CN106851198B - Network camera operation method and network camera - Google Patents

Abstract

The invention relates to a network camera operation method and a network camera. Therefore, the network camera and the intelligent terminal do not transmit audio data immediately after establishing wireless connection, but the intelligent terminal and the network camera are bound through the cloud server and the audio data can be transmitted after the binding is successful, so that a safer interaction mechanism is provided, and the accuracy of the audio data is improved.

Description

Network camera operation method and network camera

Technical Field

The invention relates to the technical field of network cameras, in particular to a network camera operation method and a network camera.

Background

The network CAMERA, also called IP CAMERA (IPC), is a new generation CAMERA produced by combining traditional CAMERA and network technology, and can transmit the image to the other end of the earth through the network, and the remote browser can monitor the image only by standard web browser (such as Microsoft IE or Netscape) without any professional software. The network camera is formed by combining a network coding module and an analog camera. The network coding module codes and compresses the analog video signal collected by the analog camera into a digital signal, so that the network switching and routing equipment can be directly accessed, and an embedded chip is arranged in the network camera and adopts an embedded real-time operating system.

When the network camera is installed at a designated position, the audio capture range of the network camera is limited, for example: when the network camera is installed at one side of a room, audio data transmitted from the other side of the room cannot be received and identified by the network camera due to the fact that the audio data is far away from the network camera and the audio data signal is too weak. In order to solve the problem, the traditional solution is to wirelessly send audio data to the network camera by using an intelligent terminal, so as to expand the audio data acquisition range of the network camera. However, how to improve the accuracy of the audio data received by the network camera is an urgent problem to be solved.

Disclosure of Invention

Based on this, it is necessary to provide a network camera operating method and a network camera for improving the accuracy of audio data received by the network camera.

A network camera operating method performed by a network camera capable of wireless communication, comprising:

establishing wireless connection with an intelligent terminal capable of performing wireless communication;

the intelligent terminal is bound with the intelligent terminal through a cloud server;

and wirelessly receiving the audio data from the intelligent terminal after the binding is successful.

In one embodiment, the step of binding with the intelligent terminal through the cloud server includes:

after the intelligent terminal registers an account number in the cloud server, wirelessly receiving binding information from the intelligent terminal;

switching to a lock mode; in the lock mode, the network camera unit only wirelessly receives an unlocking key from the intelligent terminal which is successfully bound, and the network camera unit can be connected with a network;

and binding the intelligent terminal with the cloud server according to the binding information.

In one embodiment, the binding information includes login information for the network camera to log in the cloud server and a registration identifier of the intelligent terminal.

In one embodiment, the step of binding the intelligent terminal with the cloud server through the cloud server according to the binding information includes:

logging in the cloud server according to the login information;

and sending the registration identification to the cloud server so that the cloud server can verify whether the registration identification is matched with the intelligent terminal.

In one embodiment, the step of wirelessly receiving audio data from the intelligent terminal after the binding is successful comprises:

after the cloud server verifies that the registration identifier is matched with the intelligent terminal, receiving binding success information from the cloud server, and determining that the binding is successful;

wirelessly receiving the unlocking key from the intelligent terminal;

and when the unlocking key from the intelligent terminal is judged to be correct, entering a normal working mode, and wirelessly receiving audio data from the intelligent terminal.

A network camera comprises a camera main control module and a wireless module which are connected with each other;

the camera main control module is used for executing the network camera operation method, controlling the wireless module to operate and receiving audio data from the intelligent terminal through the wireless module; the wireless module is used for carrying out wireless communication with the intelligent terminal.

In one embodiment, the wireless module is a bluetooth module.

In one embodiment, the camera main control module is further configured to control the wireless module to monitor only a wake-up message from the intelligent terminal for controlling the network camera to switch to a normal operating mode in a low power consumption mode; the low power consumption mode consumes less power than the normal operating mode.

In one embodiment, the network camera further comprises a mode processor; the mode processor is respectively connected with the camera main control module and the wireless module;

the mode processor is used for controlling the camera main control module to be powered off in the low power consumption mode, and is also used for controlling the camera main control module to be powered on according to the awakening message received by the wireless module in the low power consumption mode.

