WO2017049491A1 - Electromagnetic wave producing method and smart wristband - Google Patents

Abstract

An electromagnetic wave producing method and a smart wristband, the electromagnetic wave producing method comprising: detecting sound information and brightness information of the environment in which the smart wristband is located; when a target acoustic pattern is present in the sound information, generating a corresponding control command; on the basis of the brightness information of the environment in which the smart wristband is located, generating control parameters; and, on the basis of the control command and the control parameters, controlling an electromagnetic wave generator of the smart wristband to produce an electromagnetic wave of a preset frequency. When the sound of a mosquito is present in the sound information, and on the basis of the brightness information, a mosquito-repelling electromagnetic wave of a preset frequency is generated; mosquitoes in the vicinity of the wearer of the smart wristband can be repelled without the use of toxins, wearing and use are convenient, the user experience is improved, and the scope of use of the smart wristband is expanded.

Description

 Electromagnetic wave generating method and smart bracelet

Technical Field

 The present invention relates to the field of electronic technologies, and in particular, to an electromagnetic wave generating method and a smart wristband.

BACKGROUND OF THE INVENTION

 [0005] With the continuous advancement of modern society, people's living standards are increasing day by day, and similarly, high demands are placed on the quality of life. For a long time, in order to prevent mosquito bites, people often use mosquito-repellent incense or insecticides. However, mosquito-repellent incense and insecticides contain toxins, which can affect human health. At the same time, when people need to go out for outdoor activities, it is very inconvenient to use mosquito coils or insecticides, which is difficult to achieve.

 SUMMARY OF THE INVENTION

 [0007] Embodiments of the present invention provide an electromagnetic wave generating method and a smart wristband, which can realize mosquito repellent by generating electromagnetic waves, which is convenient to carry and convenient to use, and improves user experience.

[0008] A first aspect of the present invention provides an electromagnetic wave generating method, which is applied to a smart wristband, and includes:

[0009] detecting sound information and brightness information of an environment in which the smart bracelet is located;

[0010] when there is a target voiceprint in the sound information, generating a corresponding control instruction;

[0011] generating a control parameter according to brightness information of an environment in which the smart bracelet is located;

 [0012] controlling the electromagnetic wave generator of the smart bracelet to generate an electromagnetic wave of a preset frequency according to the control command and the control parameter.

 [0013] Preferably, the detecting the sound information and the brightness information of the environment in which the smart bracelet is located includes:

[0014] opening the sensor of the smart bracelet;

 [0015] receiving sound information of an environment in which the smart bracelet is located;

 [0016] collecting light information of an environment in which the smart bracelet is located, and generating brightness information according to the light information.

[0017] Preferably, when the target voiceprint is present in the sound information, generating a corresponding control instruction, including

[0018] parsing the sound information, and identifying voiceprint information existing in the sound information; [0019] determining whether there is a target voiceprint in the sound information, wherein the target voiceprint is a sound emitted by a mosquito

[0020] when the target voiceprint is present, generating a corresponding control command according to the target voiceprint, wherein the control command generates an electromagnetic wave for an electromagnetic wave generator that controls the smart bracelet.

[0021] Preferably, the generating the control parameter according to the brightness information of the environment in which the smart bracelet is located includes: [0022] acquiring the brightness information;

 And generating, according to the brightness information, a control parameter, where the control parameter includes a single continuous time interval of generating electromagnetic waves and an interval, wherein the single continuous time is proportional to the brightness information, and the interval is The daytime is inversely proportional to the brightness information.

 [0024] Preferably, the electromagnetic wave generator that controls the smart wave generator of the smart bracelet according to the control instruction and the control parameter generates an electromagnetic wave of a preset frequency, including:

 [0025] controlling the electromagnetic wave generator of the smart bracelet to be connected to the working circuit;

 Controlling the electromagnetic wave generator to generate an electromagnetic wave of a preset frequency, wherein the predetermined frequency is a frequency of escaping mosquitoes;

 [0027] After waiting for the single continuous turn, the electromagnetic wave generator is controlled to stop generating electromagnetic waves, and after waiting for the interval, the electromagnetic wave generator is controlled to generate electromagnetic waves again.

