CN109862531B - Interactive monitoring system and interactive monitoring method - Google Patents

Abstract

The invention provides an interactive monitoring system and an interactive monitoring method, wherein the interactive monitoring system comprises an earphone terminal, a detection sensor and an interactive sensor; the detection sensor is in communication connection with the earphone, detects surrounding environment information and sends an alarm signal to the earphone when a preset condition is met; the interaction sensor is in communication connection with the earphone and is used for sending an audio signal to the earphone terminal or receiving the audio signal sent by the earphone terminal; and the earphone terminal plays the alarm signal or the audio signal sent by the interactive sensor to the outside after receiving the alarm signal or the audio signal. The interactive monitoring system provided by the invention enables a user of the earphone to master the surrounding environment, avoids inconvenience brought to normal life by the earphone, enables the user to timely react to the surrounding environment on the premise of enjoying comfortable life brought by the earphone, and avoids adverse consequences caused by emergency situations such as kitchen timer alarm and the like.

Description

Interactive monitoring system and interactive monitoring method

Technical Field

The present invention relates to the field of monitoring technologies, and in particular, to an interactive monitoring system and an interactive monitoring method.

Background

In modern society, people are more and more inclined to enjoy music using earphones and the like as a daily relaxation means. The use of headphones for enjoying music, video, games and television shows is the best way to experience clear sound effects while maintaining a quiet living environment. However, the earphone has the disadvantages that the perception of the surrounding environment is lacked, and any sound from the surrounding environment is easily covered by the sound emitted by the earphone, so that a user of the earphone cannot grasp the surrounding environment, and the normal life is inconvenient.

In addition, once some emergency situations occur, such as kitchen timer alarm, etc., adverse consequences are easy to happen.

Disclosure of Invention

In view of the above, the present invention is directed to an interactive monitoring system to solve the problem that the surrounding environment cannot be controlled when using an earphone.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

an interactive monitoring system comprises an earphone terminal, a detection sensor and an interaction sensor; the detection sensor is in communication connection with the earphone, detects surrounding environment information and sends an alarm signal to the earphone when a preset condition is met; the interaction sensor is in communication connection with the earphone and is used for sending an audio signal to the earphone terminal or receiving the audio signal sent by the earphone terminal; and the earphone terminal plays the alarm signal or the audio signal sent by the interactive sensor to the outside after receiving the alarm signal or the audio signal.

And further, the earphone terminal comprises a call module and a wireless transceiver module, and the earphone terminal is in communication connection with the detection sensor and the interaction sensor through the wireless transceiver module.

Further, the communication module and the wireless transceiver module are integrated.

Compared with the prior art, the interactive monitoring system has the following advantages:

(1) the interactive monitoring system can arrange the detection sensor and the interactive sensor at the positions needing to be monitored, such as doorways, kitchens, backyards and the like; each sensor can wirelessly send an alarm signal to the headset when a preset condition is met. The earphone generates an alarm signal through driving or corresponding vibration and the like. Therefore, a user of the earphone can master the surrounding environment, inconvenience brought to normal life by the earphone is avoided, the user can timely react to the surrounding environment on the premise of enjoying comfortable life brought by the earphone, and emergency situations such as adverse consequences caused by alarm of a kitchen timer and the like are avoided.

(2) The interactive monitoring system of the invention connects the earphone and the sensor in a wireless mode, thereby enabling the arrangement of the sensor to be simpler and more convenient and the application range to be wider.

Another objective of the present invention is to provide an interactive monitoring method to solve the problem that the surrounding environment cannot be controlled when using the earphone.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

an interactive monitoring method, comprising:

after the earphone terminal is powered on, establishing wireless connection with the interactive sensor;

executing the instruction after detecting the local input or the instruction sent by the interaction sensor and the detection sensor;

sending a data transmission request to the interaction sensor;

judging whether input data fed back after the interactive sensor receives the data transmission request is detected;

if so, executing corresponding operation according to the received input data;

if not, judging whether a wireless connection request of the detection sensor is detected or not;

if the wireless connection request is detected, establishing wireless connection with the detection sensor;

and receiving input data sent by the detection sensor, executing corresponding operation, and sending a standby instruction to the detection sensor.

Further, after detecting the instruction sent by the local input or the interaction sensor, the detection sensor, the instruction is executed, including:

judging whether a local input or an instruction sent by the interaction sensor and the detection sensor is detected;

if so, judging whether the instruction is an instruction sent by the interaction sensor or the detection sensor;

if the instruction is sent by the interaction sensor or the detection sensor, the instruction sent by the interaction sensor or the detection sensor is executed;

and if the instruction is not the instruction sent by the interaction sensor or the detection sensor, executing the locally input instruction.

Further, the executing the corresponding operation according to the received input data includes:

judging whether the received input data is a voice chat starting instruction or not;

if the voice chat starting instruction is the voice chat starting instruction, judging whether the earphone terminal is in a voice chat mode;

if the current voice chat mode is in the voice chat mode, judging whether the current voice chat is finished;

and if the user terminal is finished, switching the earphone terminal into a voice chat mode with the interactive sensor.