In one embodiment, the camera main control module is connected with the mode processor through a general input/output interface.

The network camera operation method and the network camera have the beneficial effects that: the network camera is wirelessly connected with the intelligent terminal capable of performing wireless communication, then is bound with the intelligent terminal through the cloud server, and wirelessly receives audio data from the intelligent terminal after the binding is successful. Therefore, the network camera and the intelligent terminal do not transmit audio data immediately after establishing wireless connection, but the intelligent terminal and the network camera are bound through the cloud server and the audio data can be transmitted after the binding is successful, so that a safer interaction mechanism is provided, and the accuracy of the audio data is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings of the embodiments can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of a method for operating a network camera according to an embodiment;

fig. 2 is a flowchart illustrating one specific step S200 of the network camera operating method according to the embodiment shown in fig. 1;

fig. 3 is a flowchart illustrating one specific step S230 in the network camera operating method according to the embodiment shown in fig. 2;

fig. 4 is a flowchart illustrating one specific step S300 in the operation method of the network camera according to the embodiment shown in fig. 1;

fig. 5 is a system block diagram relating to the network camera operation method of the embodiment shown in fig. 1;

fig. 6 is a block diagram of a network camera according to another embodiment.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 and fig. 6, an embodiment provides a network camera operating method performed by a network camera 100 capable of wireless communication, which includes the following steps.

And S100, establishing wireless connection with the intelligent terminal 200 capable of performing wireless communication.

The smart terminal 200 may be a mobile phone or the like, and the mobile phone may communicate with the network camera 100 through an APP (Application). After the network camera 100 and the intelligent terminal 200 establish a wireless connection, it represents that data can be wirelessly transmitted between the two, but in the embodiment of the present invention, the network camera 100 may normally receive audio data from the intelligent terminal 200 only after the following steps are performed.

Specifically, the wireless communication may be bluetooth communication, and then the step S100 specifically includes: the network camera 100 performs bluetooth pairing and connection with the smart terminal 200.

The Bluetooth pairing means that the convenience of use is guaranteed, the first communication authentication between two Bluetooth devices is completed in a pairing mode, and after the Bluetooth devices are paired, the subsequent communication connection does not need to be confirmed every time. The bluetooth connection refers to a process of establishing the same piconet channel by the master device and the slave device, so that the master device and the slave device can hop carrier frequencies at the same timing and sequence to perform data transmission.

And S200, binding with the intelligent terminal 200 through the cloud server 300.

The binding refers to establishing a corresponding relationship between the smart terminal 200 and the network camera 100, and the cloud server 300 already records the corresponding relationship, which is equivalent to binding the smart terminal 200, the network camera 100, and the cloud server 300 together at the same time. In addition, since the binding needs to be performed through the cloud server 300, both the network camera unit 100 and the smart terminal 200 need to log in the cloud server 300, so that the binding is completed through the platform of the cloud server 300.

And S300, receiving audio data from the intelligent terminal 200 in a wireless mode after the binding is successful.

Then, in the following interactive process, the network camera 100 receives only the audio data transmitted from the intelligent terminal 200 that is successfully bound, and does not receive the audio data transmitted from other intelligent terminals 200, thereby avoiding receiving wrong data.

Therefore, in the above-described network camera operating method provided in the embodiment of the present invention, after the network camera 100 establishes the wireless connection with the intelligent terminal 200, the audio data is not transmitted immediately, but the intelligent terminal 200 and the network camera 100 are bound through the cloud server 300, and the audio data can be transmitted after the binding is successful, so that a safer interaction mechanism is provided, and the accuracy of the audio data is improved.

In one embodiment, one specific implementation of step S200 includes the following, please refer to fig. 2.

Step S210, after the intelligent terminal 200 registers an account in the cloud server 300, wirelessly receiving binding information from the intelligent terminal 200.

In the embodiment of the present invention, the smart terminal 200 first needs to register an account in the cloud server 300, and the cloud server 300 records information (for example, the account) of the smart terminal 200 related to the registration. The binding information enables at least the network camera 100 to log in to the same cloud server 300 as the smart terminal 200 has logged in, and is used for binding. After the intelligent terminal 200 finishes registering the account, the intelligent terminal 200 wirelessly transmits the binding information to the network camera 100.

