CN106527824B - User equipment control method and device and user equipment - Google Patents

Abstract

The invention provides a user equipment control method and device and user equipment. Wherein, the method comprises the following steps: acquiring an electric signal combination generated by the light sensor array on the change of the light intensity; inquiring a control instruction corresponding to the electric signal combination; and executing the control instruction. According to the invention, the problem of large power consumption of the user equipment controlled by the touch screen is solved, and the power consumption of the user equipment is reduced.

Description

User equipment control method and device and user equipment

Technical Field

The invention relates to the field of communication, in particular to a user equipment control method and device and user equipment.

Background

With the popularization of smart devices and wearable devices, there are also various ways to input to user devices, for example: touch screen, voice input, etc.

The inventor of the present invention finds in the research process that the endurance of the portable user equipment is short due to the low battery capacity of the portable user equipment; the touch screen is used as a part with the largest power consumption in the portable user equipment, and the power consumption of the touch screen is further increased when the touch screen is frequently used for operating the user equipment.

Aiming at the problem of large power consumption of user equipment controlled by a touch screen in the related art, an effective solution is not provided at present.

Disclosure of Invention

The invention provides a user equipment control method, a user equipment control device and user equipment, and aims to at least solve the problem of high power consumption of user equipment controlled through a touch screen in the related art.

According to an aspect of the present invention, there is provided a user equipment manipulation method, including: acquiring an electric signal combination generated by the light sensor array on the change of the light intensity; inquiring a control instruction corresponding to the electric signal combination; and executing the control instruction.

Optionally, the electric signal combination is composed of a group of light sensor numbers sequentially generated in time sequence, wherein each light sensor number in the group of light sensor numbers respectively represents an action that the light intensity detected by one light sensor of the corresponding light sensor number in the light sensor array changes from high to low, and the change of the light intensity from high to low refers to a change from the light intensity being higher than a predetermined threshold value to the light intensity being lower than the predetermined threshold value.

Optionally, querying the manipulation instruction corresponding to the combination of electrical signals comprises: and inquiring the control instruction corresponding to the number of the group of light-sensitive sensors in a preset action library.

According to another aspect of the present invention, there is also provided a user equipment manipulation apparatus, including: the acquisition module is used for acquiring an electric signal combination generated by the light sensor array on the change of the light intensity; the query module is used for querying the control instruction corresponding to the electric signal combination; and the execution module is used for executing the control instruction.

Optionally, the electric signal combination is composed of a group of light sensor numbers sequentially generated in time sequence, wherein each light sensor number in the group of light sensor numbers respectively represents an action that the light intensity detected by one light sensor of the corresponding light sensor number in the light sensor array changes from high to low, and the change of the light intensity from high to low refers to a change from the light intensity being higher than a predetermined threshold value to the light intensity being lower than the predetermined threshold value.

Optionally, the query module is configured to query the control instruction corresponding to the number of the group of light-sensing sensors in a preset action library.

According to another aspect of the present invention, there is also provided a user equipment, including: the device comprises a light sensor array, a memory and a processor, wherein the light sensor array is connected with the processor and comprises a plurality of light sensors with light sensor numbers, and the light sensors are used for detecting the change of light intensity and generating electric signals; the memory is connected with the processor and is used for storing a control instruction corresponding to the combination of the electric signals generated by the light sensor array on the change of the light intensity; the processor is used for inquiring a control instruction corresponding to the electric signal combination generated by the light sensor array on the change of the light intensity in the memory.

Optionally, the electric signal combination is composed of a group of light sensor numbers sequentially generated in time sequence, wherein each light sensor number in the group of light sensor numbers respectively represents an action that the light intensity detected by one light sensor of the corresponding light sensor number in the light sensor array changes from high to low, and the change of the light intensity from high to low refers to a change from the light intensity being higher than a predetermined threshold value to the light intensity being lower than the predetermined threshold value.

Optionally, the user equipment further includes: the light sensing sensor array enabling switch is connected with the light sensing sensor array and used for enabling the light sensing sensor array.

