CN112691368A

CN112691368A - User-defined input system and user-defined input method adopting same

Info

Publication number: CN112691368A
Application number: CN202110010603.XA
Authority: CN
Inventors: 朱習常
Original assignee: Shenzhen Huion Animation Technology Co Ltd
Current assignee: Shenzhen Huion Animation Technology Co Ltd
Priority date: 2021-01-06
Filing date: 2021-01-06
Publication date: 2021-04-23

Abstract

The invention provides a user-defined input system for data transmission with a computer. The user-defined input system comprises a multi-input unit, a detection unit, a control unit, a storage unit and an interface unit. The control unit self-defines instruction information in a set mode and gives the instruction information to the multi-input unit, the instruction information comprises a self-defined key value and a self-defined character string, and the storage unit stores the instruction information given to the multi-input unit. The input unit generates an input signal, the control unit receives the input signal in a user-defined working mode, the instruction information corresponding to the input unit and stored in the storage unit is extracted and input into the computer, and the computer completes the user-defined key value command and displays the user-defined character string at the same time. The invention provides a custom input system capable of displaying custom character strings and a custom input method adopting the custom input system.

Description

User-defined input system and user-defined input method adopting same

Technical Field

The invention relates to an input system, in particular to a custom input system capable of displaying custom character strings and a custom input method thereof.

Background

Electronic Sports (Electronic Sports) are Sports in which an Electronic game reaches an athletic level. The electronic competition is a puzzle combining intelligence and physical strength by utilizing electronic equipment. Electronic athletics is also a profession, as an emerging competitive sport, it has evolved to be an interpersonal electronic game athletics with the spirit of modern competitive sports. Under the situation of a speed-emphasized electronic competition, an input system of electronic equipment is particularly important, the input system comprises a plurality of input units, an operator needs to quickly operate the complicated input units with a large number by means of memory, but the prior art does not have state real-time display, so that the operator cannot intuitively know the current real-time input state, the operator can be quickly operated by means of memory and experience completely, the requirement on the memory reaction capacity of the operator is high, and misoperation is easy.

Therefore, it is necessary to provide a new method to solve the problem of stateless display during input.

Disclosure of Invention

The invention provides an input system capable of displaying a custom character string, aiming at solving the technical problems that the input state can not be displayed in a stateless manner, the input state can not be confirmed in real time and the misoperation is easy to occur.

Meanwhile, a user-defined input method adopting the user-defined input system is also provided.

A user-defined input system for data transmission with a computer comprises a multi-input unit, a detection unit, a control unit, a storage unit and an interface unit. The input unit is triggered by the outside to generate an input signal, the detection unit detects the input signal and transmits the input signal to the control unit, the control unit comprises a setting mode and at least one self-defined working mode, in the self-defined working mode, the control unit receives the input signal transmitted by the detection unit, customizing instruction information in the setting mode and giving the instruction information to the multi-input unit, the instruction information comprises a custom key value and a custom character string, the storage unit stores the custom key value and the custom character string assigned by the multi-input unit, the control unit extracts the user-defined key value and the user-defined character string stored in the storage unit and transmits the key value and the user-defined character string to the interface unit after receiving the input signal, and the interface unit inputs the custom key value and the custom character string into the computer and displays the custom key value and the custom character string in real time.

In a preferred embodiment of the user-defined input system provided by the present invention, the interface unit includes a key value input pipeline and a display input pipeline, the interface unit inputs the user-defined key value into the computer through the key value input pipeline, and inputs the user-defined character string into the computer through the display input pipeline, and the user-defined key value corresponds to the user-defined character string.

In a preferred embodiment of the user-defined input system provided by the present invention, the interface unit further includes a setting pipeline, and the control unit switches the entering or exiting state of the setting mode through the setting pipeline.

In a preferred embodiment of the custom input system provided by the present invention, the storage unit includes a plurality of subsets, the plurality of subsets respectively correspond to a plurality of custom working modes of the control unit, and each subset corresponds to the multi-input unit to store the custom key value and the custom character string.

In a preferred embodiment of the custom input system provided by the present invention, the custom input system further includes a switching unit, and the switching unit selects the subset and transmits a selection result to the control unit, so as to realize switching of the control unit between multiple custom operating modes.

In a preferred embodiment of the user-defined input system provided by the present invention, the user-defined key value may be a single key value or a combined key value.

In a preferred embodiment of the present invention, the multi-input unit may include one or more of a button, a wheel, a knob, a rocker, and a touch sensor.

