CN108304079B - Input system and operation method thereof - Google Patents

Abstract

An input system and an operation method thereof are provided, wherein the input system comprises a storage unit, a fingerprint detection unit, an input interface and a processing unit. The storage unit is used for storing n setting files and n fingerprint image files corresponding to the n setting files. The fingerprint detection unit is used for reading a fingerprint of a user and sending corresponding data. The input interface is used for receiving a hot key input of the user. The processing unit is coupled to the storage unit, the fingerprint detection unit and the input interface. The processing unit is used for comparing the data with the n fingerprint files to identify the user, selecting a setting file corresponding to the user from the n setting files, and converting the hot key input into a group of function inputs according to the selected setting file.

Description

Input system and operation method thereof

Technical Field

The present disclosure relates to an input system, and more particularly, to an input system capable of detecting a plurality of fingerprints and selecting a profile to support hot key input.

Background

Input devices such as keyboards and mice are widely used as input/output interfaces of computers. The user may apply the desired input to the computer through a commercially available keyboard, mouse, or similar device (e.g., trackball, etc.). However, the input devices currently available on the market still have a high degree of inconvenience in use.

For example, if the user is a game player or an operator of a specific software, the specific key combination may be repeatedly executed to achieve the function desired by the user. The user must enter a highly complex key combination by himself, which causes great inconvenience in application.

For example, if the operation of the well-known classic game "double dragon" (manufactured by TECHN ō S JAPAN company) is used, the user may need to input the key combination of ═ ↓ ↓ ↓ ↓ ← → → BA "to increase the" number of life "of the game character, but if the game player needs to manually input the complex key combination, the operation may be inconvenient, and even the key input may fail due to hand error. Similarly, similar problems may occur when operating other games or applications. The above situation actually causes the user's trouble, and is disadvantageous to the convenience of using the input device and the user's experience.

Disclosure of Invention

An embodiment of the disclosure provides an input system, which includes a storage unit, a fingerprint detection unit, an input interface, and a processing unit. The storage unit is used for storing n hot key setting files and n fingerprint image files corresponding to the n hot key setting files. The fingerprint detection unit is used for reading a fingerprint of a first user and sending corresponding first data. The input interface is used for receiving a first hot key input of the first user. The processing unit is coupled to the storage unit, the fingerprint detection unit and the input interface, and is used for comparing the first data with the n fingerprint image files to identify the first user, selecting a first hot key setting file corresponding to the first user from the n hot key setting files, and converting the first hot key input into a first group of function input according to the first hot key setting file. Wherein each hot key setting file of the n hot key setting files records m groups of hot key settings, each group of hot key settings is a hot key input and a corresponding macro code of a group of function inputs, and n and m are positive integers larger than 1.

Another embodiment of the present disclosure provides an operating method of an input system. The input system comprises a storage unit, n hot key setting files, n fingerprint image files corresponding to the n hot key setting files, a fingerprint detection unit and an input interface. The operation method comprises the steps that the fingerprint detection unit reads a fingerprint of a first user and sends corresponding first data; comparing the first data with the n fingerprint files to identify the first user, and selecting a first hot key setting file corresponding to the first user from the n hot key setting files; the input interface receives a first hot key input of the first user; and converting the first hot key input into a first group of function inputs according to the first hot key setting file. Wherein each hot key setting file of the n hot key setting files records m groups of hot key settings, each group of hot key settings is a hot key input and a corresponding macro code of a group of function inputs, and n and m are positive integers larger than 1.

Drawings

Fig. 1 is a schematic application diagram of an input system according to an embodiment of the present disclosure.

Fig. 2 is a schematic application diagram of an input system according to another embodiment of the present disclosure.

Fig. 3 is a schematic application diagram of an input system according to another embodiment of the present disclosure.

Fig. 4 is a flow chart corresponding to the method of operation of fig. 3.

FIG. 5 is a flowchart illustrating the operation steps of deactivating the hotkey profile according to an embodiment of the present disclosure.

Fig. 6 is an application schematic diagram of an input system of another embodiment of the present disclosure.

FIG. 7 is a flowchart illustrating the steps of a method for switching users according to an embodiment of the present disclosure.