Optionally, the user equipment further includes: the touch control display screen is connected with the processor, and the processor is further used for closing the touch control function of the touch control display screen under the condition that the light sensation sensor array is enabled.

According to the invention, an electric signal combination generated by the light sensor array on the change of the light intensity is obtained; inquiring a control instruction corresponding to the electric signal combination; the method for executing the control instruction solves the problem that the power consumption of the user equipment controlled by the touch screen is large, and reduces the power consumption of the user equipment.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

fig. 1 is a flowchart of a user equipment manipulation method according to an embodiment of the present invention;

FIG. 2 is a first diagram illustrating an arrangement of photo sensor arrays according to an embodiment of the present invention;

FIG. 3 is a second schematic diagram of an arrangement of photo sensor arrays according to an embodiment of the present invention;

fig. 4 is an alternative flow chart of a user equipment manipulation method according to an embodiment of the present invention;

fig. 5 is a block diagram of a structure of a user equipment manipulation apparatus according to an embodiment of the present invention;

fig. 6 is a block diagram of a structure of a user equipment according to an embodiment of the present invention.

Detailed Description

The invention will be described in detail hereinafter with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

In this embodiment, a method for operating a user equipment is provided, and fig. 1 is a flowchart of the method for operating the user equipment according to the embodiment of the present invention, as shown in fig. 1, the flowchart includes the following steps:

step S102, acquiring an electric signal combination generated by the light sensor array on the change of the light intensity;

step S104, inquiring a control instruction corresponding to the electric signal combination;

and step S106, executing the control command.

Through the steps, the user equipment is controlled by adopting the combination of the electric signals generated by the light sensor array, and the number of the light sensor array can be less, and the power consumption of the light sensor array is smaller than that of the touch screen, so that the problem of large power consumption of the user equipment controlled by the touch screen can be solved if the light sensor array is used for replacing the touch screen to control the user equipment, and the power consumption of the user equipment is reduced. Meanwhile, the embodiment of the invention also provides a new method for controlling the user equipment through the steps.

The user equipment which can be applied by the user equipment comprises: fixed devices and portable devices, which are not limited in the embodiments of the present invention. In the embodiment of the present invention, the embodiment will be described by taking user equipment as an example.

The working principle of the light sensor is to react to the light intensity so as to generate a corresponding electric signal; the light intensity in the embodiments of the present invention includes: the light intensity of the light directly irradiated on the light-sensitive sensor may also include the light intensity of the light emitted by the light-sensitive sensor and reflected back to the light-sensitive sensor by the manipulation object (e.g., finger).

Optionally, the electrical signal combination is composed of a group of light-sensitive sensor numbers sequentially generated in time sequence, wherein each light-sensitive sensor number in the group of light-sensitive sensor numbers respectively represents an action that one light-sensitive sensor of the corresponding light-sensitive sensor number in the light-sensitive sensor array detects that the light intensity is changed from high to low, and the change of the light intensity from high to low refers to a change from the light intensity being higher than a predetermined threshold value to the light intensity being lower than the predetermined threshold value.

For example, a predetermined threshold value of the light intensity of the light of a specific frequency may be set in advance. When the detected light with the specific frequency exceeds the light intensity of the preset threshold value, the light sensor generates an electric signal indicating that the light intensity is high according to a certain frequency; when the light intensity of the specific frequency is detected to be lower than the light intensity of the preset threshold value, the light sensor generates an electric signal indicating that the light intensity is low according to a certain frequency.

The light sensors in the array of light sensors are numbered (or a specific identifier is used to distinguish each light sensor) so that the corresponding electrical signals generated are also numbered. The combination of electrical signals consists of a string of numbered electrical signals in a certain order.

Optionally, in step S104, a manipulation instruction corresponding to a group of numbers of the light sensors is queried in the preset action library.