A custom input method comprises the following steps:

the control unit customizes instruction information under the set mode, comprises a custom key value and a custom character string and is endowed to the multi-input unit;

the storage unit stores the user-defined key value and the user-defined character string corresponding to the multi-input unit;

the multi-input unit is triggered to generate an input signal;

the control unit receives the input signal in the user-defined working mode, extracts a user-defined key value and a user-defined character string stored in the storage unit and transmits the user-defined key value and the user-defined character string to the interface unit;

the interface unit inputs the user-defined key value and the user-defined character string into the computer, and a user-defined input system adopted by the user-defined input method can perform data transmission with the computer and comprises a multi-input unit, a detection unit, a control unit, a storage unit and an interface unit. The input unit is triggered by the outside to generate an input signal, the detection unit detects the input signal and transmits the input signal to the control unit, the control unit comprises a setting mode and at least one self-defined working mode, in the self-defined working mode, the control unit receives the input signal transmitted by the detection unit, customizing instruction information in the setting mode and giving the instruction information to the multi-input unit, the instruction information comprises a custom key value and a custom character string, the storage unit stores the custom key value and the custom character string assigned by the multi-input unit, the control unit extracts the user-defined key value and the user-defined character string stored in the storage unit and transmits the key value and the user-defined character string to the interface unit after receiving the input signal, and the interface unit inputs the custom key value and the custom character string into the computer and displays the custom key value and the custom character string.

In a preferred embodiment of the user-defined input method provided by the present invention, the switching unit switches between the multiple user-defined operating modes of the control unit by selecting a corresponding subset, and the control unit extracts the user-defined key values and user-defined character strings stored in the corresponding subset of the storage unit and transmits the user-defined key values and user-defined character strings to the interface unit.

Compared with the prior art, the self-defined input system provided by the invention utilizes the control unit to self-define the instruction information, endows the instruction information to the multi-input unit, stores the instruction information corresponding to different multi-input units by the storage unit, corresponds to each instruction information to a set function, and finally inputs the self-defined key value and the self-defined character string of the instruction information to the computer by the interface unit, so that the computer displays the self-defined character string while finishing the command of the self-defined key value.

The control unit is used for customizing the instruction information and endowing the instruction information to the multi-input unit, the customized key values can be customized into multiple combined key values, the single input unit is triggered, the computer is enabled to complete complex multi-command operation, simple operation is achieved, meanwhile, the customized key values are reasonably endowed to the multi-input unit according to the spatial position relation of the multi-input unit and the practical habit of an operator, and the operation speed can be improved.

The adoption of the multiple user-defined working modes further simplifies the operation of the user-defined input system, and for different software, the quick, simple and convenient operation can be realized only by switching to the corresponding user-defined working mode.

The user-defined character string is defined by an operator, can be used for prompting the current input state, reminding the operator of the current operation action and progress, relieving the memory pressure of the operator, reducing the operation difficulty and improving the reaction speed, and meanwhile, the user-defined character string can be used for quickly confirming whether the input is correct and effective. The operator can master the current state in real time, and misoperation is avoided.

Especially for new electronic competition projects, familiar user-defined character strings are beneficial to quickly establishing conditional reflex, realizing intuitive operation, and improving memory speed and response speed, thereby quickly improving competition ability.

Drawings

FIG. 1 is a block diagram of a custom input system capable of displaying custom strings according to a first embodiment of the present invention;

FIG. 2 is a block diagram of a memory unit of the custom input system of FIG. 1;

FIG. 3 is a block diagram of a custom input system capable of displaying custom strings according to a second embodiment of the present invention;

FIG. 4 is a block diagram of a memory unit of the custom input system described in FIG. 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

First embodiment

Please refer to fig. 1, which is a block diagram of a custom input system capable of displaying custom character strings according to a first embodiment of the present invention.

The user-defined input system 10 can perform data transmission with a computer 20, the user-defined input system 10 outputs instruction information to the computer 20, the instruction information comprises a user-defined key value and a user-defined character string, after the computer 20 receives the instruction information, the command of the user-defined key value is completed, the user-defined character string is displayed at the same time, and the display duration is set. Specifically, if the custom input system 10 includes the key a, the custom instruction information includes the custom key value "a + B" and the custom character string "operation", and the instruction information is given to the key a, when the operator presses the key a, the custom input system 10 inputs the instruction information to the computer 20, and the computer 20 completes the command corresponding to the custom key value "a + B" and displays the custom character string "operation" at the same time.

