WO2017000788A1

WO2017000788A1 - Method for controlling light display effect

Info

Publication number: WO2017000788A1
Application number: PCT/CN2016/085916
Authority: WO
Inventors: 郎能
Original assignee: 芋头科技（杭州）有限公司
Priority date: 2015-06-30
Filing date: 2016-06-15
Publication date: 2017-01-05
Also published as: CN106332399B; TWI604754B; HK1231666A1; CN106332399A; TW201720232A

Abstract

The invention relates to the technical field of intelligent terminals. Disclosed is a method for controlling a light display effect, comprising: performing a sensing operation, by respective sensors of an intelligent terminal, to obtain and transmit real-time environment data to a modulation unit; retrieving, by the modulation unit, and according to the real-time environment data, a corresponding scenario parameter so as to retrieve at least one set of modulation parameters; analyzing, by an analyzing unit, the real-time environment data and searching for a match between an analysis result and triggering condition parameters so as to retrieve and output a modulation effect parameter associated with a matched triggering condition parameter; and modulating, by the modulation unit, and according to the retrieved modulation effect parameter, a light display effect of the intelligent terminal. By performing a scenario analysis and determining the triggering condition, the above technical solution solves a problem arising when an intelligent terminal provides different light display effects in different scenarios according to needs of a user. The invention reduces limitation in controlling lights for the intelligent terminal, thereby improving user experience.

Description

Light display effect control method

Technical field

The present invention relates to the field of intelligent terminal technologies, and in particular, to a method for controlling a light display effect.

Background technique

In the prior art, the intelligent terminal, especially the intelligent robot, can usually give a corresponding reaction according to the operation of the user and simulate with different light display effects. In the existing intelligent terminal, the control of the light mainly triggers the fixed command to control the switch light through voice input, touch screen data or other input methods, or writes the logic of the light control through the native system in the smart terminal. In the smart terminal. Since the lighting control is commanded, the instruction set solidified inside the intelligent terminal is limited, so the operation of the light itself is limited, and it is impossible to expand more light display effects according to the user's needs, and the user cannot According to your own preferences, you can choose to control different lighting displays. This type of control can't adapt to different environments and scenes.

Summary of the invention

According to the problems existing in the prior art, a technical solution for a light display effect control method is provided, which aims to solve the problem that the control of the light display effect of the smart terminal existing in the prior art is relatively rigid and cannot be flexibly set according to user preferences. problem.

The above technical solutions specifically include:

A method for controlling a light display effect is applicable to an intelligent terminal; wherein a plurality of sets of adjustment parameters are preset in the smart terminal;

Among the set of adjustment parameters included in each group are:

a scene parameter for indicating a scenario to which the adjustment parameter is applied;

a plurality of adjustment effect parameters, respectively, for the smart terminal to adjust the light display effect;

a plurality of trigger condition parameters corresponding to the adjustment effect parameter;

The light display effect control method specifically includes:

Step S1, each sensor of the smart terminal senses external real-time environmental data, and concurrently sends Sent to a dispatching unit of the intelligent terminal;

Step S2, the scheduling unit retrieves corresponding scene parameters according to the real-time environment data, so as to retrieve corresponding at least one set of the adjustment parameters;

Step S3: A parsing unit of the intelligent terminal parses the real-time environment data, and matches the parsing result with the trigger condition parameter to retrieve a location associated with the matched trigger condition parameter. Adjust the effect parameters and output;

In step S4, the scheduling unit adjusts the display effect of the light of the smart terminal according to the adjusted effect parameter that is retrieved.

Preferably, the light display effect control method, wherein each of the adjustment parameters further includes:

a plurality of priority parameters, one-to-one corresponding to the adjustment effect parameter, wherein the priority parameter is used to indicate a priority of the corresponding adjustment effect parameter;

In the step S4, if a plurality of the adjustment effect parameters are retrieved, the adjustment effect parameter having the highest priority is selected and used to adjust the display effect of the light of the smart terminal.