Fig. 2 is a first schematic diagram of an array of light-sensitive sensors according to an embodiment of the invention, and as shown in fig. 2, it is assumed that 1 is used for light-sensitive sensors with high light intensity and 0 is used for light intensity, and the array of light-sensitive sensors is arranged in a certain pattern by 5 light-sensitive sensors with numbers of 0-4. It should be noted that the pattern and the figure of the arrangement of the photo sensors are not limited, and may be arranged in a row, or may be arranged in a manner that 1 to 4 photo sensors as shown in fig. 2 surround a 0 photo sensor, except that the number of the photo sensors is not limited to 5, and may be other numbers, such as one arrangement of 9 photo sensors as shown in fig. 3.

If a group of operations corresponding to the combination of the electric signals is predefined and is preset in a preset action library, for example: the combination of the electric signals is as follows: "00 → 10", where "00" indicates that the light intensity of No. 0 photo sensor is low (0 at the end indicates the light intensity), "→" indicates a continuous motion at a predetermined interval not exceeding (this interval is generally short, at intervals of the order of milliseconds), and "10" indicates that the light intensity of No. 1 photo sensor fiber is low. When the action set in the preset action library of '00 → 10' is queried as the upward scroll screen, the user equipment performs an operation of scrolling the screen upward according to the combination of the electric signals. The above-mentioned "00 → 10" corresponds to the user's finger "sliding" from the No. 0 photosensor to the No. 1 photosensor of the photosensor array; the "sliding" does not necessarily need to be close to the surface of the light sensor, but may be a suspended sliding operation.

The above-mentioned "00 → 10" can also be simplified to the electric signal "0 → 1", that is, it is only indicated by the number of the photo sensor, and the intensity of the light detected by the corresponding photo sensor indicated by default is low.

However, the light sensor may generate an electric signal only for a low light intensity, but may be configured to generate an electric signal also for a high light intensity. For example, "00 → 01 → 00", the action corresponding to the user's finger is equivalent to the user performing a double-click action on the sensor No. 0, and assuming that the action corresponding to the combination of the electrical signals set in the preset action library is also a double-click operation, the user device will perform a double-click operation at the current cursor position according to the combination of the electrical signals.

It should be noted that when all the light sensors in the light sensor array detect that the light intensity is high, the light sensors are used as the starting positions of the combination of the electrical signals, and meanwhile, if the light sensors detect that the change time of the two light intensities does not exceed the predetermined interval, the electrical signals generated by the two light sensors are used as the electrical signals in the same electrical signal combination. For example, in the electric signal combination for performing the double-click operation in the above embodiment, "00 → 01 → 00", although "01" indicates that the light intensities detected by the No. 0 photo sensor and the other photo sensors are all high, since the time of change of the light intensities detected before and after is within a predetermined interval, the "01" signal is still combined with the two "00" signals before and after to form the electric signal combination of "00 → 01 → 00". The arrangement of the predetermined intervals makes the operation of the photo sensor array more diversified.

In some scenes, the light-sensing sensor array can partially or completely replace the touch function of a touch display screen, for example, control the pause, fast-forward and fast-backward of music playing, scroll up and scroll down when reading text, and the like. Therefore, under the condition that the light sensation sensor can meet the control requirement, the touch function of the touch display screen can be closed, and therefore power consumption is reduced. In addition, under the condition that the touch function of the touch display screen is started, the light sensor array can be selected to be closed.

Fig. 4 is an alternative flowchart of a user equipment manipulation method according to an embodiment of the present invention, and as shown in fig. 4, the flowchart includes the following steps:

number of the light sensor: the intelligent device numbers the light sensor array on the intelligent device as shown in FIGS. 2 and 3;

the intelligent device suspension operation switch: the opening and closing of the suspension operation can be selected in the 'setting' of the intelligent equipment;

detection of actions by the light sensor: the number and sequence of the photo sensor arrays detecting the change of light intensity within a certain time (e.g. 500 ms or 200 ms) (e.g. 0 → 1 corresponds to upward sliding; 0 → 2 corresponds to rightward sliding, etc. in fig. 2), the larger the number of the photo sensors in the array, the more the control action can be defined;

and (4) table lookup judgment operation action: and searching the action library according to the sequence of the numbers, judging the operation action of the user and reporting the operation action to a system to execute corresponding operation.