Further, the executing the corresponding operation according to the received input data further includes:

if the voice chat starting instruction is not the voice chat starting instruction, performing a first preset operation;

judging the trigger type of the input data;

if the trigger type is button trigger, performing second preset operation;

if the trigger type is action trigger, performing third preset operation;

and if the trigger type is voice trigger, performing a fourth preset operation.

Further, the executing the corresponding operation according to the received input data further includes:

and if the mobile terminal is not in the voice chat mode, switching the earphone into the voice chat mode with the interaction sensor.

Further, the receiving input data sent by the detection sensor and executing corresponding operations includes:

receiving input data of the detection sensor and then performing first preset operation;

judging the trigger type of the input data of the detection sensor;

if the trigger type is button trigger, performing second preset operation;

if the trigger type is action trigger, performing third preset operation;

and if the trigger type is voice trigger, performing a fourth preset operation.

Further, the interaction sensor or the detection sensor input instruction comprises: starting a voice chat instruction, stopping the voice chat instruction, starting a vibration instruction and stopping the vibration instruction.

Further, the local input instruction includes: a sound increase instruction, a sound decrease instruction, a mute cancel instruction, and a sound mode switching instruction.

The advantages of the interactive monitoring method and the interactive monitoring system are the same as those of the interactive monitoring system in comparison with the prior art, and are not described herein again.

The present invention is further directed to an interactive monitoring method for solving the problem that the surrounding environment cannot be controlled when using an earphone.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

an interactive monitoring method, comprising:

detecting whether the sensor reaches the awakening time or not in the standby state;

if the wake-up time is reached, judging whether the input data input locally is detected;

if so, sending a wireless connection request to the earphone terminal;

establishing wireless connection with the earphone terminal, and sending the input data to the earphone terminal 1;

judging whether a standby instruction sent by the earphone terminal is received;

if not, directly entering a standby state;

and if so, entering a standby state after executing the standby instruction.

The advantages of the interactive monitoring method and the interactive monitoring system are the same as those of the interactive monitoring system in comparison with the prior art, and are not described herein again.

Another objective of the present invention is to provide an interactive monitoring method to solve the problem that the surrounding environment cannot be controlled when using the earphone.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

an interactive monitoring method, comprising:

after the interactive sensor is powered on, establishing wireless connection with the earphone terminal;

judging whether a data transmission request sent by the earphone terminal is detected;

if so, sending input data to the earphone terminal;

if not, judging whether the input data input locally is detected;

and if the locally input data is detected, sending the input data to the earphone terminal. The advantages of the interactive monitoring method and the interactive monitoring system are the same as those of the interactive monitoring system in comparison with the prior art, and are not described herein again.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a block diagram of an interactive monitoring system according to an embodiment of the present invention;

FIG. 2 is a flow chart of an interactive monitoring method according to an embodiment of the present invention;

FIG. 3 is a flowchart of steps 200 of an interactive monitoring method according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating steps 500 of an interactive monitoring method according to an embodiment of the present invention;

FIG. 5 is a flowchart of steps 800 of an interactive monitoring method according to an embodiment of the invention;

FIG. 6 is a flow chart of a method for interactive monitoring of a sensor according to an embodiment of the present invention;

FIG. 7 is a flow chart of an interactive sensor of the interactive monitoring method according to an embodiment of the present invention;

FIG. 8 is a flowchart illustrating an interactive monitoring method according to an embodiment of the present invention for sending input data;

fig. 9 is a block diagram of an interactive monitoring system applied to the field of games according to an embodiment of the present invention.

Description of reference numerals:

the system comprises a 1-earphone terminal, a 2-wireless transceiving module, a 3-detection sensor, a 4-interaction sensor, a 5-conversation module and a 6-audio transceiver.

Detailed Description

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

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1

As shown in fig. 1, it is; wherein the interactive monitoring system comprises: the earphone comprises an earphone terminal 1, a detection sensor 3 and an interaction sensor 4; the detection sensor 3 is in communication connection with the earphone terminal 1, detects surrounding environment information and sends an alarm signal to the earphone when a preset condition is met; the interaction sensor 4 is in communication connection with the earphone terminal 1, and transmits an audio signal to the earphone terminal 1 or receives an audio signal transmitted by the earphone terminal 1; and the earphone terminal 1 plays the alarm signal or the audio signal sent by the interactive sensor 4 to the outside after receiving the alarm signal.

In this way, the detection sensor 3-and the interaction sensor 4 can be placed at a location where monitoring or interaction (communication) is required, such as a doorway, a kitchen, a backyard, etc.; each of the detection sensors 3 may wirelessly transmit an alarm signal to the earphone terminal 1 when a preset condition is satisfied. The earphone terminal 1 generates an alarm signal by driving or corresponding vibration or the like. Therefore, a user of the earphone terminal 1 can master the surrounding environment, inconvenience brought to normal life by the earphone terminal 1 is avoided, the user can timely react to the surrounding environment on the premise of enjoying comfortable life brought by the earphone terminal 1, and emergency situations such as adverse consequences caused by alarm of a kitchen timer and the like are avoided.

