing link; at this time, the user can key in the random number displayed in the display unit through the keyboard input unit and compare the random number with the random number through the control unit; if the numerical value input by the keyboard input unit is consistent with the numerical value generated by the random function program, the random numerical value memorized by the user is correct, and at the moment, the control unit controls the prompt unit to output correct prompt information; otherwise, if the numerical value input by the keyboard input unit is inconsistent with the numerical value generated by the random function program, the random numerical value memorized by the user is wrong, and the control unit controls the prompt unit to output wrong prompt information.

Drawings

FIG. 1 is a first diagram of the system architecture of the present embodiment;

fig. 2 is a second system architecture diagram of the present embodiment.

The names of the parts indicated by the numerical references in the above figures are as follows: 1. a control unit; 2. a start unit; 3. a keyboard input unit; 4. a display unit; 5. a presentation unit; 6. a mobile terminal; 7. a wireless transmitting module; 8. a wireless receiving module; 9. a control module; 10. a storage module; 11. a display module; 12. a biometric identification module.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in fig. 1 and fig. 2, the memory testing device disclosed in this embodiment includes a control unit 1, where the control unit 1 is a chip with data operation capability, and includes but is not limited to a single chip microcomputer, a PLC, a CPU, an MCU, an ARM, and the like. The control unit 1 is coupled with a starting unit 2, a keyboard input unit 3, a display unit 4 and a prompt unit 5; the starting unit 2 is preferably a pulse-triggered electronic switch which can respond to external trigger and output a starting signal outwards in a pulse form; the keyboard input unit 3 can be a physical keyboard or a virtual keyboard integrated in a touch screen; the display unit 4 can be a display or a nixie tube; the prompting unit 5 may be a speaker or a two-color indicator light to indicate different states by sound or light color. A random function program and a time delay program are arranged in the control unit 1; the starting unit 2 responds to external triggering to send a starting signal to the control unit 1, the control unit 1 receives the starting signal, generates a random number through a built-in random function program, processes the generated random number and then sends the processed random number to the display unit 4 for display, so that a user can check and memorize the random number; the control unit 1 closes the random value displayed in the display unit 4 after delaying through the delay program, that is, after the delay operation of the delay program, the display unit 4 closes the random value displayed currently, so that the user enters the memory test stage.

When the random number displayed in the display unit 4 is closed, a user inputs the random number just memorized through the display unit 4 by triggering the keyboard input unit 3, the keyboard input unit 3 inputs a corresponding number to the control unit 1 in response to external triggering, and the control unit 1 compares the number input by the keyboard input unit 3 with the number generated by the random function program; if the numerical value input by the keyboard input unit 3 is consistent with the numerical value generated by the random function program, the numerical value memorized by the user is correct, and at the moment, the control unit 1 controls the prompt unit 5 to output correct prompt information; on the contrary, if the value inputted by the keyboard input unit 3 is not consistent with the value generated by the random function program, it indicates that the value memorized by the user is wrong, and at this time, the control unit 1 controls the prompt unit 5 to output a wrong prompt message.

Furthermore, when the starting unit 2 responds to an external trigger to send two starting signals to the control unit 1, the control unit 1 generates a long random number through a built-in random function program and sends the generated long random number to the display unit 4 for displaying after processing, so as to switch the testing instrument to a memory testing mode with relatively high difficulty.

When the starting unit 2 responds to external trigger to send a single starting signal to the control unit 1, the control unit 1 generates a short random number through a built-in random function program and sends the generated short random number to the display unit 4 for displaying after processing, so that the testing instrument is switched to a memory testing mode with relatively low difficulty.

Furthermore, a unit number is preset in the control unit 1, in each unit number, the control unit 1 is used for recording the number comparison result of each time, and after the unit number is finished, the control unit 1 is used for counting the correct number of times that the number input by the keyboard input unit 3 is the same as the number generated by the random function program and calculating the proportion of the correct number of times in the unit number to obtain the test result, so that the memory test result is more visual.

Furthermore, the memory testing device further comprises a mobile terminal 6, wherein the mobile terminal 6 is preferably a mobile phone, a tablet computer, a mobile computer and the like; the control unit 1 is also coupled with a wireless transmitting module 7, the mobile terminal 6 comprises a wireless receiving module 8, a control module 9, a storage module 10 and a display module 11, and the wireless transmitting module 7 is in wireless communication connection with the wireless receiving module 8; the wireless transmitting module 7 and the wireless receiving module 8 are preferably WiFi modules; the control module 9 is a chip with data operation capability, including but not limited to a single chip microcomputer, a PLC, a CPU, an MCU, an ARM and the like; the memory module 10 is preferably a memory chip; the display module 11 is preferably a display screen or a touch screen integrated in the mobile terminal 6. In this embodiment, the control unit 1 remotely sends the obtained test result data to the wireless receiving module 8 of the mobile terminal 6 through the wireless transmitting module 7, and the control module 9 sends the test result data received by the wireless receiving module 8 to the storage module 10 for storage; the control module 9 is used for calling the test result data in the storage module 10 to the display module 11 for displaying. The user can check the test result through the display module 11 in the mobile terminal 6, so that the privacy of the user is protected, and the method is more humanized.

Furthermore, the mobile terminal 6 further includes a biometric identification module 12, where the biometric identification module 12 may be a fingerprint identification module or a face identification module integrated in the mobile terminal 6; the biometric identification module 12 is preset with reference biometric information, which respectively corresponds to reference fingerprint information in the fingerprint identification module or reference face information in the face identification module. The biometric identification module 12 is configured to obtain actual biometric information of the user, and compare the obtained actual biometric information with built-in reference biometric information; if the actual biometric information is consistent with the reference biometric information, it indicates that the user identity passes the verification, and at this time, the control module 9 can call the test result data in the storage module 10 to the display module 11 for display, so that the user can view the test result through the display module 11; on the contrary, if the actual biometric information is inconsistent with the reference biometric information, it indicates that the user identity is not verified, and at this time, the control module 9 cannot retrieve the test result data in the storage module 10, so as to protect the user privacy.