Preferably, the light display effect control method, wherein, in the step S1, each sensor of the smart terminal comprises:

Light sensor; and/or

Temperature sensor; and/or

Image sensor; and/or

Voice sensor

The real-time environmental data includes: light sensing data, and/or temperature sensing data, and/or image data, and/or voice data.

Preferably, the light display effect control method, wherein the smart terminal analyzes the voice data collected by the voice sensor to obtain a corresponding natural language instruction, and includes the natural language instruction in the real-time environment data. in.

Preferably, the light display effect control method, wherein the smart terminal analyzes and obtains corresponding voiceprint data according to the voice data collected by the voice sensor, and includes the voiceprint data in the real-time environment data. in.

Preferably, the light display effect control method, wherein a set of the adjustment parameters are encapsulated in an adjustment parameter package;

Before performing step S1:

The smart terminal downloads the adjustment parameter package from a remote server; and/or

The preset adjustment parameter package is saved in the smart terminal.

Preferably, the light display effect control method, wherein, before performing the step S1, the smart terminal parses the obtained adjustment parameter packet to register a corresponding set of the adjustment parameters to the smart terminal in.

Preferably, the light display effect control method, wherein the smart terminal saves an association relationship between the real-time environment data and the correspondingly adjusted adjustment effect parameter, and collects the same real-time environment data again The corresponding adjustment effect parameter is directly retrieved according to the saved association relationship, so as to adjust the display effect of the light of the smart terminal according to the adjusted adjustment effect parameter.

Preferably, the light display effect control method, wherein the smart terminal is a smart terminal having a robot appearance.

The beneficial effects of the above technical solution are: according to the scene analysis and the judgment of the trigger condition, solving the problem that the intelligent terminal invokes different lighting display effect control schemes according to the user requirements in different scenarios, and expands the lighting control in the smart terminal. Limitations to enhance the user experience.

DRAWINGS

1 is a flow chart showing a method for controlling a light display effect in a preferred embodiment of the present invention.

detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

It should be noted that the embodiments in the present invention and the features in the embodiments may be combined with each other without conflict.

The invention is further illustrated by the following figures and specific examples, but is not to be construed as limiting.

In a preferred embodiment of the present invention, based on the above problems existing in the prior art, a A technical solution for controlling a light display effect method, in which a plurality of sets of adjustment parameters are first preset in the smart terminal.

In a preferred embodiment of the present invention, the adjusting parameters specifically include:

1) A scene parameter used to indicate the scene to which the adjustment parameters are applied. In a preferred embodiment of the present invention, only one scene parameter included in a set of adjustment parameters is used to indicate a topic to which the set of adjustment parameters is applied, for example, to indicate what kind of adjustment parameters the set of adjustment parameters can be used for. Light brightness and temperature in the surrounding environment scene.

2) A plurality of adjustment effect parameters are respectively provided for the intelligent terminal to adjust the light display effect. In a preferred embodiment of the present invention, a plurality of adjustment effect parameters may be included in a set of adjustment parameters, and each adjustment effect parameter may correspond to an adjustment scheme for specifically adjusting the light in the above scenario, that is, in the above In the application environment of the scene, different adjustment effect parameters can be selected according to the needs of each individual or different subtle scenes, so as to realize the adjustment control of different light display effects.

In a preferred embodiment of the present invention, each adjustment effect parameter may be a corresponding coding script, and the adjustment parameter includes a path of a javascript coding script corresponding to each adjustment effect parameter, and may be based on The path reads a specific coding script to perform an adjustment control of the corresponding light display effect.

3) Multiple trigger condition parameters correspond one-to-one with the adjustment effect parameters. In a preferred embodiment of the present invention, a trigger condition parameter corresponds to an adjustment effect parameter for use as a trigger condition for the corresponding adjustment effect parameter under the large frame of the above scenario. In other words, when the collected ambient parameters match the trigger condition in the large frame of the above scenario, the operation of adjusting the corresponding adjustment effect parameter is triggered, and then the adjusted adjustment effect parameter is adjusted to adjust the light display effect. control.