In addition, the ear speaker terminal 1 can request the sensor communication at any time without passively waiting for the sensor.

The earphone terminal 1 comprises a call module 5 and a wireless transceiver module 2, and the earphone terminal 1 is in communication connection with the detection sensor 3 and the interaction sensor 4 through the wireless transceiver module 2.

Like this, couple together earphone terminal 1 and sensor through wireless mode to make arranging of sensor more simple and convenient, application range is wider.

In this application, in one embodiment, the headset terminal 1 is a headset, and the communication module 5 and the wireless transceiver module 2 are integrated therein for communicating with a user and establishing communication connection with the detection sensor 3 and the interaction sensor 4, respectively. In this embodiment, the communication module 5 and the wireless transceiver module 2 may be virtual modules (such as software programs, etc.), and are only used for representing that the earphone terminal 1 has a communication function and a wireless transceiver function, and implementing the communication function and the wireless transceiver function through the communication module 5 and the wireless transceiver module 2; the communication module 5 and the wireless transceiving module 2 may also be physical modules (such as a circuit, a storage of a software program, etc.), and the earphone terminal 1 implements a communication function and a wireless transceiving function through the communication module 5 and the wireless transceiving module 2. The communication module 5 and the wireless transceiver module 2 may be two independent hardware modules, or two modules integrated (combined) into one hardware (that is, the communication function and the wireless transceiver function can be realized by the same hardware); as long as it can implement a call function and a wireless transceiving function. Further, on the basis of the embodiment, the communication module 5 and the wireless transceiver module 2 are integrated, so that the number of the modules can be reduced, and the accommodating space of the earphone terminal can be saved.

In another embodiment, the communication module 5 is an earphone, which may be a bluetooth earphone or the like, and the wireless transceiver module 2 is an independent wireless device that is wirelessly communicated with the earphone and establishes communication connection between the earphone and the detection sensor 3 and the interaction sensor 4; the wireless device is responsible for format conversion or judgment of transmitted data in the data transmission process of the earphone and the detection sensor 3 and the interaction sensor 4, so that on one hand, the transmitted data can be converted into a general instruction of the earphone (namely, a format instruction common to all earphones), and interactive monitoring can be realized by adding the wireless device on the basis of the existing earphone; on the other hand, the functions of the earphone which need to be realized can be reduced, so that the volume of the earphone is lighter.

The interaction sensor 4 comprises a microphone and a loudspeaker, and a user can communicate with other users near the interaction sensor 4 under the condition of wearing the earphone terminal 1, so that the user can know the specific situation of the setting position of the interaction sensor 4 without moving and perform corresponding processing.

The number of the interaction sensors 4 or the detection sensors 3 may be one or more, and may be set at a position required to be set according to actual requirements.

The interaction sensor 4 or the detection sensor 3 may be an infrared detector, a door switch detector, a sound detector, a vibration sensor or any other type of sensor for detecting the surroundings. It also supports more functions. For example, a sensor located at the doorway provides a button for a doorbell. The detector may also detect the movement of a person near the front door, or detect the temperature near the outside of the front door.

Preferably, the detection sensor 3 is a low power consumption sensor that turns off the wireless circuit and passively waits for an input in a standby mode; thus, the service life is long, and batteries do not need to be replaced.

Preferably, the interaction sensor 4 is a normally open sensor, and is wirelessly connected with the wireless earphone terminal 1 to actively monitor input; thus, the monitoring effect is better.

Example 2

As described above, the present embodiment of the interactive monitoring system is an interactive monitoring method for drinking, as shown in fig. 2, the interactive monitoring method includes:

step 100, after the earphone terminal 1 is powered on, establishing wireless connection with the interactive sensor 4;

in the present application, i is a specially designed protocol that allows all devices (the earphone terminal 1, the interaction sensor 4, and the detection sensor 3) to be connected together, where the earphone terminal 1 is a master, the interaction sensor 4, and the detection sensor 3 (possibly existing devices such as a PC terminal and a game machine that are wirelessly connected to the earphone terminal 1) are slaves. All slaves are pre-paired with the master.

After the earphone terminal 1 is powered on, wireless connection is directly established with the paired interaction sensors 4.

Step 200, after detecting a local input or an instruction sent by the interaction sensor 4 or the detection sensor 3, executing the instruction;

the locally input instruction refers to an instruction or operation input by a user through a button on the headset terminal 1 or a touch screen on the headset terminal 1 or through other input devices connected with the headset terminal 1.

After detecting that the surrounding environment changes, the interaction sensor 4 and the detection sensor 3 send the changes to the earphone terminal 1 in the form of input data or instructions, so that the earphone terminal 1 can execute different operations according to different instructions.