In the whole process, the display function of the touch screen normally works, and the duration of the touch screen is improved by down (namely closing).

Through the above description of the embodiments, those skilled in the art can clearly understand that the method according to the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but the former is a better implementation mode in many cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.

In this embodiment, a user equipment control device is further provided, and the device is used to implement the foregoing embodiments and preferred embodiments, and the description of the device already made is omitted. As used below, the term "module" may be a combination of software and/or hardware that implements a predetermined function. Although the means described in the embodiments below are preferably implemented in software, an implementation in hardware, or a combination of software and hardware is also possible and contemplated.

Fig. 5 is a block diagram of a user equipment manipulation apparatus according to an embodiment of the present invention, and as shown in fig. 5, the apparatus includes: an acquiring module 52, an inquiring module 54 and an executing module 56, wherein the acquiring module 52 is used for acquiring the combination of the electric signals generated by the light sensor array to the change of the light intensity; a query module 54, coupled to the obtaining module 52, for querying the manipulation instruction corresponding to the combination of the electrical signals; and an execution module 56, coupled to the query module 54, for executing the manipulation instruction.

Optionally, the electrical signal combination is composed of a group of light-sensitive sensor numbers sequentially generated in time sequence, wherein each light-sensitive sensor number in the group of light-sensitive sensor numbers respectively represents an action that one light-sensitive sensor of the corresponding light-sensitive sensor number in the light-sensitive sensor array detects that the light intensity is changed from high to low, and the change of the light intensity from high to low refers to a change from the light intensity being higher than a predetermined threshold value to the light intensity being lower than the predetermined threshold value.

Optionally, the query module 54 is configured to query the preset action library for the control command corresponding to the number of the group of light-sensitive sensors.

It should be noted that, the above modules may be implemented by software or hardware, and for the latter, the following may be implemented, but not limited to: the modules are all positioned in the same processor; alternatively, the modules are respectively located in a plurality of processors.

The embodiment also provides the user equipment. Fig. 6 is a block diagram of a user equipment according to an embodiment of the present invention, as shown in fig. 5, the user equipment includes: the system comprises a light sensor array 62, a memory 64 and a processor 66, wherein the light sensor array 62 is connected with the processor 66, the light sensor array 62 comprises a plurality of light sensors with light sensor numbers, and the light sensors are used for detecting the change of light intensity and generating electric signals; the memory 64 is connected with the processor 66, and the memory 64 is used for storing a control instruction corresponding to the combination of the electric signals generated by the light sensor array 62 for the change of the light intensity; and a processor 66 for querying the memory 64 for a manipulation instruction corresponding to the combination of the electrical signals generated by the light sensor array 62 for the variation of the light intensity.

Optionally, the electrical signal combination is composed of a group of light-sensitive sensor numbers sequentially generated in time sequence, wherein each light-sensitive sensor number in the group of light-sensitive sensor numbers respectively represents an action that one light-sensitive sensor of the corresponding light-sensitive sensor number in the light-sensitive sensor array detects that the light intensity is changed from high to low, and the change of the light intensity from high to low refers to a change from the light intensity being higher than a predetermined threshold value to the light intensity being lower than the predetermined threshold value.

Optionally, the user equipment further comprises: a light sensor array enable switch 68, wherein the light sensor array enable switch 68 is connected to the light sensor array 62 for enabling the light sensor array 62.

Optionally, the user equipment further comprises: a touch display screen 70, wherein the touch display screen 70 is connected to the processor 66, and the processor 66 is further configured to turn off the touch control function of the touch display screen 70 when the light sensor array 62 is enabled.

The light-sensitive sensor can be arranged on the front or the side of the user equipment.

The embodiment of the present invention also provides software for executing the technical solutions described in the above embodiments and preferred embodiments.