The custom input system 10 includes a multi-input unit 11, a detection unit 13, a storage unit 15, a control unit 17 and an interface unit 19. The control unit 17 is electrically connected to the detection unit 13, the storage unit 15 and the interface unit 19 at the same time. The interface unit 19 is electrically connected to the computer 20, and includes a key value input pipeline 191 and a display input pipeline 193, and the user-defined key value is input to the computer 20 through the key value input pipeline 191, and the user-defined character string is input to the computer 20 through the display input pipeline 193.

The multi-input unit 11 includes a first input unit 111, second input units 113 and …, and an nth input unit, where N is a natural number greater than or equal to 1. The first input unit 111 is triggered by the outside to generate input information. Specifically, the control unit 17 customizes the instruction information to include a custom key value 1511 and a custom character string 1513, the custom key value 1511 corresponds to the custom character string 1513 and is assigned to the first input unit 111, and when the first input unit 111 is triggered to generate an input signal, the interface unit 19 inputs the custom key value 1511 and the custom character string 1513 into the computer 20. The working principle of the second input unit 113 and the nth input unit is the same as that of the first input unit 111, and is not described herein again. The multi-input unit 11 may include one or more of a key, a wheel, a knob, a joystick, and a touch sensor.

The detecting unit 13 detects the input signal and transmits the input signal to the control unit 17. Specifically, when the first input unit 111 generates an input signal, the detecting unit 13 detects the input signal generated by the first input unit 111, that is, transmits the input signal generated by the first input unit 111 to the control unit 17.

Referring to fig. 2, it is a structural diagram of a storage unit of the custom input system shown in fig. 1. The storage unit 15 stores the instruction information given to the multi-input unit 11 in correspondence with different storage areas under the control of the control unit 17. The memory unit 15 includes a plurality of memory areas including a first memory area 151, a second memory area 153, an … and an Nth memory area, where N is a natural number greater than or equal to 1. The first memory 151 stores the instruction information assigned by the first input unit 111, i.e., the custom key 1511 and the custom character string 1513, corresponding to the first input unit 111. The working principle of the second memory area 153 and the Nth memory area is the same as that of the first memory area, and is not described herein again.

The control unit 17 customizes the instruction information, gives it to the multiple input unit 11, and controls the output of the instruction information. The control unit 17 includes a setting mode and a user-defined operation mode, the setting mode and the user-defined operation mode can be switched, the interface unit 19 further includes a setting pipe 195, and the control unit 17 can switch the setting mode through the setting pipe 195. Specifically, when the control unit 17 enters the setting mode through the setting pipe 195, the control unit 17 may customize the instruction information to include a customized key value 1511 and a customized character string 1513, and give the customized key value 1511 and the customized character string 1513 to the first input unit 111, of course, the control unit 17 may also perform a modification operation on the customized key value 1511 and the customized character string 1513 in the setting mode, and similarly, may cancel the instruction information giving operation on the first input unit 111 to which the instruction information has been given; when the control unit 17 exits the setting mode through the setting pipe 195 and enters the customized working mode, after receiving the input signal generated by the first input unit 111 and transmitted by the detecting unit 13, the control unit 17 sends the customized key value 1511 and the customized character string 1513 to the interface unit 19 according to the instruction information stored in the first memory area 151.

When the custom input system 10 is in operation:

through the setting pipe 195, the control unit 17 enters the setting mode;

the control unit 17 customizes the instruction information and gives the instruction information to the multi-input unit 11;

under the control of the control unit 17, the storage unit 15 corresponds to different memory areas and corresponds to the input unit 11, and the instruction information stored by the input unit 11 corresponds to the memory areas one to one. (ii) a

Through the setting pipe 195, the control unit 17 exits the setting mode and enters the user-defined working mode;

the multi-input unit group 11 is triggered by the outside to generate an input signal;

the detection unit 13 detects the input signal generated by the multi-input unit 11 and transmits the input signal to the control unit 17;

after receiving the input signal, the control unit 17 sends the custom key value and the custom character string to the interface unit 19 according to the instruction information stored in the storage unit 15;

the interface unit 19 inputs the user-defined key value into the computer 20 through the key value input pipeline 191, and simultaneously inputs the user-defined character string into the computer 20 through the display input pipeline 193, and the computer 20 completes the command corresponding to the user-defined key value and simultaneously displays the user-defined character string.