Step 300, sending a data transmission request to the interaction sensor 4;

in order to facilitate the collection of the latest data of the interactive sensor 4, a data transmission request needs to be sent to the interactive sensor 4 so that the interactive sensor 4 can send the latest data to the headset terminal 1.

Step 400, judging whether input data fed back by the interactive sensor 4 after receiving the data transmission request is detected;

after receiving the data transmission request, the interactive sensor 4 sends the latest input data to the earphone terminal 1 as feedback, so that if the latest input data is received, it is proved that the surrounding environment of the interactive sensor 4 changes, and corresponding operation needs to be generated according to the change; if not, the change of the environment around the interaction sensor 4 is proved, and the subsequent steps can be continuously executed.

Step 500, if the input data is detected, executing corresponding operation according to the received input data;

receiving, and proving that the environment around the interaction sensor 4 changes, wherein the input data of the interaction sensor 4 includes: button input, motion detection, sound level detection, and speech communication. The headset terminal 1 may generate corresponding different operations according to the detected different data to distinguish the detected environmental changes.

The button input refers to an input generated by touching or compressing a button on the interaction sensor 4 from the outside, for example, a visitor or a playing child presses a call key, so as to perform a call.

The motion detection and sound level detection refer to the external motion or sound intensity detected by the interactive sensor 4; such as detection of an abnormal vibration or a sharp sound, etc.

The language communication refers to the voice transmitted from the outside received by the interactive sensor 4, such as the voice called by the visitor or the inquiry about whether someone is present.

Step 600, if not, judging whether a wireless connection request of the detection sensor 3 is detected;

the detection sensor 3 is a normally closed sensor, that is, the detection sensor is disconnected from the earphone terminal 1 in a standby state, and only when abnormality is detected and input data needs to be sent to the earphone terminal 1, a wireless connection request needs to be sent, so that wireless connection is established and the input data is sent.

Step 700, if the wireless connection request is detected, establishing wireless connection with the detection sensor 3;

the detection sensor 3 is normally closed, and wireless connection with the earphone terminal 1 cannot be generated unless an abnormal signal is generated and needs to be sent to the earphone terminal 1; in this way, the need for wireless connection channels in the system can be reduced, so that a large number of detection sensors 3 (for example, one hundred) can be arranged in the whole system, and the area where interaction is possible is enlarged.

Step 800, receiving the input data sent by the detection sensor 3, executing the corresponding operation, and sending a standby instruction to the detection sensor 3.

Here, the standby command may be a data transmission command, or may be a command for ending the current operation state of the detection sensor 3 or another command related thereto, and the transmission of the standby command facilitates control of the detection sensor 3.

In this way, the detection sensor 3-and the interaction sensor 4 can be placed at a location where monitoring or interaction (communication) is required, such as a doorway, a kitchen, a backyard, etc.; each of the detection sensors 3 may wirelessly transmit an alarm signal to the earphone terminal 1 when a preset condition is satisfied. The earphone terminal 1 generates an alarm signal by driving or corresponding vibration or the like. Therefore, a user of the earphone terminal 1 can master the surrounding environment, inconvenience brought to normal life by the earphone terminal 1 is avoided, the user can timely react to the surrounding environment on the premise of enjoying comfortable life brought by the earphone terminal 1, and emergency situations such as adverse consequences caused by alarm of a kitchen timer and the like are avoided.

Preferably, as shown in fig. 3, the step 200 includes:

step 210, judging whether a local input or an instruction sent by the interaction sensor 4 or the detection sensor 3 is detected;

the locally inputted instruction includes: a sound increase instruction, a sound decrease instruction, a mute cancel instruction, and a sound mode switching instruction. These instructions are typically input through an input device such as a button or a touch screen on the headphone terminal 1.

Step 220, if the instruction is detected, judging whether the instruction is an instruction sent by the interaction sensor 4 or the detection sensor 3;

wherein, the instructions sent by the interaction sensor 4 or the detection sensor 3 include: starting a voice chat instruction, stopping the voice chat instruction, starting a vibration instruction and stopping the vibration instruction. These instructions are typically generated by the interaction sensor 4 or the detection sensor 3 in response to changes in the surrounding environment.

Step 230, if the instruction is sent by the interaction sensor 4 or the detection sensor 3, executing the instruction sent by the interaction sensor 4 or the detection sensor 3;

and step 240, if the instruction is not the instruction sent by the interaction sensor 4 or the detection sensor 3, executing the locally input instruction.

Therefore, by accurately identifying the instructions sent by the local input and interaction sensor 4 or the detection sensor 3 and generating corresponding execution operation, the operation is accurate, convenient and quick.