In a preferred embodiment of the present invention, in addition to the above several parameters, a set of adjustment parameters may further include:

4) Multiple priority parameters, which also correspond one-to-one with the adjustment effect parameters. In a preferred embodiment of the invention, a priority parameter corresponds to an adjustment effect parameter. The priority parameter is used to indicate the priority of the corresponding adjustment effect parameter, that is, when the collected surrounding environment parameter can satisfy the trigger condition of the plurality of adjustment effect parameters, the highest priority adjustment effect parameter is selected according to the priority parameter and performed. The adjustment is performed to adjust and control the light display effect according to the adjusted adjustment effect parameter.

In a preferred embodiment of the invention, the set of adjustment parameters are encapsulated in a corresponding adjustment parameter package. For example, it is packaged in an adjustment parameter compression package. The tarball can be pre-downloaded from a remote server. In other words, in a preferred embodiment of the present invention, the user can download the corresponding adjustment parameter compression package from the remote application server according to his own needs or preferences. In a preferred embodiment of the present invention, after the adjustment parameter compression package is downloaded and installed in the intelligent terminal, a plurality of parameters (scene parameters, adjustment effect parameters, trigger condition parameters, priority parameters, etc.) included therein are registered to In the registry of the smart terminal, the corresponding lighting display effect adjustment scheme is solidified into the smart terminal.

In a preferred embodiment of the present invention, the set of adjustment parameter packages may also be preset in the smart terminal and parsed to be registered in the registry of the smart terminal.

Therefore, in the preferred embodiment of the present invention, as shown in FIG. 1 , the method for controlling the light display effect specifically includes:

Step S1, each sensor of the intelligent terminal senses external real-time environment data, and sends the data to a scheduling unit of the smart terminal;

In a preferred embodiment of the present invention, each sensor of the smart terminal may include:

Light sensor; and/or

Temperature sensor; and/or

Image sensor; and/or

Voice sensor.

Therefore, in a preferred embodiment of the present invention, the real-time environment data may include:

Real-time ambient light data; and/or

Real-time temperature data; and/or

Real-time image sensing data; and/or

Real-time voice data.

Specifically, in the preferred embodiment of the present invention, the image sensor may be a camera and a subsequent image processing unit, so the real-time image sensing data may include a face image taken by the user according to the camera, and further according to the person. The face image obtains the corresponding face recognition data, so that the user's identity verification information can be obtained to verify the identity of the user.

In a preferred embodiment of the present invention, the voice data may be a pickup and a subsequent voice processing unit. Then the voice data may include:

1) The intelligent terminal can obtain the voice data input by the user through the pickup, and perform natural language processing (nip processing) according to the voice data, thereby obtaining corresponding natural language instructions to match the trigger condition.

2) The intelligent terminal can obtain the voice data input by the user through the pickup, and process according to the voice data to obtain the voiceprint data of the user, thereby performing identity verification on the user.

In other embodiments of the present invention, the smart terminal may further include other various types of sensors, and the foregoing real-time environment data may also include corresponding other various environmental data, which are not described herein again.

Step S2, the scheduling unit retrieves corresponding scene parameters according to the real-time environment data, so as to retrieve corresponding at least one set of adjustment parameters;

In a preferred embodiment of the present invention, after the real-time environment data is collected, the preset scene parameters are matched according to the real-time environment data (all the environment data included therein), and at least one corresponding scene parameter is selected, thereby Select all group adjustment parameters corresponding to the scene parameters.