[0028] A second aspect of the present invention provides a smart bracelet, including:

 [0029] a detecting module, configured to detect sound information and brightness information of an environment in which the smart bracelet is located;

 [0030] a first generating module, configured to: when a target voiceprint exists in the sound information, generate a corresponding control instruction

[0031] a second generation module, configured to generate a control parameter according to the brightness information of the environment in which the smart bracelet is located; [0032] a control module, configured to control the electromagnetic wave of the smart bracelet according to the control instruction and the control parameter The generator generates electromagnetic waves of a preset frequency.

[0033] Preferably, the detecting module comprises:

[0034] a starting unit, configured to activate the sensor of the smart bracelet;

[0035] a receiving unit, configured to receive sound information of an environment in which the smart bracelet is located;

[0036] The collecting unit is configured to collect light information of an environment in which the smart bracelet is located, and generate brightness information according to the light information. [0037] Preferably, the first generating module includes:

 a parsing unit, configured to parse the sound information, and identify voiceprint information present in the sound information; [0039] a determining unit, configured to determine whether a target voiceprint exists in the sound information, where the target Voiceprint is the sound of mosquitoes;

 And a first generating unit, configured to generate a corresponding control command according to the target voiceprint when the target voiceprint is present, wherein the control command generates an electromagnetic wave for an electromagnetic wave generator that controls the smart bracelet.

[0041] Preferably, the second generating module comprises:

[0042] an obtaining unit, configured to acquire the brightness information;

 [0043] a second generating unit, configured to generate a control parameter according to the brightness information, where the control parameter includes a single continuous day and a time interval for generating electromagnetic waves, the single continuous time and the brightness The information is proportional to the ratio, and the interval is inversely proportional to the brightness information.

 [0044] Preferably, the control module includes:

 a first control unit, configured to control the electromagnetic wave generator of the smart bracelet to be connected to the working circuit; [0046] a second control unit, configured to control the electromagnetic wave generator to generate an electromagnetic wave of a preset frequency, wherein The preset frequency is a frequency of expelling mosquitoes;

 [0047] The third control unit is configured to control the electromagnetic wave generator to stop generating electromagnetic waves after waiting for the single continuous turn, and control the electromagnetic wave generator to generate electromagnetic waves again after waiting for the interval.

 [0048] A third aspect of the present invention provides a smart wristband, comprising: an input device, an output device, a memory, and a processor, wherein the memory stores a set of program codes, and the processor is configured to call the memory. Stored program code to do the following:

 [0049] detecting sound information and brightness information of an environment in which the smart bracelet is located;

 [0050] when there is a target voiceprint in the sound information, generating a corresponding control instruction;

 [0051] generating a control parameter according to brightness information of an environment in which the smart bracelet is located;

 And [0052] controlling the electromagnetic wave generator of the smart bracelet to generate an electromagnetic wave of a preset frequency according to the control instruction and the control parameter.

[0053] Preferably, the processor detects the sound information and the brightness information of the environment in which the smart bracelet is located, including: [0054] opening the sensor of the smart bracelet;

 [0055] receiving sound information of an environment in which the smart bracelet is located;

 [0056] collecting light information of an environment in which the smart bracelet is located, and generating brightness information according to the light information.

 [0057] Preferably, the processor generates a corresponding control instruction when the target voiceprint is present in the sound information, and includes:

 [0058] parsing the sound information, and identifying voiceprint information existing in the sound information;

 [0059] determining whether there is a target voiceprint in the sound information, wherein the target voiceprint is a sound emitted by a mosquito

And [0060] generating a corresponding control command according to the target voiceprint when the target voiceprint is present, wherein the control command generates an electromagnetic wave for an electromagnetic wave generator that controls the smart bracelet.

[0061] Preferably, the processor generates control parameters according to brightness information of an environment in which the smart bracelet is located, and includes:

 [0062] acquiring the brightness information;

 And generating, according to the brightness information, a control parameter, where the control parameter includes a single continuous time interval of generating electromagnetic waves and an interval, wherein the single continuous time is proportional to the brightness information, and the interval is The daytime is inversely proportional to the brightness information.

 [0064] Preferably, the processor controls the electromagnetic wave generator of the smart bracelet to generate electromagnetic waves of a preset frequency according to the control instruction and the control parameter, including:

 [0065] controlling the electromagnetic wave generator of the smart bracelet to be connected to the working circuit;

 Controlling, by the electromagnetic wave generator, an electromagnetic wave of a preset frequency, wherein the predetermined frequency is a frequency of repelling mosquitoes;

 [0067] After waiting for the single continuous turn, the electromagnetic wave generator is controlled to stop generating electromagnetic waves, and after waiting for the interval, the electromagnetic wave generator is controlled to generate electromagnetic waves again.

