KR20150107497A - Wireless network camera and communication method thereof - Google Patents

Abstract

The present invention relates to a first wireless network camera which makes communications with a second wireless network camera via a basic wireless transmission channel, and, when a fail occurs, switches a communication channel from the basic wireless transmission channel to a failover channel to be connected to a third wireless network camera. Then, the first wireless network camera makes communications via the failover channel.

Description

Technical Field [0001] The present invention relates to a wireless network camera and a communication method thereof,

The present invention relates to a wireless network camera and a communication method thereof.

A wired network camera is a system that guarantees transmission stability by transmitting data through a wired network. However, due to the necessity of installing a network cable, a case of requiring a wireless communication system is increasing due to cable cost, interior damage, and the like.

For this reason, a system has been developed in which a wireless camera is connected to a network camera and only the power source is connected. The wireless network camera transmits the shooting data in real time to a monitoring device (for example, a personal computer) located remotely through a network communication network based on TCP / IP (Transmission Control Protocol / Internet Protocol) Allows you to monitor specific areas or spaces while checking data.

However, since a conventional wireless network camera transmits data using a WiFi-based wireless communication method, data transmission is not smooth when the wireless network camera is installed outside a certain distance. In addition, when data is transmitted through a single channel, data transmission can not be performed when a wireless communication failure occurs.

A problem to be solved by the present invention is to provide a wireless network camera capable of communicating without distance restriction and effectively coping with a failure, and a communication method therefor.

A communication method according to a feature of the present invention is a communication method between wireless network cameras, comprising: setting a basic wireless transmission channel with a second wireless network camera by a first wireless network camera; The first wireless network camera determining whether a failure has occurred in the basic wireless transport channel; Switching the communication channel from the primary wireless network camera to a failure recovery channel connected to the third wireless network camera, when the failure occurs; And the first wireless network camera communicating over the failback channel.

Wherein the step of determining whether or not the failure has occurred further includes the step of measuring a probability of occurrence of a failure for the basic radio transmission channel when no failure occurs, And switching the communication channel from the basic radio transmission channel to the failback channel if the threshold is less than the set threshold.

In the step of measuring the probability of occurrence of the failure, the probability of occurrence of the failure may be measured by performing a channel sensitivity test on the basic radio transmission channel.

The channel sensitivity test may use a received signal strength indicator (RSSI) value for a signal received through the basic radio transmission channel and may be used as a probability of occurrence of a fault.

The switching to the failure recovery channel may further include setting a failure recovery channel with the third wireless network camera after the failure occurrence or the possibility of failure occurrence is determined to be less than a preset threshold value And may switch the communication channel from the basic radio transmission channel to the disaster recovery channel after the failure recovery channel is established.

The communication method may further include setting and maintaining a failure recovery channel connected to the third wireless network camera before the step of determining whether the failure has occurred. In addition, when the first wireless network camera receives data through the basic wireless transmission channel or the failure recovery channel, the method may further include transmitting the received data to the wireless sharing device.

A wireless network camera according to another aspect of the present invention includes: an image obtaining unit that obtains an image signal corresponding to an optical signal of a subject; An image signal processing unit for processing the image signal output from the image obtaining unit and outputting corresponding image data; A radio setting unit for checking occurrence of a failure for the basic radio transmission channel and performing switching to a failure recovery channel upon occurrence of a failure; And a wireless client implementation unit for performing communication with another wireless network camera through the basic wireless transport channel and performing communication with another wireless network camera through a failure recovery channel when a failure occurs.

Wherein the wireless setting unit includes: a basic channel setting unit for setting a basic wireless transmission channel; A failure check unit for determining whether a failure has occurred for the basic wireless transmission channel and for measuring a possibility of failure for the basic wireless transmission channel if no failure has occurred; And a failure recovery channel setting unit for setting a failure recovery channel when the failure occurs, or when the probability of occurrence of the failure is less than a preset threshold value.

Wherein the wireless client implementer performs data transmission with the first wireless network camera over a basic wireless transport channel and when the failure occurs or the probability of failure is below a predetermined threshold, It is possible to perform data transmission by switching to a failure recovery channel connected to the second wireless network camera.

In addition, the wireless network camera may further include a wireless server implementation unit for receiving data transmitted from another wireless network camera and delivering the data to the wireless client implementation unit. In this case, the wireless client implementation unit may transmit image data transmitted from the image signal processing unit or image data received from another wireless network camera through the wireless server implementation unit to the wireless sharing apparatus.