Second embodiment

Please refer to fig. 3, which is a block diagram of a custom input system capable of displaying custom character strings according to a second embodiment of the present invention. The custom input system 30 includes a multi-input unit 31, a detection unit 33, a storage unit 35, a control unit 37, a switching unit 38, and an interface unit 39. The control unit 37 is electrically connected to the detection unit 33, the storage unit 35, the switching unit 38 and the interface unit 39 at the same time. The multi-input unit 31 includes a first input unit 311, a second input unit 313, … and an nth input unit, where N is a natural number greater than or equal to 1.

Referring to fig. 4, it is a structural diagram of a storage unit of the custom input system shown in fig. 3. The working principle of the custom input system 30 is substantially the same as that of the custom input system 10, except that: the control unit 37 includes a setting mode and a plurality of user-defined operating modes, the storage unit 35 sets a plurality of subsets corresponding to the plurality of user-defined operating modes of the control unit 37, each subset stores the user-defined key value and the user-defined character string corresponding to the multi-input unit 31, and the switching unit 38 selects the subset and transmits the selection result to the control unit 37, thereby implementing the switching of the control unit 37 between the plurality of user-defined operating modes.

The multi-user-defined working modes comprise a first user-defined working mode, a second user-defined working mode and an Nth user-defined working mode, wherein the multi-subset comprises a first subset 351, a second subset 353, an … and an Nth subset, N is a natural number which is greater than or equal to 1, the first user-defined working mode corresponds to the first subset 351, the second user-defined working mode corresponds to the second subset 353, and the Nth user-defined working mode corresponds to the Nth subset.

Each of the subsets includes a plurality of memory regions, the first subset 351 includes a first memory region 3511 corresponding to the first input unit 311, second memory regions 3513, … corresponding to the second input unit 315, and an nth memory region corresponding to the nth input unit, where N is a natural number greater than or equal to 1, and the second subset 353 includes a first memory region 3531 corresponding to the first input unit 315, second memory regions 3533, … corresponding to the second input unit 315, and an nth memory region corresponding to the nth input unit, where N is a natural number greater than or equal to 1.

The switching unit 38 is configured to perform switching selection on the multiple subsets, and the switching unit 38 includes a subset selection module 381, a record selection module 383, and a multiple indicator lamp 385. The multiple indicator lamps correspond to the multiple subsets one by one, and include a first subset indicator lamp 3851, a second subset indicator lamp 3853, …, and an nth subset indicator lamp, where N is a natural number greater than or equal to 1, the first subset indicator lamp 3851 corresponds to the first subset 351, the second subset indicator lamp 3853 corresponds to the second subset 353, and the nth subset indicator lamp corresponds to the nth subset. The subset selection module 381 selects the multiple subsets, the recording selection module 383 records the selection result, and the indicator lamp 385 indicates the selection result.

When the custom input system 30 is operating:

the control unit 37 switches to the setting mode, the control unit 37 may customize the instruction information into a custom key value 35111 and a custom character string 35113, and assign the custom key value 35111 and the custom character string 35113 to the first input unit 311, the storage unit 35 stores the custom key value 35111 and the custom character string 35113 in the first memory area 3511 of the first subset 351, meanwhile, the control unit 37 customizes the instruction information into a custom key value 35311 and a custom character string 35313, the custom key value 35311 corresponds to the custom character string 35313, and assigns the custom character string 35113 to the first input unit 311, and the storage unit 35 stores the custom key value 35311 and the custom character string 35313 in the first memory area 3531 of the second subset 353;

the control unit 37 exits the setting mode;

the subset selection module 381 may select the first subset 351, the first subset indicator light 3851 is selected, the recording selection module 383 records the selected subset as the first subset 351, the switching unit 38 transmits the selection result to the control unit 37, and the control unit 37 switches to the first custom operation mode;

if the first input unit 311 is triggered by the outside world to generate an input signal;

the detecting unit 33 detects the input signal generated by the first input unit 311 and transmits the input signal to the control unit 37;

after receiving the input signal, the control unit 37 selects the subset as the first subset 351 according to the selection result transmitted by the switching unit 38, extracts the user-defined key value 35111 and the user-defined character string 35113 stored in the first memory 3511 of the first input unit 311 corresponding to the first subset 351 in the storage unit 35, and transmits the same to the interface unit 39;

the interface unit 39 inputs the custom key value 35111 and the custom character string 35113 into the computer 20, and the computer 20 completes a command corresponding to the custom key value 35111 and displays the custom character string 35113 at the same time;