Description of reference numerals:

100 input system

110 storage unit

120 fingerprint detection unit

130 input interface

140 processing unit

150 timing unit

p1-pn, p2, pi, pj hotkey profiles

f1-fn, f2, fi, fj fingerprint files

u1, u2, ui, uj Users

fp1, fp2, fpi, fpj fingerprints

H1, H2, Hi, Hj hot key input

d1, d2, di, dj data

300 method of operation

310-360, 710-740 steps

Detailed Description

Fig. 1 is a schematic diagram of an application of an input system 100 according to an embodiment of the present disclosure. The input system 100 may include a storage unit 110, a fingerprint detection unit 120, an input interface 130, and a processing unit 140. The storage unit 110 is configured to store n hot-key profiles (hot-key profiles) p1-pn and n fingerprint profiles f1-fn respectively corresponding to the n hot-key profiles p 1-pn. Wherein, the hot key setting file p1 corresponds to the fingerprint picture file f1, the hot key setting file p2 corresponds to the fingerprint picture file f2, and so on. The fingerprint detection unit 120 is configured to read a fingerprint, and in the example of fig. 1, may read a fingerprint fp1 of a first user u1 and send first data d1 corresponding to the fingerprint fp 1. The input interface 130 may be, for example but not limited to, a keyboard, and the input interface 130 may be used to receive a first hot key input H1 of a first user u 1. The processing unit 140 may be coupled to the storage unit 110, the fingerprint detection unit 120 and the input interface 130. The processing unit 140 can be used to compare the first data d1 with the n fingerprint files f1-fn to identify the first user u 1. According to the embodiment of the present disclosure, if the storage unit 110, the input interface 130 and/or the fingerprint detection unit 120 are wireless devices (e.g., wireless keyboard, wireless mouse, wireless transmission detector, etc.), the processing unit 140 may be connected to the storage unit 110, the fingerprint detection unit 120 and/or the input interface 130 via a wireless path.

For example, if n is 4, the fingerprint files f1-f4 may correspond to fingerprints of four people, e.g., son, daughter, father, mother, respectively, of a family. If the first user u1 is a son, when the son presses the fingerprint fp1 against the fingerprint detection unit 120, the processing unit 140 receives the first data d1 corresponding to the fingerprint fp1 from the fingerprint detection unit 120, compares the first data d1 with the fingerprint files f1-f4, and if the first data d1 matches the fingerprint file f1, the processing unit 140 identifies the user pressing the fingerprint detection unit 120 as the first user u1 (in this example, a son) and not other users (in this example, a daughter, a father, and a mother). After recognizing the user as the first user u1, the processing unit 140 can select the first hot key profile p1 corresponding to the first user u1 from the n hot key profiles p 1-pn. The processing unit 140 may convert the first hotkey input H1 into a first set of function inputs F1 according to the selected first hotkey profile p 1. For example, as shown in table 1:

table 1

First hot key input H1	First set of functional inputs F1
		@	↑↑↓↓←←→→BA

In other words, in this embodiment, the processing unit 140 can search the first hot key setting stage p1 by the first user u1 simply by typing the symbol "@" in the input interface 130 (e.g., keyboard), and recognize that the symbol "@" is the first hot key input H1, so as to convert it into the first set of function inputs F1, i.e., "= ↓ ↓ ↓ ↓ ↓ ↓ ← → → → BA", so that the first user u1 does not manually type complex content of "= ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ ↓ → → → → → → → → → → → → → → → → → BA", thereby effectively improving.

The n hotkey profiles p1-pn in FIG. 1 may correspond to n users, such as user u 1-un. If the above example of a family is used, the comparison can be as shown in Table 2:

table 2

Table 2 illustrates an application scenario of the embodiment of the present disclosure, taking different fingerprints corresponding to different users as an example, but if the same user wants to set the index finger fingerprint and the middle finger fingerprint respectively under special conditions, the input system 100 may also support setting files corresponding to different hot keys.

In Table 2, each of the hot key profiles p1-pn can record m sets of hot key settings (hot-key setting). Each hot key set can be a hot key input and a corresponding macro code (macro) of a set of function inputs, and the parameters n and m are positive integers greater than 1.

For example, if the parameter m is 18, the hot key profile p1 may have 18 sets of hot key settings, which may be described in table 3:

no. 3 table

Therefore, the input system 110 provided by the embodiment of the present disclosure can be used by a plurality of users u1-un, and each user can use its own hot key profile after sensing the fingerprint, so as to achieve a convenient and highly accurate input operation. The input interface 130 of fig. 1 is not limited to a keyboard, and may be, for example, a keyboard, a mouse, a joystick, a voice input device, and/or a handheld controller (e.g., a steering wheel for game, a sensor gun for game, a body sensor controller), etc. Therefore, the above-mentioned hot key input may be an input allowed to be executed according to the type of the input interface 130, for example, a hand-held body controller performing a waving motion may be set as a hot key input. The function inputs may also include a dwell time, such as 500 milliseconds (millisecond).