The wireless server implementation may support a 1: N connection with a plurality of other wireless network cameras, and may function as a bridge to transfer data received from other network cameras to the wireless client implementation and to transfer data to a destination .

The wireless network camera may further include an image compressing unit compressing the image data output from the image processing unit and transmitting the compressed image data to the wireless client implementing unit.

According to the embodiment of the present invention, the wireless network camera serves as a bridge for reaching the sharing device through the connection between the cameras in the communication through the wireless network camera, The data communication between the cameras can be performed through the wireless network camera installation.

In addition, since the failure is recovered through the multiple connections between the cameras in response to the occurrence of the failure, reliable communication between the wireless network cameras is achieved.

1 is a diagram illustrating a communication system using a wireless network camera according to an embodiment of the present invention.
2 is a diagram illustrating a structure of a wireless network camera according to an embodiment of the present invention.
3 is a diagram illustrating a structure of a wireless setting unit according to an embodiment of the present invention.
4 is a flowchart of a communication method of a wireless network camera according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Hereinafter, a wireless network camera system and a communication method thereof according to an embodiment of the present invention will be described with reference to the drawings.

1 is a diagram illustrating a communication system using a wireless network camera according to an embodiment of the present invention.

1, the communication system 1 according to the embodiment of the present invention includes a plurality of wireless network cameras (to which a representative numeral 10 is assigned), and the wireless network cameras 10 are connected to a wireless sharing device 20 and can communicate with other wireless network cameras without going through the wireless sharing device 20. [

Particularly, in the embodiment of the present invention, the wireless network camera 10 communicates with another wireless network camera through a basic wireless transmission channel, and communicates via a fail over channel when a failure occurs.

For example, if a failure occurs in the basic wireless transmission channel or the camera A while the camera C is communicating by setting the communication with the camera A as the basic wireless transmission channel, a failure recovery channel with the camera B is set, send.

Based on such a communication method, a wireless network camera can transmit / receive data by forming a basic wireless transmission channel with another wireless network camera, and can transmit / receive data by forming a failure recovery channel with another wireless network camera when a failure occurs. In addition, the wireless network camera can directly communicate with the wireless sharing device 20 to transmit and receive data. Accordingly, each wireless network camera can perform a multi-bridge function of transmitting data from another wireless network camera to the wireless sharing device 20, and function as a relay device for failure recovery have.

In the communication environment shown in Fig. 1, the camera A can directly communicate with the wireless sharing device 20 to transmit data. In addition, since the camera A can set up a basic radio transmission channel with the camera C and form a failure recovery channel with the camera D as required, the camera A functions as a wireless multi-bridge that transmits data from the camera C and the camera D to the wireless sharing device can do.

Further, the camera B can directly communicate with the wireless sharer 20 to transmit data. In addition, since the camera B can set the camera D and the basic wireless transmission channel and can form a failure recovery channel with the camera C as needed, the camera B functions as a wireless multi bridge that transmits data from the camera C and the camera D to the wireless sharing device can do.

In addition, the camera C transmits data to the camera A through the basic wireless transmission channel, and communicates with the camera B via the failure recovery channel when a failure occurs. In this manner, the camera C can transmit data to the wireless sharing device 20 via the camera A and the camera B having the wireless multi-bridge function.

In addition, the camera D transmits data to the camera A through the basic wireless transmission channel, and communicates with the camera B via the failure recovery channel when a failure occurs. In this manner, the camera C can transmit data to the wireless sharing device 20 via the camera A and the camera B having the wireless multi-bridge function.

In addition, the camera D transmits data to the camera B through the basic wireless transmission channel, and communicates with the camera A via the failure recovery channel when a failure occurs. Thus, the camera D can transmit data to the wireless sharing device 20 via the camera A and the camera B having the wireless multi-bridge function.

As described above, the wireless network camera according to the embodiment of the present invention includes a wireless multi-bridge 20 that directly communicates with the wireless sharing device 20, or transmits data from another wireless network camera to the wireless sharing device 20, . ≪ / RTI >

Accordingly, one wireless sharing device and a plurality of wireless network cameras are connected in a net structure, and communication between the wireless network cameras or between the wireless network camera and the wireless sharing device is performed without any installation restriction due to the wireless communication distance constraint. Therefore, the installation of the wireless network camera becomes easy. In addition, when a transmission failure occurs in one channel through multiple connections between the wireless network cameras, it is possible to transmit to another channel immediately, thereby facilitating the failure recovery.

The wireless network camera 20 may have the following structure.