[0068] Embodiments of the present invention have the following beneficial effects:

[0069] In the embodiment of the present invention, by detecting the sound information in the current environment, when there is a mosquito sound 中 in the sound information, according to the current brightness information, the mosquito wave electromagnetic wave of the preset frequency is generated, and the surrounding of the smart bracelet wearer can be expelled. Mosquitoes, peers, electromagnetic waves are free of toxins, easy to carry, easy to use, enhance the user experience, and expand the use of smart bracelets. BRIEF DESCRIPTION OF THE DRAWINGS

 [0071] In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings to be used in the embodiments will be briefly described below. Obviously, the drawings in the following description are only the present drawings. Some embodiments of the invention may be obtained by those of ordinary skill in the art from the drawings without departing from the scope of the invention.

FIG. 1 is a flowchart of a first embodiment of an electromagnetic wave generating method according to an embodiment of the present invention.

FIG. 2 is a flowchart of a second embodiment of an electromagnetic wave generating method according to an embodiment of the present invention.

3 is a schematic structural diagram of a first embodiment of a smart wristband according to an embodiment of the present invention.

4 is a schematic structural diagram of a second embodiment of a smart wristband according to an 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, and not all of the embodiments. example. 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.

 1 is a flow chart of a first embodiment of an electromagnetic wave generating method according to an embodiment of the present invention. In this embodiment, the electromagnetic wave generating method is applied to a smart wristband, and the smart wristband is provided with a sensor, and the sensor can be used for detecting surrounding sound information and brightness information, when the sound information is detected. There is a mosquito sound, and the smart bracelet controls the electromagnetic wave generator to generate electromagnetic waves of a predetermined frequency, thereby realizing mosquito repellent. It is to be understood that the electromagnetic wave generating method is also applicable to other electronic devices having the sensor and the electromagnetic wave generator, and the embodiment is not limited thereto. The electromagnetic wave generating method includes the following steps S101-S104.

 [0079] In step S101, the sound information and the brightness information of the environment in which the smart bracelet is located are detected.

 [0080] Specifically, firstly, the sound information and the brightness information of the environment in which the smart bracelet is located are detected. Among them, the sound information can be detected by the sensor, or can be detected by the microphone. The sound sensor or the microphone is disposed on an outer surface of the smart bracelet to facilitate detecting sound. The brightness information can be detected by a light sensor, and the light sensor can also be located on the outer surface of the smart bracelet. The light sensor determines the brightness information by detecting the received light information.

[0081] In step S102, when the target voiceprint is present in the sound information, a corresponding control instruction is generated. Specifically, after the sound information is detected, the sound information is further parsed to determine whether a target voiceprint exists in the sound information, wherein the target voiceprint includes a mosquito sound. The sound of the mosquito can be preset in the smart bracelet for comparison. Since the sound emitted by the mosquito wing vibration has a special frequency, it is possible to distinguish whether or not the mosquito has the f π interest by analyzing the sound information.

 [0083] In step S103, a control parameter is generated according to the brightness information of the environment in which the smart bracelet is located.

 [0084] Specifically, the control parameter is generated according to the brightness information. The number of mosquitoes varies depending on the environment in which the smart bracelet wearer is located. When the user is in a bright area, due to the phototaxis of the mosquito, there will be a lot of mosquitoes. In order to enhance the mosquito repellent effect, the cockroach needs to increase the single continuous sputum of the electromagnetic wave of the mosquito repellent, and reduce the interval between the middle and the middle. The control parameters include a single continuous day and interval.

 [0085] In step S104, the electromagnetic wave generator of the smart bracelet is controlled to generate an electromagnetic wave of a preset frequency according to the control instruction and the control parameter.

 [0086] Specifically, after the control instruction and the control parameter are generated, the electromagnetic wave generator is controlled to generate an electromagnetic wave of a preset frequency according to the control instruction and the control parameter, wherein the preset frequency refers to a frequency of mosquito repellent, and may be preset .

 [0087] It can be seen that the electromagnetic wave generating method in the embodiment of the present invention detects the sound information in the current environment, and when the mosquito sound is present in the sound information, the mosquito wave is generated according to the current brightness information, and the preset frequency is generated. It can expel the mosquitoes around the wristband of the smart bracelet. At the same time, the electromagnetic wave is free of toxins, easy to carry and easy to use, which enhances the user experience and expands the use range of the smart bracelet.