According to embodiments of the present disclosure, the function input corresponding to the hot key input may be a combination of inputs executable by various input devices. Taking the hot key setting 03 in table 3 as an example, when the user inputs "%", the processing device 140 can convert it into "double click of left mouse button and keyboard input ggg", so it can be a combination of two input devices.

According to the embodiment of the present disclosure, the input system 100 may optionally include a timing unit 150. The timing unit 150 may be coupled to the processing unit 140 for starting timing when the input interface 130 stops receiving the input, and stopping timing and zeroing the timing when the input interface 130 receives the input. The processing unit 140 stops using the hot key profile being used when the time that is not input through the input interface 130 is higher than the threshold value according to the timing of the timing unit 150. For example, if the son uses the input system 100 to operate a game, the processing unit 140 may select the first hot key profile p1, but when the son leaves and the input interface 130 (e.g., keyboard, mouse) does not receive any input operation for more than 5 minutes of the threshold value, the processing unit 140 may deactivate the first hot key profile p1 to enter a preset mode, i.e., an initial mode without hot key macros. The threshold value can be set by the user to meet the use requirement.

Fig. 2 is a schematic application diagram of an input system 100 according to another embodiment of the disclosure. According to the embodiment of the present disclosure, the fingerprint detection unit 120 can read the fingerprint of the second user u2 and send the corresponding second data d 2. The processing unit 140 compares the second data d2 with the n fingerprint files f1-fn to identify the second user u 2. From fig. 1 to 2, when the processing unit 140 recognizes that the user is not the first user u1 (e.g., son) but the second user u2 (e.g., daughter), the first hotkey profile p1 is disabled and the second hotkey profile p2 corresponding to the second user u2 is selected from the hotkey profiles p 1-pn. The input interface 130 may receive a second hot key input H2 of a second user u 2. The processing unit 140 may convert the second hotkey input H2 into a second set of functional inputs according to the second hotkey profile. In other words, when the user changes his or her person, the input system 100 can disable the hot key profile that was originally used and change to the new user's hot key profile so that the new user can use the customized hot key macro.

According to an embodiment of the present disclosure, each of the hot key profiles p1-pn of FIGS. 1-2 may have a set of a functional modes, each of which may document b sets of hot key settings. Wherein, the parameters a and b are positive integers, a and/or b is larger than 1, and the parameter m is the product of a and b. Taking table 4 as an example, where a is 3, b is 6, and m is 18, that is, there are 3 sets of function modes, and each set of function mode describes 6 sets of hotkey settings, so there are 18 sets of hotkey settings in total.

4 th table

Table 4 may be referenced against Table 3. in the example of Table 4, hot key settings may be categorized into a plurality of functional modes to facilitate user management of their hot key settings. For example, a first user u1 (e.g., a son) can set the common hot key settings of the first game, the second game, and the third game to the function mode 1, the function mode 2, and the function mode 3 of the hot key setting file p1, respectively. According to the embodiment of the present disclosure, a User Interface (UI) may also be designed, so that a user may name and manage the hot key setting or review the contents of the hot key setting file to improve the user experience. Similarly, other users can also set and review the function mode and hot key setting of the hot key setting file.

According to the embodiment of the present disclosure, the user can also select to disable the function mode that the user does not want to use through the user interface. For example, when the user operates the first game, functional mode 1 may be enabled and functional modes 2-3 may be disabled, and thus, the hot key input of functional mode 1 may be repeated with the hot key input map of functional modes 2-3, but may correspond to a different functional input. This allows the user to use his or her conventional hot keys without causing conflicts in the application, thereby improving the user's experience.

According to the embodiment of the present disclosure, after identifying the user, the processing unit 140 may set the hotkey profile to the editing mode, thereby allowing the user to edit the hotkey profile. For example, after the daughter (second user u2) in the above example presses his fingerprint fp2 on the fingerprint detection unit 120, the daughter can edit her own hot key profile p2 through a specific operation interface or command. Similarly, other users can edit their dedicated hot key profile after the processing unit 140 successfully recognizes the hot key profile.