Further, after receiving the binding information, the network camera 100 may reply an acknowledgement message to the smart terminal 200 to represent that the network camera 100 has successfully received the binding information.

And S220, switching to a locking mode. In the lock mode, the network camera unit 100 wirelessly receives only the unlocking key from the smart terminal 200 that is successfully bound, and the network camera unit 100 can connect to the network.

In the embodiment of the present invention, in the lock mode, the network camera 100 can only receive the unlock key, and cannot receive other types of data (including audio data). When the network camera unit 100 receives the unlocking key, it can switch to the normal operating mode, and at this time, it can receive the audio data from the intelligent terminal 200 that is successfully bound. In addition, in the lock mode, the network camera unit 100 can still connect to the network, thereby ensuring that the network camera unit can interact with the cloud server 300 to complete the binding process.

And step S230, binding the intelligent terminal 200 through the cloud server 300 according to the binding information.

Specifically, the binding information may include login information for the network camera 100 to log in the cloud server 300 and a registration identifier of the smart terminal 200.

The login information may include router information related to a network through which the cloud server 300 is connected or address information (e.g., an internet protocol address) of the cloud server 300, so that the network camera 100 and the smart terminal 200 can log in to the same cloud server 300. The registration identifier refers to information, such as an account number, that can identify the smart terminal 200 in the cloud service 300.

Based on the above-mentioned content of the binding information, one specific implementation of step S230 includes the following contents, please refer to fig. 3.

And S231, logging in the cloud server 300 according to the login information.

Since the network camera unit 100 can still be connected to the network in the lock mode, the network camera unit 100 can normally log in the cloud server 300 according to the login information given by the smart terminal 200.

Step s232, the registration identifier is sent to the cloud server 300, so that the cloud server 300 verifies whether the registration identifier is matched with the intelligent terminal 200.

The cloud server 300 verifies whether the registration identifier is matched with the intelligent terminal 200, that is, the cloud server 300 verifies whether the registration identifier sent by the network camera 100 is consistent with information stored after the intelligent terminal 200 logs in before, if so, the network camera 100 successfully receives the registration identifier sent by the intelligent terminal 200, and at this time, the cloud server 300 respectively sends binding success information to the network camera 100 and the intelligent terminal 200, so as to respectively inform that the network camera 100 and the intelligent terminal 200 are successfully bound.

It is understood that the specific implementation manner of step S230 is not limited to the above, as long as the network camera unit 100 can bind with the smart terminal 200 through the cloud server 300 according to the above binding information, for example, the binding information may specifically include other types of information, and then step S230 needs to be adjusted accordingly according to the content of the binding information.

Further, based on the above-mentioned embodiment of step S200, one embodiment of step S300 includes the following contents, please refer to fig. 4.

Step s310, after the cloud server 300 verifies that the registration identifier matches the smart terminal 200, receiving binding success information from the cloud server 300, thereby determining that the binding is successful.

Step S320, the unlocking key from the intelligent terminal 200 is received wirelessly.

After the cloud server 300 sends the binding success information to the smart terminal 200, the smart terminal 200 can know that the binding with the network camera 100 is successful, and then the smart terminal 200 sends the unlocking key to the network camera unit 100.

Step S330, when the unlocking key from the intelligent terminal 200 is judged to be correct, entering a normal working mode, and receiving audio data from the intelligent terminal 200.

In the embodiment of the present invention, the standard version of the unlocking key is stored in advance in the network camera 100. When the webcam 100 receives the unlocking key from the smart terminal 200, the unlocking key is compared with the standard version of the unlocking key, if the unlocking key is the same as the standard version of the unlocking key, the received unlocking key is correct, otherwise, the received unlocking key is incorrect.

When the network camera 100 enters the normal operation mode, the network camera 100 can normally receive the audio data from the intelligent terminal 200, and then play the audio data through a speaker and other devices.

It is understood that the specific implementation manner of step S300 is not limited to the above case, as long as the network camera unit 100 can wirelessly receive the audio data from the smart terminal 200 after the binding is successful.