FIG. 2 is a flowchart of a second embodiment of an electromagnetic wave generating method according to an embodiment of the present invention. In the present embodiment, the electromagnetic wave generating method includes steps S201 - S11.

[0089] In step S201, the sensor of the smart bracelet is activated.

[0090] Specifically, the sensor of the smart bracelet is first activated, wherein the sensor includes a sound sensor and a light sensor. In the present embodiment, the sensor may be activated according to a preset point set by the user, or may be activated in response to the user's operation. For example, the user can set the sensor for detecting the whole point of the day to detect the sensor. The embodiment of the present invention is not limited thereto. [0091] In step S202, the sound information of the environment in which the smart bracelet is located is received.

 Specifically, the sound information detected by the sensor is received, wherein the sound information is sound information of the environment, and it can be understood that the sound information includes sound information at various frequencies, such as user activity sounds, Background noise, etc., can be classified according to the sound frequency.

 [0093] In step S203, light information of an environment in which the smart bracelet is located is collected, and brightness information is generated according to the light information.

 [0094] Specifically, the light sensor collects light information of the current environment, and generates brightness information according to the light information.

[0095] In step S204, the sound information is parsed, and the voiceprint information existing in the sound information is identified.

[0096] Specifically, the detected sound information is parsed, and the voiceprint information present therein is identified according to the sound feature in the sound information.

 [0097] In step S205, it is determined whether there is a target voiceprint in the sound information, wherein the target voiceprint is a sound emitted by a mosquito.

 [0098] Specifically, it is determined whether the target voiceprint is present in the voiceprint information, wherein the target voiceprint includes a mosquito sound. The sound of the mosquito can be preset in the smart bracelet for comparison. Since the sound of the mosquito wing vibration has a special frequency, it is possible to distinguish whether or not the mosquito information exists by analyzing the sound information.

 [0099] In step S206, when the target voiceprint is present, a corresponding control command is generated according to the target voiceprint.

 [0100] Specifically, when the target voiceprint is present, indicating that a mosquito exists in the current environment, it is required to generate a corresponding control instruction according to the target voiceprint, wherein the control command is an electromagnetic wave that controls the smart bracelet. The generator generates electromagnetic waves.

 [0101] In step S207, the brightness information is acquired.

 [0102] Specifically, the brightness information detected in step S203 is obtained.

 [0103] In step S208, a control parameter is generated according to the brightness information, wherein the control parameter includes a single continuous day and a time interval for generating electromagnetic waves.

[0104] Specifically, the control parameter is generated according to the difference in the luminance information. The number of mosquitoes varies depending on the environment in which the smart bracelet wearer is located. When the user is in a bright area, due to the phototaxis of the mosquito, there will be a lot of mosquitoes. In order to enhance the mosquito repellent effect, the cockroach needs to increase the single-time electromagnetic wave of the mosquito repellent. Continue the day, and reduce the interval between the middle. The control parameters include a single continuous day and interval. The single continuous time is proportional to the brightness information, and the interval is inversely proportional to the brightness information.

 [0105] In step S209, the electromagnetic wave generator of the smart bracelet is controlled to be connected to the working circuit.

 [0106] Specifically, after the control command and the control parameter are generated, the electromagnetic wave generator is controlled to be connected to the working circuit. The electromagnetic wave generator does not access the circuit under normal conditions and does not work. When the mosquito repellent is required, the electromagnetic wave generator is controlled to be connected to the circuit.

[0107] In step S210, the electromagnetic wave generator is controlled to generate an electromagnetic wave of a preset frequency, wherein the predetermined frequency is a frequency of expelling a mosquito.

 [0108] Specifically, the electromagnetic wave generator generates an electromagnetic wave of a preset frequency, and the preset frequency refers to a frequency of mosquito repellent, and may be preset in the smart bracelet.

[0109] In step S211, after waiting for the single continuous turn, the electromagnetic wave generator is controlled to stop generating electromagnetic waves, and after waiting for the interval, the electromagnetic wave generator is controlled to generate electromagnetic waves again.