According to an embodiment of the present disclosure, the storage unit 110 shown in fig. 1-2 can be integrated on a host side. For example, the storage unit 110 may use a memory space of a hard disk of the host computer. For the home user situation, if the input interface 130 is less moved to other locations, it is a suitable solution to integrate the storage unit 110 on the host side, and the hardware requirement of the input device can be reduced.

According to another embodiment of the present disclosure, the storage unit 110 and the input interface 130 may be integrated on an input device side. For example, when the input interface 130 is a wireless mouse, a flash memory (flash memory) or a random access memory (random access memory) may be embedded in the wireless mouse as the storage unit 110, and the user carries the wireless mouse to a different host or notebook computer even if the user carries a hotkey profile in the storage unit 110. For a working team who needs to move to different working places, it is an applicable solution to integrate the storage unit 110 and the input interface 130 into the input device.

According to an embodiment of the present disclosure, the fingerprint detector 120 may be integrated with the input interface 130 into an input device for facilitating user operation. However, the embodiments of the present disclosure are not limited thereto, and the developer may separate the fingerprint detector 120 from the input interface 130 according to product specifications.

According to an embodiment of the present disclosure, a non-transitory computer-readable medium may be used so that the processing unit 140 may perform the above-described operations. For example, specific hardware/firmware applications, drivers, user interfaces, etc. that may be read and executed by the processing unit 140 may perform the operations described herein. The non-transitory computer readable medium described herein may be downloaded over a network, or may be stored in the storage unit 110. The developer can plan the implementation mode according to the product specification.

Upon initial use of the input system 100, a specific application program may be executed to configure the user and document the fingerprint files f1-fn via the user interface. For example, the family members can press the fingerprints in sequence, so as to create fingerprint files f1-f4 of children, girls, fathers and mothers, which are stored in the storage unit 110.

Fig. 3 is a schematic application diagram of an input system 100 according to another embodiment of the present disclosure. Fig. 4 is a flow chart corresponding to the method of operation 300 of fig. 3. As shown in fig. 3-4, the method 300 of operation may include the steps of:

step 310: the fingerprint detection unit 120 may read the fingerprint fpi of the user ui and send the corresponding data di;

step 320: comparing the data di with the n fingerprint files f1-fn to identify the user ui, and selecting a hot key profile pi corresponding to the user ui from the n hot key profiles p 1-pn;

step 330: the input interface 130 receives a hot key input Hi of the user ui; and

step 340: and converting the hot key input Hi into a corresponding group of function inputs according to the hot key setting file pi.

Wherein, the parameter i can be a positive integer, and i is more than or equal to 1 and less than or equal to n.

FIG. 5 is a flowchart illustrating the operation steps of deactivating the hotkey profile according to an embodiment of the present disclosure. If referring to fig. 3-4 in combination, fig. 5 may include:

step 350: when the input interface 130 stops receiving the input, the timing unit 150 starts timing; and

step 360: when the time when the input interface 130 does not receive the input is higher than the threshold value, the use of the hot key profile pi is stopped.

The step 350 may be optionally executed after the step 340, and the principle and examples thereof can be found in the foregoing and are not described herein again.

Fig. 6 is a schematic application diagram of an input system 100 according to another embodiment of the present disclosure. FIG. 7 is a flowchart illustrating the steps of a method for switching users according to an embodiment of the present disclosure. Referring to fig. 3-4, 6, fig. 7 may include the following steps:

step 710: the fingerprint detection unit 120 reads the fingerprint of the user uj and sends corresponding data dj;

step 720: comparing the data dj with the fingerprint files f1-fn to identify the user uj, stopping using the hot key setting file pi, and selecting the hot key setting file pj corresponding to the user uj from the hot key setting files p 1-pn;

step 730: the input interface 130 receives a hot key input Hj of a user uj; and

step 740: and converting the hot key input Hj into a corresponding group of function inputs according to the hot key setting file pj.

Wherein, the parameter j can be a positive integer, j is more than or equal to 1 and less than or equal to n, and i is not equal to j. Steps 710-740 may optionally be performed after step 340. Fig. 7 relates to the operation steps of switching users, and the principle and example thereof can be seen from the above and are not described in detail.

In summary, according to the embodiments of the present disclosure, for the commonly used complicated input, the hot key macro can be established by using the hot key setting in the hot key setting file, so that the user can conveniently and correctly input the desired content. In addition, the input system provided by the embodiment of the disclosure can support a plurality of users, and the users can use the hot key setting files edited by the users respectively by detecting fingerprints, so that the input system is suitable for family users or team users. In the hot key setting file, the hot key setting can be managed through the setting of the function mode, thereby improving the experience of the user. Thus, the present disclosure is useful for ameliorating existing deficiencies in the art.