Preferably, as shown in fig. 4, the step 500 includes:

step 510, judging whether the received input data is a voice chat starting instruction;

the instructions sent by the interaction sensor 4 generally include: starting a voice chat instruction, stopping the voice chat instruction, starting a vibration instruction and stopping the vibration instruction. The voice chat instruction is started, which means that the earphone terminal 1 and the interaction sensor 4 need to establish a dedicated channel for communication, so that the instruction needs to be judged, and subsequent steps are facilitated.

Step 520, if the voice chat starting instruction is received, judging whether the earphone terminal 1 is in a voice chat mode;

to start the voice chat between the earphone terminal 1 and the interactive sensor 4, the voice chat mode of the earphone terminal 1 needs to be switched to the earphone terminal 1-the interactive sensor 4, so that the current state of the earphone terminal 1 needs to be judged.

Step 530, if the current voice chat mode is in the voice chat mode, judging whether the current voice chat is finished;

and 540, if the operation is finished, switching the earphone terminal 1 to a voice chat mode with the interaction sensor 4.

In this way, after receiving the sending data of the interactive sensor 4, the current mode of the earphone terminal 1 is identified according to the specific data in the sending data, so that proper switching is performed, and the purpose of performing voice chat between the earphone terminal 1 and the interactive sensor 4 is achieved.

Preferably, the step 500 further includes:

step 550, if the voice chat instruction is not started, performing a first preset operation;

if the voice chat instruction is not a voice chat instruction, the voice chat instruction is an instruction which needs to be subjected to alarm operation in a vibration mode, a sound mode and the like; these instructions operate in a similar manner and thus the first preset operation can be performed directly.

Wherein the first preset operation is: reducing the volume of the earphone terminal 1 to 50% and muting for 0.5 s; in this way, by reducing the volume and muting, the user of the headphone terminal 1 can be preliminarily separated from communication with the PC or the game machine or the music player, thereby preventing subsequent other alarm operations from being too sudden to have adverse consequences.

Step 560, judging the trigger type of the input data;

the input data of the interaction sensor 4 includes: button input, motion detection, sound level detection, and speech communication; the corresponding trigger modes are button trigger, action trigger and sound trigger (the association of voice communication with the processing of the step and the subsequent steps is small, so that no trigger type exists); the trigger type is judged, so that different alarm modes can be generated according to different trigger types, and a user can conveniently recognize the alarm modes.

Step 561, if the trigger type is button trigger, performing a second preset operation;

wherein the second preset operation is: generating a 1KHz tone for 1 s; in this way, the user can identify different trigger types based on the tone, voice and other distinguishing points of the alarm.

Step 562, if the trigger type is action trigger, performing a third preset operation;

wherein the third preset operation is: generating a 1KHz tone for 1s, muting for 0.5s, then generating a 1KHz tone for 1s, muting for 0.5s, and then restoring the volume of the earphone terminal 1; in this way, the user can identify different trigger types based on the tone, voice and other distinguishing points of the alarm.

Step 563, if the trigger type is voice trigger, a fourth preset operation is performed.

Wherein the fourth preset operation is: producing a 480Hz tone 1 s. In this way, the user can identify different trigger types based on the tone, voice and other distinguishing points of the alarm.

Therefore, different preset operations are generated by identifying the trigger type of the sending data of the interactive sensor 4, so that a user can conveniently identify the surrounding environment change mechanical energy according to the generated different preset operations, and a better identification effect is achieved.

Preferably, the step 500 further includes:

step 570, if not, switching to the voice chat mode with the interaction sensor 4.

Thus, the user of the earphone terminal 1 can conveniently communicate with other people near the interactive sensor 4 by voice to exchange information.

Preferably, the step 500 further includes:

step 580, if not, sending a voice chat unavailable instruction to the interaction sensor 4.

In this way, the user of the headset terminal 1 can timely feed back when busy with other voice chats, thereby facilitating other operations by people near the interaction sensor 4.

Preferably, as shown in fig. 5, the step 800 includes:

step 810, receiving input data of the detection sensor 3 and then performing a first preset operation;

the input data of the detection sensor 3 includes: button input, motion detection and sound level detection; but does not include verbal communication; all the instructions are instructions which need to be subjected to alarm operation in modes of vibration, sound and the like; these instructions operate in a similar manner and thus the first preset operation can be performed directly.

Wherein the first preset operation is: reducing the volume of the earphone terminal 1 to 50% and muting for 0.5 s; in this way, by reducing the volume and muting, the user of the headphone terminal 1 can be preliminarily separated from communication with the PC or the game machine or the music player, thereby preventing subsequent other alarm operations from being too sudden to have adverse consequences.

Step 821, judging the trigger type of the input data of the detection sensor 3;

the input data of the detection sensor 3 includes: button input, motion detection and sound level detection; the corresponding trigger modes are button trigger, action trigger and sound trigger; the trigger type is judged, so that different alarm modes can be generated according to different trigger types, and a user can conveniently recognize the alarm modes.

Step 822, if the trigger type is button trigger, performing a second preset operation;

wherein the second preset operation is: generating a 1KHz tone for 1 s; in this way, the user can identify different trigger types based on the tone, voice and other distinguishing points of the alarm.