[0110] Specifically, after the electromagnetic wave generator generates an electromagnetic wave every time, after a period of time, it is generated again. Wherein, the single continuous time interval and the interval time generated each time are performed according to control parameters. That is, after waiting for the single continuous day, the electromagnetic wave generator is controlled to stop generating electromagnetic waves, and after waiting for the interval, the electromagnetic wave generator is controlled to generate electromagnetic waves again.

 [0111] It can be seen that the electromagnetic wave generating method in the embodiment of the present invention detects the sound information in the current environment, and when there is a mosquito sound in the sound information, the mosquito wave is generated according to the current brightness information, and the mosquito wave is generated according to the current brightness information. It can expel the mosquitoes around the wristband of the smart bracelet. At the same time, the electromagnetic wave is free of toxins, easy to carry and easy to use, which enhances the user experience and expands the use range of the smart bracelet.

[0112] In order to facilitate the better implementation of the above described embodiments of the embodiments of the present invention, related apparatus for cooperating to implement the above-described embodiments are also provided below.

 [0113] FIG. 3 is a schematic structural diagram of a first embodiment of a smart wristband according to an embodiment of the present invention.

In the embodiment, the smart bracelet is provided with a sensor, and the sensor can be used to detect surrounding sound information and brightness information. When the sound of the mosquito is detected in the sound information, the The intelligent wristband controls the electromagnetic wave generator to generate electromagnetic waves of a preset frequency, thereby realizing mosquito repellent. As shown in FIG. 3, the smart bracelet may include:

[0114] The detecting module 301 is configured to detect sound information and brightness information of an environment in which the smart bracelet is located.

[0115] The first generation module 302 is configured to generate a corresponding control instruction when the target voiceprint is present in the sound information.

 [0116] The second generation module 303 is configured to generate a control parameter according to the brightness information of the environment in which the smart bracelet is located

[0117] The control module 304 is configured to control, according to the control instruction and the control parameter, an electromagnetic wave generator of the smart bracelet to generate an electromagnetic wave of a preset frequency.

[0118] The detecting module 301 includes:

[0119] The starting unit 3011 is configured to activate the sensor of the smart bracelet.

[0120] The receiving unit 3012 is configured to receive sound information of an environment in which the smart bracelet is located.

[0121] The collecting unit 3013 is configured to collect light information of an environment in which the smart bracelet is located, and generate brightness information according to the light information.

[0122] The first generation module 302 includes:

 [0123] The parsing unit 3021 is configured to parse the sound information, and identify voiceprint information existing in the sound information.

[0124] The determining unit 3022 is configured to determine whether the target voiceprint is present in the sound information, wherein the target voiceprint is a sound emitted by a mosquito.

 [0125] The first generating unit 3023 is configured to generate, according to the target voiceprint, a corresponding control instruction when the target voiceprint is present, wherein the control command generates an electromagnetic wave for an electromagnetic wave generator that controls the smart bracelet .

 [0126] The second generation module 303 includes:

 [0127] The obtaining unit 3031 is configured to acquire the brightness information.

 [0128] The second generating unit 3032 is configured to generate a control parameter according to the brightness information, where the control parameter includes a single continuous time interval of generating electromagnetic waves and an interval, the single continuous time and the The luminance information is proportional to the ratio, and the interval is inversely proportional to the luminance information.

[0129] The control module 304 includes: [0130] The first control unit 3041 is configured to control the electromagnetic wave generator of the smart bracelet to be connected to the working circuit.

[0131] a second control unit 3042, configured to control the electromagnetic wave generator to generate an electromagnetic wave of a preset frequency, where

The preset frequency is a frequency of expelling mosquitoes.

[0132] The third control unit 3043 is configured to control the electromagnetic wave generator to stop generating electromagnetic waves after waiting for the single continuous time, and control the electromagnetic wave generator to generate electromagnetic waves again after waiting for the interval .

 [0133] It is to be understood that the functions of the functional modules of the device in this embodiment may be specifically implemented according to the method in the foregoing method embodiment, and the specific implementation process may refer to the related description of the foregoing method embodiment, and is not performed here. Narration.

 [0134] As described above, the smart wristband in the embodiment of the present invention detects the sound information in the current environment, and when there is a mosquito sound in the sound information, generates a preset frequency of the mosquito repellent electromagnetic wave according to the current brightness information. It can expel the mosquitoes around the wristband of the smart bracelet. At the same time, the electromagnetic wave is free of toxins, easy to carry and easy to use, which enhances the user experience and expands the use range of the smart bracelet.