the subset selecting module 381 can switch to select the second subset 353, the second subset indicator lamp 3853 is selected, the record selecting module 383 records the selected subset as the second subset 353, the switching unit 38 transmits the selection result to the control unit 37, and the control unit 37 switches to the custom working mode corresponding to the second subset 353;

if the first input unit 311 is triggered again by the outside world to generate an input signal;

after receiving the input signal, the control unit 37 selects the subset as the second subset 353 according to the selection result transmitted by the switching unit 38, extracts the user-defined key value 35311 and the user-defined character string 35313 stored in the first memory region 3531 of the second subset 353 corresponding to the first input unit 311 from the storage unit 35, and sends the user-defined key value 35311 and the user-defined character string 35313 to the interface unit 39;

the interface unit 39 inputs the custom key value 35311 and the custom character string 35313 into the computer 20, and the computer 20 completes the command corresponding to the custom key value 35311 and displays the custom character string 35313.

If the control unit 37 enters the setting mode when in the first user-defined working mode, and then exits from the setting mode, the control unit 37 is in the first user-defined working mode.

Compared with the prior art, the customized input system 30 provided by the invention utilizes the control unit 37 to customize the instruction information, endows the instruction information to the multi-input unit 31, stores the instruction information corresponding to different multi-input units 31 in different subsets through the storage unit 35, corresponds to each instruction information to a set function, and finally inputs the customized key value and the customized character string of the instruction information into the computer 20 through the interface unit 39, so that the computer 20 displays the customized character string while finishing the command of the customized key value.

The control unit 37 is used for customizing the instruction information and giving the instruction information to the multi-input unit 31, the customized key values can be customized into multiple combined key values, the single input unit is triggered, the computer 20 completes complex multi-command operation, simple operation is achieved, meanwhile, the customized key values are reasonably given to the multi-input unit 31 according to the spatial position relation of the multi-input unit 31 and the practical habit of an operator, and the operation speed can be improved.

The adoption of the multiple user-defined working modes further simplifies the operation of the user-defined input system 30, and for different software, the quick, simple and convenient operation can be realized only by switching to the corresponding user-defined working mode.

The above description is only two embodiments of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A custom input system for data transfer with a computer, comprising:

the multi-input unit is triggered by the outside to generate an input signal;

a detection unit for detecting the input signal, the method further comprising:

the control unit comprises a setting mode and at least one user-defined working mode, receives the input signal transmitted by the detection unit in the user-defined working mode, self-defines instruction information in the setting mode, and endows the instruction information to the multi-input unit with a setting function, wherein the instruction information comprises a user-defined key value and a user-defined character string;

the storage unit is used for storing the user-defined key value and the user-defined character string which are endowed by the multi-input unit;

and the interface unit extracts the custom key value and the custom character string stored in the storage unit and transmits the custom key value and the custom character string to the interface unit after the control unit receives the input signal, and the interface unit inputs the custom key value and the custom character string into the computer and displays the custom key value and the custom character string.

2. The custom input system of claim 1, wherein: the interface unit comprises a key value input pipeline and a display input pipeline, the interface unit inputs the user-defined key value into the computer through the key value input pipeline, the user-defined character string is input into the computer through the display input pipeline, and the user-defined key value corresponds to the user-defined character string.

3. The custom input system of claim 2, the interface unit further comprising a setup pipe, the control unit switching a setup mode of the control unit through the setup pipe.

4. The custom input system of claim 1, wherein: the storage unit comprises a plurality of subsets, the subsets correspond to a plurality of user-defined working modes of the control unit respectively, and each subset corresponds to the multi-input unit to store the user-defined key values and the user-defined character strings.

5. The custom input system of claim 4, wherein: the user-defined input system also comprises a switching unit, wherein the switching unit selects the subset and transmits the selection result to the control unit, so that the control unit can switch among a plurality of user-defined working modes.

6. The custom input system of claim 1, wherein: the user-defined key value can be a single key value or a combined key value.

7. The custom input system of claim 1, wherein: the multi-input unit may include one or more of a key, a wheel, a knob, a joystick, and a touch sensor.

8. A custom input method using the custom input system of any of claims 1-7, comprising the steps of:

the multi-input unit is triggered to generate an input signal;

and the interface unit inputs the custom key value and the custom character string into the computer.

9. The custom input method of claim 8, wherein: the control unit extracts the user-defined key values and the user-defined character strings stored in the corresponding subset of the storage unit and transmits the user-defined key values and the user-defined character strings to the interface unit.