CN107968903B - monitoring system and method capable of transmitting emergency information and monitoring equipment - Google Patents
monitoring system and method capable of transmitting emergency information and monitoring equipment Download PDFInfo
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- CN107968903B CN107968903B CN201711046602.0A CN201711046602A CN107968903B CN 107968903 B CN107968903 B CN 107968903B CN 201711046602 A CN201711046602 A CN 201711046602A CN 107968903 B CN107968903 B CN 107968903B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/50—Constructional details
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/06—Management of faults, events, alarms or notifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L43/00—Arrangements for monitoring or testing data switching networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/70—Circuitry for compensating brightness variation in the scene
- H04N23/74—Circuitry for compensating brightness variation in the scene by influencing the scene brightness using illuminating means
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
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- Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Multimedia (AREA)
- Computer Networks & Wireless Communication (AREA)
- Closed-Circuit Television Systems (AREA)
Abstract
the invention discloses a monitoring system capable of transmitting emergency information, when a first monitoring device monitors that the first monitoring device cannot transmit data to the outside through a first network module, the first monitoring device adjusts the angle by controlling a holder to enable the first monitoring device to face an adjacent second monitoring device, an infrared transmitting tube is started to transmit information, the information is modulated in infrared light and transmitted to a camera module of the adjacent second monitoring device through the infrared light, the adjacent second monitoring device demodulates and preliminarily judges, when the information received by the second monitoring device is normal information, the received information is transmitted to a cloud end, the problem that the monitoring data of the first monitoring device cannot be transmitted to the cloud end in time due to network faults or network cable disconnection and the like is effectively avoided, the reliability of the monitoring device is greatly improved, and meanwhile, the monitoring of the system on the faults of the monitoring device is effectively guaranteed, the reliability of the monitoring system is greatly improved.
Description
Technical Field
the invention relates to a monitoring system, in particular to a monitoring system capable of transmitting emergency information.
background
when the network function of the existing monitoring equipment is damaged or abnormal, an emergency information sending mechanism is not provided, and when the monitoring equipment has the condition that the collected video or image signals cannot be sent out, the real-time monitoring cannot be carried out, and serious consequences can be caused by negligence if workers cannot find the signals in time.
Disclosure of Invention
the invention aims to solve the technical problem and provides a monitoring system and a method thereof capable of transmitting emergency information and corresponding monitoring equipment.
a monitoring system capable of transmitting emergency information comprises at least two monitoring devices, wherein each monitoring device comprises a camera module, at least one infrared transmitting tube and a first network module,
The camera module is used for acquiring image information or video information of the surrounding environment;
The first network module is used for transmitting image information or video information acquired by the camera module to a cloud end or terminal equipment;
when the first monitoring equipment monitors that the first monitoring equipment cannot transmit data to the outside through the first network module, the first monitoring equipment controls the holder to adjust the angle, so that the infrared transmitting tube of the first monitoring equipment faces the camera of the adjacent second monitoring equipment, starts the infrared transmitting tube to transmit information, modulates the information in infrared light, transmits the information to the camera module of the adjacent second monitoring equipment through the infrared light, demodulates the information transmitted to the camera module by the adjacent second monitoring equipment, and performs primary judgment,
And when the second monitoring device preliminarily judges that the received information is normal information, transmitting the received information to a second network module of the second monitoring device, and transmitting the information to the cloud end and/or the terminal device through the second network module of the second monitoring device.
Further, the infrared emission tubes are arranged around the camera.
Further, when the second monitoring device preliminarily judges that the received information is normal information, the received information is transmitted to a second network module of the second monitoring device and is transmitted to a cloud end or a terminal device through the second network module of the second monitoring device, the cloud end carries out fault recording and/or stores the received information, and/or sends the information to an APP of the terminal device or sends a short message to the terminal device to inform a user.
Further, when the second monitoring device preliminarily judges that the received information is abnormal information, the second monitoring device controls the holder to adjust the angle, so that the infrared transmitting tube of the second monitoring device faces the camera of the first monitoring device, the information is sent to the first monitoring device through the infrared transmitting tube of the second monitoring device, and the request is sent again.
further, if the second monitoring device cannot receive the normal signal at least twice, the second monitoring device sends a notification of the failure of the first monitoring device to the cloud and/or the terminal device.
Further, the second monitoring device sends a notification cloud of the first monitoring device fault to the cloud to record the fault and/or store the received information, and/or sends the information to the APP of the terminal device or sends a short message to the terminal device to notify the user.