Step 823, if the trigger type is action trigger, performing a third preset operation;

wherein the third preset operation is: generating a 1KHz tone for 1s, muting for 0.5s, then generating a 1KHz tone for 1s, muting for 0.5s, and then restoring the volume of the earphone terminal 1; in this way, the user can identify different trigger types based on the tone, voice and other distinguishing points of the alarm.

In step 824, if the trigger type is voice trigger, a fourth preset operation is performed.

Wherein the fourth preset operation is: producing a 480Hz tone 1 s. In this way, the user can identify different trigger types based on the tone, voice and other distinguishing points of the alarm.

Therefore, different preset operations are generated by identifying the trigger type of the sending data of the detection sensor 3, so that a user can conveniently identify the surrounding environment change mechanical energy according to the generated different preset operations, and a better identification effect is achieved.

Example 3

As described above, the present embodiment of the interactive monitoring system is an interactive monitoring method for drinking, as shown in fig. 6, the interactive monitoring method includes:

step 01, judging whether the wake-up time is reached or not in a standby state of the detection sensor 3;

the wake-up time is the time to periodically check for local inputs. This time is a trade-off between power consumption and user experience and ranges between 500ms and 1000 ms. Wherein the local input means that a button on the detection sensor 3, a motion detector, or a sound level detects an abnormality. The detection sensor 3 is normally closed, and can be periodically awakened through the setting of awakening time, so that the electric quantity can be saved on one hand, and on the other hand, the abnormal change of the surrounding environment can be timely detected.

Step 02, judging whether input data input locally is detected or not if the awakening time is up;

here, the detection of the locally input data means that a button on the detection sensor 3 is triggered or a motion detector or sound level detects abnormal vibration or sound, thereby feeding back the abnormal data to the detection sensor 3.

Step 03, if detecting, sending a wireless connection request to the earphone terminal 1;

the detection sensor 3 is a normally closed sensor, that is, the detection sensor is disconnected from the earphone terminal 1 in a standby state, and only when abnormality is detected and input data needs to be sent to the earphone terminal 1, a wireless connection request needs to be sent, so that wireless connection is established and the input data is sent.

Step 04, establishing a wireless connection with the earphone terminal 1, and sending the input data to the earphone terminal 1;

after detecting the wireless connection request, the earphone terminal 1 establishes wireless connection with the detection sensor 3; in this way, the detection sensor 3 can transmit the input data to the headphone terminal 1.

Step 05, judging whether a standby instruction sent by the earphone terminal 1 is received;

the earphone terminal 1 receives the input data sent by the detection sensor 3 and executes corresponding operations, and then sends a standby instruction to the detection sensor 3. The standby command may be a data transmission command, or may be a command for ending the current operating state of the detection sensor 3 or another command related thereto, and the transmission of the standby command facilitates control of the detection sensor 3.

Step 06, if not receiving, directly entering a standby state;

and step 07, if the standby instruction is received, executing the standby instruction and then entering a standby state.

Thus, the earphone terminal 1 enters a standby state, and the wireless connection with the earphone terminal 1 is disconnected, so that the consumption of electric quantity can be greatly reduced, and the actions of frequently replacing a battery and the like are avoided.

In this way, the detection sensor 3 is awakened periodically, so that the local input of the detection sensor 3 can be sent to the earphone terminal 1 in time, and the user of the earphone terminal 1 can sense and recognize the local input conveniently.

In this way, the detection sensor 3 can wirelessly send an alarm signal to the earphone terminal 1 when the preset condition is satisfied. The earphone terminal 1 generates an alarm signal by driving or corresponding vibration or the like. Therefore, a user of the earphone terminal 1 can master the surrounding environment, inconvenience brought to normal life by the earphone terminal 1 is avoided, the user can timely react to the surrounding environment on the premise of enjoying comfortable life brought by the earphone terminal 1, and emergency situations such as adverse consequences caused by alarm of a kitchen timer and the like are avoided.

Example 4

As described above, the present embodiment of the interactive monitoring system is an interactive monitoring method for drinking, as shown in fig. 7, the interactive monitoring method includes:

step 10, after the interactive sensor 4 is powered on, establishing wireless connection with the earphone terminal 1;

the interaction sensor 4 is normally open, is paired with the earphone terminal 1, and directly establishes wireless connection with the earphone terminal 1 after being powered on, so that subsequent operations such as data transmission are facilitated.

Step 20, judging whether a data transmission request sent by the earphone terminal 1 is detected;

in order to facilitate the collection of the latest data of the interaction sensor 4, the headset terminal 1 may send a data transmission request to the interaction sensor 4 so that the interaction sensor 4 may transmit the latest data to the headset terminal 1.

Step 30, if the detection is detected, sending input data to the earphone terminal 1;

when detecting a data transmission request sent by the headset terminal 1, it is that the headset terminal 1 needs to collect the current input data of the interaction sensor 4, so that the input data is sent to the headset terminal 1, which is convenient for the headset terminal 1 to execute corresponding operations according to the input data.