It should be noted that fig. 1 to fig. 4 are schematic flow charts of the method according to the embodiment of the present invention. It should be understood that, although the steps in the flowcharts of fig. 1 to 4 are shown in sequence as indicated by the arrows, the steps are not necessarily performed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least some of the steps in fig. 1-4 may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, in different orders, and may be performed alternately or alternatingly with other steps or at least some of the sub-steps or stages of other steps.

In another embodiment, a webcam is provided, please refer to fig. 6. The network camera includes a camera main control module 110 and a wireless module 120 connected to each other. It should be noted that the network camera is not limited to include these structures, and other conventional structures (for example, a video capture module, a video compression module, a Web server, etc.) are not described herein again. The wireless module 120 is used for wireless communication with the intelligent terminal. It should be noted that all the intelligent terminals provided in the embodiment of the present invention refer to the intelligent terminals that are successfully bound with the network camera 100.

The camera main control module 110 is configured to execute the network camera operation method provided in each of the above embodiments, and the camera main control module 110 is further configured to control the wireless module 120 to operate, and receive audio data from the intelligent terminal through the wireless module 120. Specifically, the camera main control module 110 may input a high level or low level signal to the enable terminal of the wireless module 120, thereby turning on or off the wireless module 120. In addition, the wireless module 120 and the camera main control module 110 may be connected through a Serial Peripheral Interface (SPI), so as to transmit audio data and receive and transmit other interactive commands.

In the embodiment of the present invention, the camera main control module 110 is further configured to control other structures in the network camera to operate, so that the network camera can digitize the video signal, compress the video signal by the high-efficiency compression chip, and transmit the video signal to the Web server through the network bus. Specifically, the camera main control module 110 may run on a linux operating system. Specifically, the wireless module 120 is a bluetooth module.

In one embodiment, on the premise that the wireless module 120 is a bluetooth module, the camera main control module 110 is further configured to control the wireless module 120 to only monitor a wake-up message from the intelligent terminal for controlling the network camera to switch to the normal operating mode in the low power consumption mode. Wherein, the power consumed by the low power consumption mode is less than the power consumed by the normal working mode.

In the embodiment of the invention, the network camera has two states of a normal working mode and a low power consumption mode. When the wireless module 120 receives the wake-up message, the network camera unit switches to the normal operating mode. When the wireless module 120 does not receive the signal sent by the intelligent terminal all the time within the set time period, the network camera unit can be switched to the low power consumption mode.

In the low power mode, the wireless module 120 only receives the wake-up message, and other messages are temporarily ignored, so that the power consumption of the wireless module 12 can be reduced to 128 uA. In the normal operation mode, the wireless module 120 resumes normal operation.

Further, with continued reference to fig. 6, the webcam further includes a mode processor 130. The mode processor 130 is connected to the camera main control module 110 and the wireless module 120, respectively.

The mode processor 130 is used to control the camera main control module 110 to be powered off in a low power consumption mode, that is, in the low power consumption mode, the camera main control module 110 is in a powered off state. The mode processor 130 is further configured to control the camera main control module 110 to be powered on according to the wake-up message received by the wireless module 120 in the low power consumption mode.

In the embodiment of the present invention, in the low power consumption mode, after receiving the wake-up packet from the intelligent terminal, the wireless module 120 may send a corresponding trigger signal to the mode processor 130 to notify the mode processor 130. When the mode processor 130 receives the trigger signal, the camera main control module 110 may be controlled to be powered on, and then the camera main control module 110 may initialize the wireless module 120 to start the wireless module 120, so as to receive the audio data from the intelligent terminal through the wireless module 120.

Specifically, the mode processor 130 is connected to the camera main control module 110 via a General Purpose Input/Output (General Purpose Input/Output) interface. Then, the mode processor 130 may control whether the camera main control module 110 is powered on or off through the GPIO interface. Conversely, the camera main control module 110 may also notify the mode processor 130 that the power-on operation is completed through the GPIO interface, so that the mode processor 130 can know that the camera main control module 110 is powered off to enter the low power consumption mode when it needs to be switched to the low power consumption mode. In addition, the mode processor 130 may also control the wireless module 120 to power up or power down.