Furthermore, when the ambient illuminance is less than a certain threshold value, the infrared transmitting tube is used for supplementing light to the environment, so that the camera module can image clearly.
furthermore, the mode of the second network module or the first network module for transmitting the image information or the video information to the cloud or the terminal device is a wired ethernet, or a local area network wireless communication module, or an optical fiber module, or a wide area network wireless communication module.
Correspondingly, the invention provides monitoring equipment, which is the monitoring equipment, and the monitoring equipment comprises a camera module, an infrared transmitting tube and a first network module, and the monitoring equipment judges whether the monitoring equipment can transmit data to the outside through the first network module in real time.
Correspondingly, the invention provides a monitoring method of a monitoring system capable of transmitting emergency information, wherein the monitoring system comprises at least two monitoring devices, and the monitoring method comprises the following steps:
Step 1, the first monitoring equipment judges whether the first monitoring equipment can transmit data to the outside through a first network module in real time, and if the first monitoring equipment judges that the first monitoring equipment cannot transmit data to the outside through the first network module in real time, the step 2 is entered;
Step 2, the first monitoring equipment controls the holder to adjust the angle, so that the infrared emission tube of the first monitoring equipment faces to the camera of the adjacent second monitoring equipment;
Step 3, the first monitoring equipment starts an infrared transmitting tube to transmit information, modulates the information in infrared light and transmits the information to a camera module of adjacent second monitoring equipment through the infrared light;
Step 4, the adjacent second monitoring equipment demodulates the information transmitted by the infrared light to the camera module of the adjacent second monitoring equipment, preliminarily judges whether the received information is normal information, if the information received by the adjacent second monitoring equipment is normal information, the step 5 is carried out, otherwise, the step 6 is carried out;
step 5, the second monitoring device transmits the received information to a second network module of the second monitoring device and transmits the information to the cloud or the terminal device through the second network module of the second monitoring device;
step 6, the second monitoring equipment controls the holder to adjust the angle, so that the infrared emission tube of the second monitoring equipment faces to the camera of the first monitoring equipment; and sending information to the first monitoring equipment through an infrared transmitting tube of the second monitoring equipment, requesting to send again, and if the second monitoring equipment cannot receive normal signals at least twice, sending a fault notification of the first monitoring equipment to the cloud end or the terminal equipment by the second monitoring equipment.
compared with the prior art, the monitoring system capable of transmitting emergency information can achieve the following beneficial effects:
1) When the first network module (wireless or wired) transmission data of the first monitoring device is abnormal, the emergency information can be modulated, and the data is transmitted to the cloud end through the infrared adjacent second monitoring device, so that the problem that the monitoring data of the first monitoring device cannot be transmitted to the cloud end in time due to network faults or network cable disconnection and the like is effectively avoided, and the reliability of the monitoring device is greatly improved.
2) When the data transmitted by the first network module (wireless or wired) of the first monitoring device is abnormal, the adjacent second monitoring device cannot normally receive the information transmitted by the first monitoring device through infrared, and can request to send the information again; ) When the second monitoring device cannot receive the normal signal transmitted by the first monitoring device for at least two times, the second monitoring device sends a notification of the fault of the first monitoring device to the cloud, so that the monitoring of the system on the fault of the monitoring device is effectively guaranteed, and the reliability of the monitoring system is greatly improved.
3) the system of the invention can realize the mutual information transmission between the mutual devices and the outgoing of the emergency information by software upgrading without adding an additional hardware structure on the basis of the existing monitoring device.
4) When the ambient illumination is less than a certain threshold value, the monitoring equipment can start the infrared transmitting tube to supplement light to the environment, so that the camera module can image clearly, and the accuracy and the reliability of monitoring information of the monitoring system are improved.
Drawings
the accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments 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 schematic diagram of a monitoring system capable of transmitting emergency information according to the present invention.
1: infrared emitting diode, 2: camera module, 3: first network module, 4: monitoring equipment, 5: infrared emitting diode, 6: camera module, 7: second network module, 8: monitoring equipment, 9: cloud
Detailed Description
In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The invention provides a monitoring system capable of transmitting emergency information, which comprises a monitoring device 4, a monitoring device 8 and a cloud 9, wherein the monitoring device 4 consists of a camera module 2, infrared transmitting tubes 1 arranged around the camera and a first network module 3; the monitoring device 8 is composed of a camera module 6, an infrared transmitting tube 5 arranged around the camera, and a second network module 7.