2 is a diagram illustrating a structure of a wireless network camera according to an embodiment of the present invention.

2, the wireless network camera 10 according to an exemplary embodiment of the present invention includes an image acquisition unit 11, an image signal processing unit 12, an image compression processing unit 13, a wireless client implementation unit 14, A server implementation unit 15, and a wireless setting unit 16. [

The image acquiring unit 11 acquires an image signal corresponding to the optical signal of the subject input through the lens. To this end, the image acquiring unit 11 may include a charged couple device (CCD) or a complementary metal-oxide semiconductor (CMOS), which is an image sensing device for outputting an electrical signal corresponding to an optical signal incident through the lens.

The image signal processing unit 12 processes the image signal output from the image obtaining unit 11 and outputs a corresponding digital signal, which is referred to as image data for convenience of explanation.

The image compression processing unit (13) compresses the image data output from the image signal processing unit (12). This compression processing section 13 can be selectively used.

Meanwhile, the wireless client implementation unit 14 and the wireless server implementation unit 15 transmit and receive image data.

The wireless client implementation unit 14 communicates with the wireless sharing device 20 to transfer the image data transmitted from another wireless network camera to the wireless sharing device 20 or to transmit the image data transmitted from the image signal processing module 12, And transmits the image data output from the wireless router 13 to the wireless router 20. The wireless client implementation unit 14 performs data retransmission so that image data can be transmitted to a destination based on information transmitted from the wireless server implementation unit 15. [

The wireless server implementing section 15 performs communication with another wireless network camera. The wireless server implementing section 15 receives data transmitted from another wireless network camera through a certain channel and transmits the received data to the wireless client implementing section 14 based on the information obtained from the received data. The wireless server implementation unit 15 can support a one-to-N connection with another wireless network camera, and can perform channel setting from a plurality of wireless network cameras and data transmission / reception through a channel.

The wireless client implementation unit 14 basically can receive or transmit data from another wireless network camera through the basic wireless transport channel. The wireless client implementation unit 14 can receive data from another wireless network camera through the basic wireless transport channel, Channel to receive or transmit data. Specifically, the wireless client implementation unit 14, in response to a request from the wireless setting unit 16, communicates with the second wireless network camera and the second wireless network camera in a state of communicating with the wireless server implementation unit of the first wireless network camera via the basic wireless transport channel And can communicate with the wireless server implementation of the second wireless network camera.

The wireless server implementation unit 15 connects the wireless channel with another wireless network camera without distinguishing the basic wireless transport channel or the failover channel and receives the data transmitted from the wireless network camera and provides the data to the wireless client implementation unit 14 . The wireless server implementation unit 15 may also support a 1: N connection, in which case, for example, the wireless network camera A and the wireless network camera B may be connected to the wireless server implementation unit 15 for communication. At this time, the wireless server implementing unit 15 may be connected through a basic wireless transmission channel by the wireless client implementing unit of the wireless network camera A, and may be connected through the failure recovery channel by the wireless client implementing unit of the wireless network camera B .

On the other hand, the wireless setting unit 16 performs channel setting for communication. That is, the wireless setting unit 16 sets a channel for data transmission / reception through the wireless client implementing unit 14 and the wireless server implementing unit 15.

For this, the wireless setting unit 16 has the following structure.

3 is a diagram illustrating a structure of a wireless setting unit according to an embodiment of the present invention.

3, the wireless setting unit 16 includes a basic channel setting unit 161, a failure check unit 162, and a failure recovery channel setting unit 163.

The basic channel setting unit 161 sets a basic wireless transmission channel for data transmission / reception with another wireless network camera. It is possible to request the other wireless network camera to set the basic wireless transmission channel according to the preset basic wireless transmission channel information or to set the basic wireless transmission channel according to the reception of the basic wireless transmission channel setting request from another wireless network camera.

The failure check unit 162 checks whether a failure has occurred in the basic radio transmission channel. In this case, data transmission / reception is not performed due to an error on the channel where data is transmitted / received, and also includes a failure occurring in the wireless network camera itself. In particular, the failure checker 162 may perform a radio channel sensitivity test on the basic radio transmission channel to predict a failure occurrence .

The wireless channel sensitivity test may be performed using data on a signal received through a channel. For example, the sensitivity of a connected channel is checked using a received signal strength indicator (RSSI) value of a received signal, Can be expressed in dBm. If the RSSI value of the received signal is equal to or lower than a predetermined threshold value, it is determined that a failure has occurred and a failure recovery channel can be set. Also, the failure check unit 162 sets a failure recovery channel even if the wireless channel sensitivity test is not performed due to a physical failure in a component performing wireless reception and image data transmission is impossible.