Next, the operation process of the network camera provided by the embodiment of the present invention with respect to the normal operation mode and the low power consumption mode will be described: when the network camera is successfully bound with the intelligent terminal, the network camera is in a normal working mode, and the network camera can receive audio data sent by the intelligent terminal. After the intelligent terminal finishes sending the audio data, if the camera main control module 110 finds that the audio data from the intelligent terminal is not received all the time within a set time period through the wireless module 120, the wireless module 120 may be configured to receive only the wakeup message, and the camera main control module 110 notifies the mode processor 130 that the mode processor 130 can enter the low power consumption mode, and then the mode processor 130 may control the camera main control module 110 to power off, and the mode processor 130 itself also operates in the low power consumption state, at this time, the whole network camera unit enters the low power consumption mode.

In the low power consumption mode, if the wireless module 120 receives a wake-up message from the intelligent terminal, a trigger signal is sent to the mode processor 130, after the mode processor 130 receives the trigger signal, the camera main control module 110 is controlled to be powered on, then the camera main control module 110 initializes the wireless module 120, and further the wireless module 120 is controlled to normally operate, and at this time, the whole network camera operates in a normal operating mode.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A network camera operating method performed by a network camera capable of wireless communication, comprising:

establishing wireless connection with an intelligent terminal capable of performing wireless communication;

the intelligent terminal is bound with the intelligent terminal through a cloud server;

after the binding is successful, wirelessly receiving audio data from the intelligent terminal;

the step of binding with the intelligent terminal through the cloud server comprises the steps of,

after the intelligent terminal registers an account number in the cloud server, wirelessly receiving binding information from the intelligent terminal;

switching to a lock mode; in the lock mode, the network camera only wirelessly receives an unlocking key from the intelligent terminal successfully bound, and the network camera can be connected with a network;

binding the intelligent terminal with the cloud server according to the binding information;

the binding refers to establishing a corresponding relationship between the intelligent terminal and the network camera, and the cloud server records the corresponding relationship, which is equivalent to binding the intelligent terminal, the network camera and the cloud server together at the same time.

2. The network camera operating method according to claim 1, wherein the binding information includes login information for the network camera to log in the cloud server and a registration identifier of the smart terminal.

3. The network camera operating method according to claim 2, wherein the step of binding the smart terminal with the cloud server according to the binding information includes:

logging in the cloud server according to the login information;

and sending the registration identification to the cloud server so that the cloud server can verify whether the registration identification is matched with the intelligent terminal.

4. The method for operating the network camera according to claim 3, wherein the step of wirelessly receiving the audio data from the intelligent terminal after the successful binding comprises:

after the cloud server verifies that the registration identifier is matched with the intelligent terminal, receiving binding success information from the cloud server, and determining that the binding is successful;

wirelessly receiving the unlocking key from the intelligent terminal;

and when the unlocking key from the intelligent terminal is judged to be correct, entering a normal working mode, and wirelessly receiving audio data from the intelligent terminal.

5. A network camera is characterized by comprising a camera main control module and a wireless module which are connected with each other;

the camera main control module is used for executing the network camera operation method of any one of claims 1 to 4, and the camera main control module is further used for controlling the operation of the wireless module and receiving audio data from the intelligent terminal through the wireless module; the wireless module is used for carrying out wireless communication with the intelligent terminal.

6. The webcam of claim 5, wherein the wireless module is a Bluetooth module.

7. The network camera according to claim 6, wherein the camera main control module is further configured to control the wireless module to monitor only a wake-up message from the intelligent terminal for controlling the network camera to switch to a normal operating mode in a low power consumption mode; the low power consumption mode consumes less power than the normal operating mode.

8. The network camera of claim 7, further comprising a mode processor; the mode processor is respectively connected with the camera main control module and the wireless module;

the mode processor is used for controlling the camera main control module to be powered off in the low power consumption mode, and is also used for controlling the camera main control module to be powered on according to the awakening message received by the wireless module in the low power consumption mode.

9. The network camera according to claim 8, wherein the camera main control module is connected to the mode processor through a general purpose input/output interface.