 [0135] FIG. 4 is a schematic structural diagram of a second embodiment of a smart wristband according to an embodiment of the present invention.

 The smart bracelet described in this embodiment may include:

 [0136] The processor 401 (the number of the processors 401 in the terminal may be one or more, FIG. 4 is exemplified by a processor), the memory 402, the input device 403, and the output device 404. In the embodiment of the present invention, the processor 401, the memory 402, the input device 403, and the output device 404 may be connected by a bus or other means, wherein the bus connection is taken as an example in FIG.

 [0137] The processor 401 performs the following steps:

 [0138] detecting sound information and brightness information of an environment in which the smart bracelet is located;

 [0139] when the target voiceprint is present in the sound information, generating a corresponding control instruction;

 [0140] generating a control parameter according to brightness information of an environment in which the smart bracelet is located;

 And [0141] controlling an electromagnetic wave generator of the smart bracelet to generate an electromagnetic wave of a preset frequency according to the control instruction and the control parameter.

 [0142] The processor 401 detects the sound information and the brightness information of the environment in which the smart bracelet is located, and includes:

[0143] opening the sensor of the smart bracelet; [0144] receiving sound information of an environment in which the smart bracelet is located;

 [0145] collecting light information of an environment in which the smart bracelet is located, and generating brightness information according to the light information.

[0146] The processor 401, when the target voiceprint is present in the voice information, generates a corresponding control command, including:

 [0147] parsing the sound information, and identifying voiceprint information existing in the sound information;

 [0148] determining whether there is a target voiceprint in the sound information, wherein the target voiceprint is a sound emitted by a mosquito

[0149] When the target voiceprint is present, a corresponding control command is generated according to the target voiceprint, wherein the control command generates an electromagnetic wave for an electromagnetic wave generator that controls the smart bracelet.

[0150] The processor 401 generates a control parameter according to the brightness information of the environment in which the smart bracelet is located, and includes:

 Obtaining the brightness information;

 [0152] generating a control parameter according to the brightness information, wherein the control parameter includes a single continuous time interval and a time interval for generating electromagnetic waves, and the single continuous time interval is proportional to the brightness information, and the interval is The daytime is inversely proportional to the brightness information.

 [0153] The processor 401 controls the electromagnetic wave generator of the smart bracelet to generate electromagnetic waves of a preset frequency according to the control instruction and the control parameter, including:

 [0154] controlling the electromagnetic wave generator of the smart bracelet to be connected to the working circuit;

 [0155] controlling the electromagnetic wave generator to generate an electromagnetic wave of a preset frequency, wherein the predetermined frequency is a frequency of repelling a mosquito;

 [0156] After waiting for the single continuous turn, the electromagnetic wave generator is controlled to stop generating electromagnetic waves, and after waiting for the interval, the electromagnetic wave generator is controlled to generate electromagnetic waves again.

 [0157] It can be understood that the functions of the functional modules of the device in this embodiment may be specifically implemented according to the method in the foregoing method embodiment, and the specific implementation process may refer to the related description of the foregoing method embodiment, and is not performed here. Narration.

[0158] As described above, the smart bracelet in the embodiment of the present invention detects the sound information in the current environment, and when there is a mosquito sound in the sound information, generates a preset frequency of the mosquito repellent electromagnetic wave according to the current brightness information. Capable of expelling mosquitoes around the wristband of the smart bracelet, peers, using electromagnetic waves without toxins It is easy to carry and easy to use, which enhances the user experience and expands the use of smart bracelets.

 [0159] It should be noted that, for the foregoing method embodiments, for the sake of simple description, they are all expressed as a series of action combinations, but those skilled in the art should know that the present invention is not subject to the described action sequence. The limitation is that, in accordance with the present invention, certain steps may be performed in other orders or in the same manner. In the following, those skilled in the art should also understand that the embodiments described in the specification are all preferred embodiments, and the actions and modules involved are not necessarily required by the present invention.

 [0160] In the foregoing embodiments, the descriptions of the various embodiments are different, and the parts that are not detailed in an embodiment may be referred to the related descriptions of other embodiments.

 [0161] The steps in the method of the embodiment of the present invention may be sequentially adjusted, merged, and deleted according to actual needs.

 [0162] The units in the apparatus of the embodiment of the present invention may be combined, divided, and deleted according to actual needs. Those skilled in the art can combine or combine the different embodiments described in the specification and the features of the different embodiments.