Meanwhile, the failure check unit 162 can periodically check the status of the basic wireless transmission channel to determine whether or not the basic wireless transmission channel can be communicated, even during communication through the failure recovery channel. In this case, it is also possible to determine whether communication is possible based on the RSSI value of the received signal. If the measured RSSI value is not less than the predetermined threshold value and the communication range is reached, .

(For example, RSSI value) acquired for the basic radio transmission channel according to the radio channel sensitivity test is predicted to be a state in which a failure may occur in the basic radio transmission channel when a preset threshold value is reached, Perform the failover channel setup automatically. In this case, the failure check unit 162 can instruct the failure recovery channel setting unit 163 to set the failure recovery channel, or can instruct the wireless client implementing unit 14 to switch the communication from the basic wireless transmission channel to the failure recovery channel .

The failure recovery channel setting unit 163 sets a failure recovery channel when a failure occurs. A wireless network camera for the fail-over channel may be preset in advance. In this case, the fail-over channel setting unit 163 sets a fail-over channel with the wireless network camera for fail-over. Alternatively, the wireless network camera for failover may not be set in advance, and it may be checked whether or not communication with another wireless network camera other than the wireless network camera in which the basic wireless transmission channel is set up is possible or not. Then, You can configure the network camera and the failover channel.

On the other hand, the failure recovery channel setting unit 163 can set the failure recovery channel in advance regardless of the failure occurrence. That is, a failover channel can be set after a failure or a failure is predicted, and a failover channel can be set in advance regardless of a failure. If the failover channel is preset and maintained, communication over the failover channel may occur sooner without a time delay, in the event of failure and prediction. On the other hand, when the failure recovery channel setting unit 163 sets the failure recovery channel after the failure or the failure is predicted, the failure recovery channel setting unit 163 instructs the wireless client implementing unit 14 to switch the communication from the basic wireless transmission channel to the failure recovery channel .

The wireless client implementation unit 14 performs communication switching from the basic radio transmission channel to the failure recovery channel in response to a request from the failure check unit 162 or the failure recovery channel setting unit 163, And performs transmission and reception.

The wireless server implementation unit 15 also receives data transmitted from another wireless network camera through a wireless channel connected to another wireless network camera (where the wireless channel may be a basic wireless transport channel or a failover channel) And transmits the data to the wireless client implementer 14. Acquires the destination information from the received data, and transmits the received data together with the destination information so that the data is transferred to the destination. The wireless client implementation unit 14 can transmit and receive data to and from the wireless sharing device 20 through the basic wireless transmission channel or the failure recovery channel. In addition, the wireless client implementation unit 14 may transmit data to the other wireless network camera through the basic wireless transmission channel or the failure recovery channel.

Next, a communication method of a wireless network camera according to an embodiment of the present invention will be described.

4 is a flowchart of a communication method of a wireless network camera according to an embodiment of the present invention.

The wireless network camera 10 is installed at a certain position and then establishes a connection of the wireless sharing device 20 via the wireless client implementing section 14 or establishes a connection with another wireless network camera through the wireless server implementing section 15. [ Perform channel setup. Specifically, the wireless client implementer 14 of the wireless network camera 10 establishes a basic wireless transport channel. The wireless network camera 10 may request a basic wireless transmission channel setting with another wireless network camera that is preset or can be set by communication or may set a basic wireless transmission channel according to a request from another wireless network camera (S100 ).

After the basic wireless transport channel is set up, the wireless network camera 10 can receive or transmit data from another wireless network camera through the basic wireless transport channel (S110).

The wireless network camera 10 checks the basic radio transmission channel status to determine whether a failure has occurred (S120, S130). If no failure has occurred, the wireless network camera 10 tests the channel sensitivity for the basic radio transmission channel (S140).

The sensitivity value obtained according to the channel sensitivity test is compared with a predetermined threshold value for predicting the occurrence of the fault (S150). The wireless network camera 10 determines that the probability of occurrence of a failure is very high when the sensitivity value is smaller than or equal to the threshold although the current failure does not occur and the communication channel is switched from the basic wireless transmission channel to the failure recovery channel (S160). The switching from the basic radio transmission channel to the failure recovery channel is performed even if a failure occurs in step S130.