Step S3: A parsing unit of the intelligent terminal parses the real-time environment data, and matches the parsing result with the trigger condition parameter to obtain an adjustment effect parameter associated with the matched trigger condition parameter and output the same;

In a preferred embodiment of the present invention, the smart terminal includes a parsing unit (also referred to as a condition parsing module). In the step S3, the parsing unit parses the real-time environment data and obtains the parsing according to the parsing. Various types of environmental data (such as ray data, and / or temperature data, and / or face recognition data, and / or voiceprint data, and / or natural language instructions, etc.), and based on these analytical environmental data in the north Matching is performed within a range of at least one set of adjustment effect parameters to obtain a matching trigger condition parameter, and then an adjustment effect parameter associated with the matched trigger condition erase book is retrieved and output.

In step S4, the scheduling unit adjusts the display effect of the light of the smart terminal according to the adjusted adjustment effect parameter.

In a preferred embodiment of the present invention, in the foregoing step S4, as described above, when the trigger condition is satisfied at least two (ie, at least two adjustment effect parameters are triggered), the priority corresponding to the adjustment effect parameter is Level, select the adjustment effect parameter with the highest priority and use it to adjust the light display effect.

The above light display effect control method is applied to a specific embodiment below:

In a preferred embodiment of the present invention, the smart terminal is first based on a light sensor and a temperature transfer The sensor collects real-time environmental data (including ray data and temperature data), and triggers corresponding scene parameters according to the real-time environment data, and then finds the adjustment effect parameter that matches the topic (may be more than one) from the registry ( Task) and the corresponding trigger condition (condition), the above parameters are passed together to the condition parser. The intelligent terminal then parses the real-time environment data through the parsing unit to finally determine the satisfied trigger condition parameters, and obtain corresponding adjustment effect parameters to adjust and control the light display effect.

In another preferred embodiment of the present invention, the smart terminal first collects real-time environment data (including environment volume data) according to the music player, and triggers corresponding scene parameters according to real-time environment data, and then from the registry. Find the adjustment effect parameter (task) that matches the topic (and possibly more than one) and the corresponding trigger condition (condition), and pass the above parameters together to the condition parser. The intelligent terminal then parses the real-time environment data through the parsing unit to finally determine the satisfied trigger condition parameters, and obtain corresponding adjustment effect parameters to adjust and control the light display effect.

In another preferred embodiment of the invention, the user typically turns on warm light, for example, at low light values and low temperatures. However, different users may like different warm colors, and the user can preset the appropriate lighting display effect and download and install in the case of the surrounding environment. The intelligent terminal first collects real-time environmental data (including light data, temperature data, face recognition data, and voiceprint data) according to the light sensor, the temperature sensor, and the image sensor and/or the voice sensor, and according to the real-time environmental data (light data and The temperature data triggers the corresponding scene parameter, and then finds the adjustment effect parameter (task) corresponding to the topic (possibly more than one) and the corresponding trigger condition parameter (condition), and transmits the above parameters to the analysis together. In the condition parser. Then, the smart terminal parses the real-time environment data through the parsing unit to determine the identity information of the user through the face recognition data and/or the voiceprint data, thereby finally determining the preset trigger condition parameter, and acquiring the corresponding adjustment effect parameter. Adjust and control the light display effect.

In a preferred embodiment of the present invention, the intelligent terminal may further store an association relationship between the real-time environment data and the corresponding adjusted effect parameter. Specifically, in a preferred embodiment of the present invention, the same real-time environment data can be obtained according to multiple acquisitions and the same adjustment effect parameter can be selected to strengthen the relationship between the corresponding real-time environment data and the adjustment effect parameter. In a preferred embodiment of the invention, face recognition data and/or voiceprints in real-time environmental data are employed. The data is authenticated to the user, and the corresponding adjustment effect parameters are directly obtained according to the real-time environment data and the association relationship that has been enhanced, and the adjustment effect of the light display effect is controlled. For example, if the user enters the bedroom between 23:00 and 24:00 for two consecutive days and turns on the dim orange light by voice, the real-time environmental data (user identity information and time information, etc.) and the corresponding adjustment effect parameters (dimated) The orange light shows the effect). Then, when the user enters the bedroom between the hours of 23:00 and 24:00 on the third day, the smart terminal identifies the user's identity information through the face recognition data and/or voiceprint data, and verifies the time information, and then directly retrieves the information. Adjust the effect parameters accordingly to adjust the light display to a dim orange light display without the user having to re-issue the command via voice.