 [0163] From the description of the above embodiments, those skilled in the art can clearly understand that the present invention can be implemented in hardware, firmware implementation, or a combination thereof. When implemented in software, the functions described above may be stored in or transmitted as one or more instructions or code on a computer readable medium. Computer readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one location to another. The storage medium can be any available medium that the computer can access. Taking this as an example, but not limited to: Computer readable medium may include random access memory (Random Access)

Memory, RAM), Read-Only Memory (ROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), CD-ROM (Compact Disc Read-Only Memory, CD- ROM) or other optical disc storage, magnetic storage medium or other magnetic storage device, or any other medium that can be used to carry or store desired program code in the form of an instruction or data structure and that can be accessed by a computer. Also. Any connection may suitably be a computer readable medium. For example, if the software is transmitted from a website, server, or other remote source using coaxial cable, fiber optic cable, twisted pair, Digital Subscriber Line (DSL), or wireless technologies such as infrared, radio, and microwave, Then coaxial cable, fiber optic cable, twisted pair, DSL or wireless technologies such as infrared, wireless and microwave are included Fixing of the media. As used in the present invention, a disk and a disc include a compact disc (CD), a laser disc, a compact disc, a digital versatile disc (DVD), a floppy disc, and a Blu-ray disc, wherein the disc is usually magnetically copied, and the disc is The laser is used to optically replicate the data. Combinations of the above should also be included within the scope of the computer readable media.

 In summary, the above description is only a preferred embodiment of the technical solution of the present invention, and is not intended to limit the scope of the present invention. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and scope of the invention are intended to be included within the scope of the invention.

technical problem

Problem solution

Advantageous effects of the invention

Claims

Claim

 [Claim 1] An electromagnetic wave generating method, which is applied to a smart wristband, and includes:

 Detecting sound information and brightness information of the environment in which the smart bracelet is located;

 Generating a corresponding control command when the target voiceprint is present in the sound information; generating a control parameter according to the brightness information of the environment in which the smart bracelet is located;

 The electromagnetic wave generator of the smart bracelet is controlled to generate an electromagnetic wave of a preset frequency according to the control command and the control parameter.

 The method of generating an electromagnetic wave according to claim 1, wherein the detecting the sound information and the brightness information of the environment in which the smart bracelet is located comprises: activating the sensor of the smart bracelet ;

 Receiving sound information of an environment in which the smart bracelet is located;

 The light information of the environment in which the smart bracelet is located is collected, and the brightness f π information is generated according to the light information.

 [Claim 3] The electromagnetic wave generating method according to claim 2, wherein the presence of the target voiceprint in the sound information, and generation of a corresponding control command includes:

 Parsing the sound information, identifying the voiceprint information present in the sound information; determining whether the target voiceprint is present in the sound information, wherein the target voiceprint is a sound generated by a mosquito;

 When the target voiceprint is present, a corresponding control command is generated according to the target voiceprint, wherein the control command generates an electromagnetic wave for an electromagnetic wave generator that controls the smart bracelet.

The method for generating an electromagnetic wave according to claim 3, wherein the generating the control parameter according to the brightness information of the environment in which the smart bracelet is located includes: acquiring the brightness information;

 And generating, according to the brightness information, a control parameter, where the control parameter includes a single continuous time interval of generating electromagnetic waves and an interval, wherein the single continuous time is proportional to the brightness information, and the interval is between The brightness information is inversely proportional.

[Claim 5] The electromagnetic wave generating method according to claim 4, wherein the electromagnetic wave generator that controls the smart bracelet according to the control command and the control parameter generates a preset frequency Electromagnetic waves, including:

 Controlling the electromagnetic wave generator of the smart bracelet into a working circuit;

 Controlling the electromagnetic wave generator to generate an electromagnetic wave of a preset frequency, wherein the predetermined frequency is a frequency of escaping a mosquito;

 After waiting for the single continuous turn, the electromagnetic wave generator is controlled to stop generating electromagnetic waves, and after waiting for the interval, the electromagnetic wave generator is controlled to generate electromagnetic waves again.

 [Claim 6] A smart bracelet, comprising:

 a detecting module, configured to detect sound information and brightness information of an environment in which the smart bracelet is located, and a first generating module, configured to generate a corresponding control command when a target voiceprint exists in the sound information;

 a second generating module, configured to generate a control parameter according to brightness information of an environment in which the smart bracelet is located;

 And a control module, configured to control, according to the control instruction and the control parameter, an electromagnetic wave generator of the smart bracelet to generate an electromagnetic wave of a preset frequency.