Here, the failure recovery channel may be set in advance regardless of the occurrence of the failure, or the failure recovery channel may be set after it is determined that the failure occurs or the possibility of occurrence of the failure is very high.

Thereafter, the wireless network camera 10 performs data transmission / reception through the failover channel (S170). When the wireless network camera 10 receives data through the basic wireless transport channel or the failover channel, the wireless network camera 10 can transmit the received data to the wireless network device 20. And can transmit data received from the wireless sharing device 20 or another wireless network camera to another wireless network camera through the basic wireless transmission channel or the failure recovery channel.

The embodiments of the present invention are not limited to the above-described apparatuses and / or methods, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (14)

In a communication method between wireless network cameras,
The first wireless network camera establishing a basic wireless transport channel with the second wireless network camera;
The first wireless network camera determining whether a failure has occurred in the basic wireless transport channel;
Switching the communication channel from the primary wireless network camera to a failure recovery channel connected to the third wireless network camera, when the failure occurs; And
Wherein the first wireless network camera communicates over the failover channel
. The method of claim 1, wherein
The step of determining whether or not the fault has occurred
Measuring a probability of occurrence of a failure for the basic radio transmission channel if no failure has occurred;
Further comprising:
The step of switching to the failback channel
Converting the communication channel from the basic radio transmission channel to the failure recovery channel if the probability of occurrence of the failure is less than or equal to a preset threshold
. The method according to claim 2, wherein
Wherein the step of measuring the probability of occurrence of a fault measures a probability of occurrence of a fault by performing channel sensitivity checking on the basic radio transmission channel. The method of claim 3, wherein
Wherein the channel sensitivity test measures a received signal strength indicator (RSSI) value of a signal received through the basic radio transmission channel and uses the received signal strength indicator (RSSI) as a probability of occurrence of a fault. The method according to claim 2, wherein
The step of switching to the failback channel
Further comprising setting a failure recovery channel with the third wireless network camera after the occurrence of the failure or after the probability of occurrence of the failure is determined to be equal to or less than a preset threshold value,
Wherein the communication channel is switched from the base radio transmission channel to the failback channel after the failure recovery channel is established. The method of claim 1, wherein
Prior to the step of determining whether the fault has occurred,
Setting and maintaining a failure recovery channel connected to the third wireless network camera
Further comprising: The method of claim 1, wherein
When the first wireless network camera receives data through the basic wireless transmission channel or the failover channel, transmitting the received data to the wireless sharing device
Further comprising: In a wireless network camera,
An image obtaining unit obtaining an image signal corresponding to an optical signal of a subject;
An image signal processing unit for processing the image signal output from the image obtaining unit and outputting corresponding image data;
A radio setting unit for checking occurrence of a failure for the basic radio transmission channel and performing switching to a failure recovery channel upon occurrence of a failure; And
A wireless client implementation unit that performs communication with another wireless network camera through a basic wireless transport channel and performs communication with another wireless network camera through a failure recovery channel when a failure occurs,
The wireless network camera comprising: The method of claim 8, wherein
The wireless setting unit
A basic channel setting unit for setting a basic radio transmission channel;
A failure check unit for determining whether a failure has occurred for the basic wireless transmission channel and for measuring a possibility of failure for the basic wireless transmission channel if no failure has occurred; And
When the failure occurs, or when the probability of occurrence of the failure is less than a preset threshold value,
The wireless network camera. The method of claim 9, wherein
Wherein the probability of occurrence of the failure indicates a sensitivity value obtained by performing a channel sensitivity test on the basic radio transmission channel. The method of claim 8, wherein
If the first wireless network transmitting data to the camera, and the event of the failure, or less than or equal to the failure, possibly a preset threshold value through the wireless client implementation portion, the base radio transmission channel, the communications channel from the basic radio transmission channel the 2 A wireless network camera that transmits data rules by performing a switch to a failover channel connected to a wireless network camera . The method of claim 8, wherein
A wireless server implementation unit for receiving data transmitted from another wireless network camera and delivering the data to the wireless client implementation unit
Further comprising:
Wherein the wireless client implementation passes image data from the image signal processor or image data received from another wireless network camera via the wireless server implementation to the wireless sharing device. The method of claim 12, wherein
Wherein the wireless server implementer supports a 1: N connection with a plurality of other wireless network cameras, and functions as a bridge for communicating data received from other network cameras to the wireless client implementations, camera. The method of claim 8, wherein
An image compression unit for compressing image data output from the image processing unit and transmitting the compressed image data to the wireless client implementation unit,
Further comprising a wireless network camera.

Images