In a preferred embodiment of the present invention, the smart terminal is an intelligent terminal having a robot appearance. In other words, in the preferred embodiment of the present invention, the above light display effect control method can be applied to an intelligent robot system.

The above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the embodiments and the scope of the present invention, and those skilled in the art should be able to Alternatives and obvious variations are intended to be included within the scope of the invention.

Claims

A lighting display effect control method is applicable to an intelligent terminal; and is characterized in that a plurality of sets of adjustment parameters are preset in the intelligent terminal;

Among the set of adjustment parameters included in each group are:

a scene parameter for indicating a scenario to which the adjustment parameter is applied;

a plurality of adjustment effect parameters, respectively, for the smart terminal to adjust the light display effect;

a plurality of trigger condition parameters corresponding to the adjustment effect parameter;

The light display effect control method specifically includes:

Step S1, each sensor of the smart terminal senses external real-time environment data, and sends it to a scheduling unit of the smart terminal;

Step S2, the scheduling unit retrieves corresponding scene parameters according to the real-time environment data, so as to retrieve corresponding at least one set of the adjustment parameters;

Step S3: A parsing unit of the intelligent terminal parses the real-time environment data, and matches the parsing result with the trigger condition parameter to retrieve a location associated with the matched trigger condition parameter. Adjust the effect parameters and output;

In step S4, the scheduling unit adjusts the display effect of the light of the smart terminal according to the adjusted effect parameter that is retrieved.
The lighting display effect control method according to claim 1, wherein each of the adjustment parameters further comprises:

a plurality of priority parameters, one-to-one corresponding to the adjustment effect parameter, wherein the priority parameter is used to indicate a priority of the corresponding adjustment effect parameter;

In the step S4, if a plurality of the adjustment effect parameters are retrieved, the adjustment effect parameter having the highest priority is selected and used to adjust the display effect of the light of the smart terminal.
The light display effect control method according to claim 1, wherein in the step S1, each sensor of the smart terminal comprises:

Light sensor; and/or

Temperature sensor; and/or

Image sensor; and/or

Voice sensor

The real-time environmental data includes: light sensing data, and/or temperature sensing data, and/or image data, and/or voice data.
The light display effect control method according to claim 3, wherein the smart terminal obtains a corresponding natural language instruction according to the voice data collected by the voice sensor, and includes the natural language instruction in In the real-time environment data.
The light display effect control method according to claim 3, wherein the smart terminal analyzes and obtains corresponding voiceprint data according to the voice data collected by the voice sensor, and includes the voiceprint data in In the real-time environment data.
The light display effect control method according to claim 1, wherein a set of said adjustment parameters are encapsulated in an adjustment parameter package;

Before performing step S1:

The smart terminal downloads the adjustment parameter package from a remote server; and/or

The preset adjustment parameter package is saved in the smart terminal.
The light display effect control method according to claim 6, wherein the smart terminal parses the obtained adjustment parameter packet to register a corresponding group of the adjustment parameters before performing the step S1. Go to the smart terminal.
The lighting display effect control method according to claim 1, wherein the intelligent terminal saves an association relationship between the real-time environment data and the correspondingly adjusted adjustment effect parameter, and acquires the same after re-collecting The real-time environment data directly retrieves the corresponding adjustment effect parameter according to the saved association relationship, so as to adjust the display effect of the light of the smart terminal according to the adjusted adjustment effect parameter.
The lighting display effect control method according to claim 1, wherein the intelligent terminal is an intelligent terminal having a robot appearance.