Step 40, if not, judging whether the input data input locally is detected;

wherein, the detection of the locally input data means that the button on the detection sensor 3 is triggered or the sound level detects abnormal vibration or sound, so as to feed back the abnormal data to the detection sensor 3; while the locally input data also includes voice communications.

And step 50, if the input data input locally is detected, sending the input data to the earphone terminal 1.

Therefore, the identification is judged through the circulation of the interactive sensor 4, so that the input data locally input by the interactive sensor 4 can be conveniently and timely sent to the earphone terminal 1, and the user of the earphone terminal 1 can conveniently sense and identify the input data.

In this way, the interaction sensor 4 can send an alarm signal to the earphone terminal 1 in a wireless manner when the preset condition is met. The earphone terminal 1 generates an alarm signal by driving or corresponding vibration or the like. Therefore, a user of the earphone terminal 1 can master the surrounding environment, inconvenience brought to normal life by the earphone terminal 1 is avoided, the user can timely react to the surrounding environment on the premise of enjoying comfortable life brought by the earphone terminal 1, and emergency situations such as adverse consequences caused by alarm of a kitchen timer and the like are avoided.

Preferably, as shown in fig. 8, the sending the input data includes:

step 61, judging whether the input data is a voice chat opening instruction;

the instructions sent by the interaction sensor 4 generally include: starting a voice chat instruction, stopping the voice chat instruction, starting a vibration instruction and stopping the vibration instruction. The voice chat instruction is started, which means that the earphone terminal 1 and the interaction sensor 4 need to establish a dedicated channel for communication, so that the instruction needs to be judged, and subsequent steps are facilitated.

Step 62, if the voice chat command is started, starting a voice chat module;

the voice chat instruction is started, which means that the earphone terminal 1 and the interaction sensor 4 need to establish a dedicated channel for communication, and therefore, if the instruction is the instruction, the voice chat module is started, so that a communication channel with the earphone terminal 1 is established.

Step 63, judging whether the voice chat is finished or not;

and step 64, if the operation is finished, closing the voice chat module.

Thus, when voice chat is needed, the voice module of the interactive sensor 4 can be turned on, so that people near the interactive sensor 4 can communicate with the user of the earphone terminal 1 conveniently.

Preferably, the sending the local input data further includes:

step 65, if the voice chat command is not opened, sending the input data to the earphone terminal 1.

Therefore, data transmission or voice module starting operation can be directly carried out through the identification of local input data, so that the environmental change around the interaction sensor 4 is timely transmitted to the earphone terminal 1, and the identification and the operation of a user are convenient.

Example 5

As described above, the present embodiment is a specific way of applying the interactive monitoring system and the interactive monitoring method to the field of games.

In the existing scenes using earphones, such as music appreciation, video or television program watching and games, the constraint of games on users is strongest, and users need to communicate and cooperate with teammates through voice continuously in the game playing process, such as online games or other 3D games, so that the users are difficult to stop the games and deal with other things such as opening doors and the like; especially, once a critical moment is played while playing the game, the user can not stop the game and then deal with other things, which would bring about a very bad game experience.

Fig. 9 is a block diagram illustrating an application of the interactive monitoring system according to the embodiment of the present invention to the field of games; in the figure, the earphone terminal 1 is connected to an audio transceiver 6 so that audio communication between the user and the game host/teammate is realized through the audio transceiver 6.

The audio transceiver 6 may be a connection device between the game host and the earphone terminal 1, and the earphone terminal 1 and the game host realize audio transmission through the audio transceiver 6; the audio transceiver 6 can also be a game host directly, and the earphone terminal 1 and the audio transceiver 6 (game host) realize audio transmission directly.

Preferably, the audio transceiver 6 may also include a fiber optic input, an analog audio input and a USB DAC. It supplies power for the USB port, and the power supply effect is better like this.

In addition, in each of the above embodiments, the first preset operation is: reducing the volume of the earphone terminal 1 to 50% and muting for 0.5 s; not only is the user of the earphone terminal 1 initially separated from the communication with the PC or the game machine or the music player, but also the user can continue to normally operate the game at the critical moment of the game, and the brief mute will not interfere with the operation of the game by the user, nor with the voice communication between the user and teammates, etc.

Likewise, the second preset operation is: generating a 1KHz tone for 1 s; the third preset operation is: generating a 1KHz tone for 1s, muting for 0.5s, then generating a 1KHz tone for 1s, muting for 0.5s, and then restoring the volume of the earphone terminal 1; the fourth preset operation is: producing a 480Hz tone 1 s. The second preset operation, the third preset operation and the fourth preset operation can enable the user to continue to normally operate the game at the key moment of the game, and the transient mute can not interfere with the operation of the user on the game and the voice communication between the user and teammates and the like.