The smart bracelet of claim 6 , wherein the detecting module comprises: a starting unit, configured to activate a sensor of the smart bracelet;

 a receiving unit, configured to receive sound information of an environment in which the smart bracelet is located;

 The collecting unit is configured to collect light information of an environment in which the smart bracelet is located, and generate brightness information according to the light information.

 [Claim 8] The smart bracelet according to claim 7, wherein the first generating module includes a parsing unit, configured to parse the sound information, and identify a voiceprint f π existing in the sound information Interest rate

 a determining unit, configured to determine whether a target voiceprint exists in the sound information, wherein the target voiceprint is a sound emitted by a mosquito;

a first generating unit, configured to generate the target voiceprint according to the target voiceprint Corresponding control commands, wherein the control commands generate electromagnetic waves for an electromagnetic wave generator that controls the smart bracelet.

 [Claim 9] The smart bracelet according to claim 8, wherein the second generation module comprises

An obtaining unit, configured to acquire the brightness information;

 a second generating unit, configured to generate a control parameter according to the brightness information, where the control parameter includes a single continuous time interval and a time interval for generating electromagnetic waves, wherein the single continuous time interval is proportional to the brightness information The interval is inversely proportional to the brightness information.

[Claim 10] 10. The smart bracelet according to claim 9, wherein the control module comprises

a first control unit, configured to control an electromagnetic wave generator of the smart bracelet to be connected to the working circuit;

 a second control unit, configured to control the electromagnetic wave generator to generate an electromagnetic wave of a preset frequency, wherein the preset frequency is a frequency of expelling a mosquito;

 And a third control unit, configured to control the electromagnetic wave generator to stop generating electromagnetic waves after waiting for the single continuous turn, and control the electromagnetic wave generator to generate electromagnetic waves again after waiting for the interval.

 [Claim 11] A smart wristband, comprising: an input device, an output device, a memory, and a processor, wherein the memory stores a set of program codes, and the processor is configured to call the program code stored in the memory, Used to do the following:

 Detecting sound information and brightness information of the environment in which the smart bracelet is located;

 Generating a corresponding control command when the target voiceprint is present in the sound information; generating a control parameter according to the brightness information of the environment in which the smart bracelet is located;

 The electromagnetic wave generator of the smart bracelet is controlled to generate an electromagnetic wave of a preset frequency according to the control command and the control parameter.

The smart bracelet according to claim 11, wherein the processor detects the sound information and the brightness information of the environment in which the smart bracelet is located, and the method includes: Sensor Receiving sound information of an environment in which the smart bracelet is located;

The light information of the environment in which the smart bracelet is located is collected, and the brightness f π information is generated according to the light information.

The smart bracelet according to claim 12, wherein the processor generates a corresponding control command when the target voiceprint is present in the sound information, and includes:

Parsing the sound information, identifying the voiceprint information present in the sound information; determining whether the target voiceprint is present in the sound information, wherein the target voiceprint is a sound generated by a mosquito;

When the target voiceprint is present, a corresponding control command is generated according to the target voiceprint, wherein the control command generates an electromagnetic wave for an electromagnetic wave generator that controls the smart bracelet. The smart bracelet according to claim 13, wherein the processor generates control parameters according to the brightness information of the environment in which the smart bracelet is located, including:

Obtaining the brightness information;

And generating, according to the brightness information, a control parameter, where the control parameter includes a single continuous time interval of generating electromagnetic waves and an interval, wherein the single continuous time is proportional to the brightness information, and the interval is The brightness information is inversely proportional.

The smart bracelet according to claim 14, wherein the processor controls the electromagnetic wave generator of the smart bracelet to generate electromagnetic waves of a preset frequency according to the control command and the control parameter, including:

Controlling the electromagnetic wave generator of the smart bracelet into a working circuit;

Controlling the electromagnetic wave generator to generate an electromagnetic wave of a preset frequency, wherein the predetermined frequency is a frequency of escaping a mosquito;

After waiting for the single continuous turn, the electromagnetic wave generator is controlled to stop generating electromagnetic waves, and after waiting for the interval, the electromagnetic wave generator is controlled to generate electromagnetic waves again.