The embodiment of the invention also provides a storage medium. In the present embodiment, the storage medium described above may be configured to store program code for performing the steps of:

step S102, acquiring an electric signal combination generated by the light sensor array on the change of the light intensity;

step S104, inquiring a control instruction corresponding to the electric signal combination;

and step S106, executing the control command.

Optionally, in this embodiment, the storage medium may include, but is not limited to: various media capable of storing program codes, such as a usb disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic disk, or an optical disk.

Optionally, the specific examples in this embodiment may refer to the examples described in the above embodiments and optional implementation manners, and this embodiment is not described herein again.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A user equipment control method is characterized by comprising the following steps:

the touch control function of a touch display screen of the user equipment is closed by enabling the light sensor array;

under the condition that the light sensor array is enabled, acquiring an electric signal combination generated by the light sensor array for changing the light intensity, wherein the electric signal combination is formed by a group of light sensor numbers which are sequentially generated according to a time sequence, each light sensor number in the group of light sensor numbers respectively represents the action that the light intensity detected by one light sensor of the corresponding light sensor number in the light sensor array changes from high to low, and the change of the light intensity from high to low means that the light intensity is changed from being higher than a preset threshold value to being lower than the preset threshold value;

and inquiring a control instruction corresponding to the electric signal combination, and executing the control instruction.

2. The method of claim 1, wherein querying the manipulation instruction corresponding to the combination of electrical signals comprises:

and inquiring the control instruction corresponding to the number of the group of light-sensitive sensors in a preset action library.

3. A user equipment manipulation apparatus, comprising:

the system comprises an acquisition module, a control module and a control module, wherein the acquisition module is used for closing the touch control function of a touch display screen of user equipment by enabling a light sensation sensor array, and acquiring an electric signal combination generated by the light sensation sensor array when the light sensation sensor array is enabled, wherein the electric signal combination is composed of a group of light sensation sensor numbers sequentially generated according to a time sequence, each light sensation sensor number in the group of light sensation sensor numbers respectively represents that the light intensity detected by one light sensation sensor of the corresponding light sensation sensor number in the light sensation sensor array changes from high to low, and the change of the light intensity from high to low means that the light intensity is changed from higher than a preset threshold value to lower than the preset threshold value;

and the query module is used for querying the control instruction corresponding to the electric signal combination and executing the control instruction.

4. The apparatus of claim 3,

the query module is used for querying the control instruction corresponding to the serial number of the group of light-sensitive sensors in a preset action library.

5. A user device, comprising: a light sensor array, a memory, and a processor, wherein,

the light sensor array is connected with the processor and comprises a plurality of light sensors with light sensor numbers, and the light sensors are used for detecting the change of light intensity and generating electric signals;

the memory is connected with the processor and is used for storing a control instruction corresponding to the combination of the electric signals generated by the light sensor array on the change of the light intensity;

the processor is used for closing the touch control function of the touch display screen of the user equipment by enabling the light sensation sensor array, acquiring an electric signal combination generated by the light sensation sensor array on the change of the light intensity under the condition that the light sensation sensor array is enabled, and inquiring an operation instruction corresponding to the electric signal combination generated by the light sensation sensor array on the change of the light intensity in the memory;

the electric signal combination is composed of a group of light sensor numbers which are sequentially generated according to a time sequence, wherein each light sensor number in the group of light sensor numbers respectively represents the action that the light intensity detected by one light sensor of the corresponding light sensor number in the light sensor array changes from high to low, and the change of the light intensity from high to low refers to the change from the light intensity being higher than a preset threshold value to the light intensity being lower than the preset threshold value;

the user equipment further comprises: the processor is further used for closing the touch control function of the touch display screen under the condition that the light sensation sensor array is enabled.

6. The UE of claim 5, further comprising: the array of light sensitive sensors enables the switch, wherein,

the light sensation sensor array enabling switch is connected with the light sensation sensor array and used for enabling the light sensation sensor array.

Images