Therefore, the interactive monitoring system and the interactive monitoring method are applied to the field of games, so that the user of the earphone can still monitor the surrounding environment and timely react to the surrounding environment without influencing the normal operation of the games in the normal game process, and the user can achieve better game experience. The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. An interactive monitoring system, comprising: the system comprises an earphone terminal (1), a detection sensor (3) and an interaction sensor (4); the detection sensor (3) is in communication connection with the earphone (1), detects surrounding environment information and sends an alarm signal to the earphone when a preset condition is met; the interaction sensor (4) is in communication connection with the earphone (1) and is used for sending an audio signal to the earphone terminal (1) or receiving the audio signal sent by the earphone terminal (1); the earphone terminal (1) receives the alarm signal or the audio signal sent by the interaction sensor (4) and then plays the audio signal to the outside;

the interaction sensor is a normally open sensor, and the detection sensor is a normally closed sensor.

2. The interactive monitoring system according to claim 1, characterized in that the headset terminal (1) comprises a call module (5) and a wireless transceiver module (2), and the headset terminal (1) is in communication connection with the detection sensor (3) and the interaction sensor (4) through the wireless transceiver module (2).

3. An interactive monitoring method, comprising:

after the earphone terminal (1) is powered on, wireless connection is established with the interactive sensor (4);

after detecting a local input or an instruction sent by the interaction sensor (4) and the detection sensor (3), executing the instruction;

-sending a data transmission request to the interaction sensor (4);

judging whether input data fed back after the interactive sensor (4) receives the data transmission request is detected;

if so, executing corresponding operation according to the received input data;

if not, judging whether a wireless connection request of the detection sensor (3) is detected or not;

if the wireless connection request is detected, establishing wireless connection with the detection sensor (3);

receiving input data sent by the detection sensor (3), executing corresponding operation, and sending a standby instruction to the detection sensor (3);

wherein, the detection sensor is a normally closed sensor.

4. The interactive monitoring method according to claim 3, characterized in that the execution of the instructions sent by the interaction sensor (4) and the detection sensor (3) after the detection of the local input comprises:

judging whether a local input or an instruction sent by the interaction sensor (4) and the detection sensor (3) is detected;

if the instruction is detected, judging whether the instruction is the instruction sent by the interaction sensor (4) or the detection sensor (3);

if the instruction is sent by the interaction sensor (4) or the detection sensor (3), executing the instruction sent by the interaction sensor (4) or the detection sensor (3);

if the instruction is not the instruction sent by the interaction sensor (4) or the detection sensor (3), executing the locally input instruction.

5. The interactive monitoring method according to claim 3 or 4, wherein the performing corresponding operations according to the received input data comprises:

judging whether the received input data is a voice chat starting instruction or not;

if the voice chat starting instruction is the voice chat starting instruction, judging whether the earphone terminal (1) is in a voice chat mode;

if the current voice chat mode is in the voice chat mode, judging whether the current voice chat is finished;

if the user is finished, switching to a voice chat mode with the interaction sensor (4).

6. The interactive monitoring method of claim 5, wherein the performing corresponding operations according to the received input data further comprises:

if the voice chat starting instruction is not the voice chat starting instruction, performing a first preset operation;

judging the trigger type of the input data;

if the trigger type is button trigger, performing second preset operation;

if the trigger type is action trigger, performing third preset operation;

and if the trigger type is voice trigger, performing a fourth preset operation.

7. The interactive monitoring method of claim 5, wherein the performing corresponding operations according to the received input data further comprises:

and if the mobile terminal is not in the voice chat mode, switching to the voice chat mode with the interaction sensor (4).

8. The interactive monitoring method according to claim 3 or 4, characterized in that said receiving input data sent by said detection sensor (3) and performing corresponding operations comprise:

receiving input data of the detection sensor (3) and then performing first preset operation;

judging the trigger type of the input data of the detection sensor (3);

if the trigger type is button trigger, performing second preset operation;

if the trigger type is action trigger, performing third preset operation;

and if the trigger type is voice trigger, performing a fourth preset operation.

9. An interactive monitoring method, comprising:

detecting whether the sensor (3) reaches the awakening time or not in the standby state;

if the wake-up time is up, judging whether the input data input locally is detected;

if the wireless connection request is detected, sending a wireless connection request to the earphone terminal (1);

establishing a wireless connection with the earphone terminal (1), and sending the input data to the earphone terminal (1);

judging whether a standby instruction sent by the earphone terminal (1) is received or not;

if not, directly entering a standby state;

if yes, executing the standby instruction and then entering a standby state;

the detection sensor is a normally closed sensor.

10. An interactive monitoring method, comprising:

after the interactive sensor (4) is powered on, establishing wireless connection with the earphone terminal (1);

judging whether a data transmission request sent by the earphone terminal (1) is detected;

if so, sending input data to the earphone terminal (1);

if not, judging whether the input data input locally is detected;

if the input data input locally is detected, the input data is sent to the earphone terminal (1);

wherein the interaction sensor is normally open.

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