The above description is only a preferred embodiment of the present disclosure, and all equivalent changes and modifications made in the claims of the present disclosure should be covered by the present disclosure.

Claims (14)

1. An input system, comprising:

a storage unit for storing n hot key setting files and n fingerprint image files corresponding to the n hot key setting files;

the fingerprint detection unit is used for reading a fingerprint of a first user and sending corresponding first data;

an input interface for receiving a first hot key input of the first user; and

a processing unit, coupled to the storage unit, the fingerprint detection unit and the input interface, for comparing the first data with the n fingerprint files to identify the first user, selecting a first hot key profile corresponding to the first user from the n hot key profiles, and converting the first hot key input into a first set of function inputs according to the first hot key profile;

wherein each hot key setting file of the n hot key setting files records m groups of hot key settings, each group of hot key settings is a hot key input and a corresponding macro code of a group of function inputs, and n and m are positive integers greater than 1.

2. The input system of claim 1, further comprising:

the timing unit is coupled with the processing unit and used for starting timing when the input interface stops receiving input and stopping timing when the input interface receives input and enabling the timing to return to zero;

the processing unit is further configured to stop using the first hotkey profile when the time that the input interface is not input is higher than a threshold value according to the timing of the timing unit.

3. The input system of claim 1, wherein:

the fingerprint detection unit is used for reading the fingerprint of a second user and sending corresponding second data;

the input interface is further used for receiving a second hot key input of the second user; and

the processing unit is further configured to compare the second data with the n fingerprint files to identify the second user, stop using the first hot key profile, select a second hot key profile corresponding to the second user from the n hot key profiles, and convert a second hot key input into a second set of functional inputs according to the second hot key profile.

4. The input system of claim 1, wherein:

each hot key setting file of the n hot key setting files records a group of function modes, and each function mode records b groups of hot key settings;

wherein a and b are positive integers, a and/or b is greater than 1, and m is the product of a and b.

5. The input system of claim 1, wherein the processing unit is further configured to:

after identifying the first user, setting the first hot key profile to an editing mode, thereby allowing the first user to edit the first hot key profile.

6. The input system of claim 1, wherein the input interface is a keyboard, a mouse, a joystick, a voice input device, and/or a handheld controller.

7. The input system of claim 1, wherein the storage unit is disposed at a host.

8. The input system of claim 1, wherein the storage unit and the input interface are integrated into an input device.

9. The input system of claim 1, further comprising:

a non-transitory computer readable medium for reading by the processing unit to compare the first data with the n fingerprint profiles to identify the first user, selecting the first hot key profile corresponding to the first user from the n hot key profiles, and converting the first hot key input into the first set of function inputs according to the first hot key profile.

10. The input system of claim 9, wherein the non-transitory computer readable medium is stored in the storage unit.

11. An operation method of an input system, the input system includes a storage unit, stores n hot key setting files, and n fingerprint figure files corresponding to the n hot key setting files, a fingerprint detection unit and an input interface, the operation method includes:

the fingerprint detection unit reads a fingerprint of a first user and sends corresponding first data;

comparing the first data with the n fingerprint files to identify the first user, and selecting a first hot key setting file corresponding to the first user from the n hot key setting files;

the input interface receives a first hot key input of the first user; and

converting the first hot key input into a first group of function inputs according to the first hot key setting file;

wherein each hot key setting file of the n hot key setting files records m groups of hot key settings, each group of hot key settings is a hot key input and a corresponding macro code of a group of function inputs, and n and m are positive integers greater than 1.

12. The method of claim 11, wherein the input system further comprises a timing unit, the method further comprising:

when the input interface stops receiving input, the timing unit starts timing; and

and when the time that the input interface does not receive the input is higher than a threshold value, stopping using the first hot key setting file.

13. The method of operation of claim 11, further comprising:

the fingerprint detection unit reads a fingerprint of a second user and sends corresponding second data;

comparing the second data with the n fingerprint files to identify the second user, stopping using the first hot key setting file, and selecting a second hot key setting file corresponding to the second user from the n hot key setting files;

the input interface receives the second hot key input of the second user; and

and converting a second hot key input into a second group of function inputs according to the second hot key setting file.

14. The method of operation of claim 11, further comprising:

after identifying the first user, the first hot key setting file is set to an editing mode, so that the first user is allowed to edit the first hot key setting file.

Images