When the device works at ordinary times, the image acquired by the camera module 2 is transmitted to the cloud or the user equipment through the first network module 3. When the ambient illumination is less than a certain threshold value, the monitoring device 4 starts the infrared transmitting tube 1 to supplement light to the environment, so that the camera module 2 can image clearly.
it should be noted that the infrared emission tubes of the monitoring device are usually two or more, the infrared emission tubes are uniformly arranged around the camera module, and the infrared emission tubes of the monitoring device 4 or the monitoring device 8 can be set with different numbers of infrared emission tubes according to different working environment conditions.
When the first network module 3 of supervisory equipment 4 appears unusually, it can't be through the network outward transmission data, supervisory equipment 4 is through control cloud platform angle of adjustment this moment, make supervisory equipment 4's infrared emission pipe towards the camera 6 of neighbouring supervisory equipment 8, and start camera module 2 other infrared emission pipe 1 and carry out the transfer information, with the information modulation in the middle of the infrared light, give near camera module 6 through the infrared light transmission, camera module 6 demodulates out the information, neighbouring supervisory equipment 8 carries out preliminary judgement to the information:
If the received information is normal, the information is transmitted to the second network module 7, the second network module 7 is transmitted to the cloud end 9 through a network connected with the second network module, or the second network module 7 is directly transmitted to the cloud end 9, finally, the cloud end 9 performs various corresponding processes, and the cloud end 9 performs various corresponding processes including but not limited to fault recording and/or storage of the received information, and/or through sending the information to the APP of the terminal device or sending a short message to the terminal device, so as to inform the user.
If the received information is abnormal, the adjacent monitoring equipment 8 controls the angle of the holder to be adjusted, the infrared transmitting tube 5 of the monitoring equipment 8 faces the camera 2 of the monitoring equipment 4, then the information is sent to the monitoring equipment 4 through the infrared transmitting tube 5, the resending request is requested, if the monitoring equipment 8 cannot receive normal signals for at least 2 times, the monitoring equipment 8 sends a notification of the fault of the monitoring equipment 4 to the cloud end, and the cloud end 9 performs corresponding various processing. The cloud 9 performs various corresponding processes including but not limited to fault recording and/or storing received information, and/or sending information to the APP of the terminal device or sending a short message to the terminal device to notify the user.
It should be noted that, it is a preferred embodiment of the present invention that the monitoring device 8 cannot receive the normal signal at least 2 times, and different times may be set according to actual requirements.
the first network module 3 of the monitoring device 4 and the second network module 7 of the monitoring device 8 may be wired ethernet, a local area network wireless communication module, an optical fiber module, or a wide area network wireless communication module.
Furthermore, the infrared transmitting tube is used for supplementing light to the environment when the ambient illuminance is less than a certain threshold value, so that the camera module can image clearly, and the camera module can acquire image information or video information of the ambient environment more clearly.
The monitoring method of the monitoring system capable of transmitting emergency information in the embodiment specifically comprises the following steps:
step 1, the first monitoring equipment judges whether the first monitoring equipment can transmit data to the outside through a first network module in real time, and if the first monitoring equipment judges that the first monitoring equipment cannot transmit data to the outside through the first network module in real time, the step 2 is entered;
Step 2, the first monitoring equipment controls the holder to adjust the angle, so that the infrared emission tube of the first monitoring equipment faces to the camera of the adjacent second monitoring equipment;
Step 3, the first monitoring equipment starts an infrared transmitting tube to transmit information, modulates the information in infrared light and transmits the information to a camera module of adjacent second monitoring equipment through the infrared light;
step 4, the adjacent second monitoring equipment demodulates the information transmitted by the infrared light to the camera module of the adjacent second monitoring equipment, preliminarily judges whether the received information is normal information, if the information received by the adjacent second monitoring equipment is normal information, the step 5 is carried out, otherwise, the step 6 is carried out;
Step 5, the second monitoring device transmits the received information to a second network module of the second monitoring device and transmits the information to the cloud or the terminal device through the second network module of the second monitoring device;
Step 6, the second monitoring equipment controls the holder to adjust the angle, so that the infrared emission tube of the second monitoring equipment faces to the camera of the first monitoring equipment; and sending information to the first monitoring equipment through an infrared transmitting tube of the second monitoring equipment, requesting to send again, and if the second monitoring equipment cannot receive normal signals at least twice, sending a fault notification of the first monitoring equipment to the cloud end or the terminal equipment by the second monitoring equipment.
it should be noted that the monitoring system capable of transmitting emergency information in this embodiment includes at least two monitoring devices, which are not limited to the monitoring device 4 and the monitoring device 8, the monitoring device adjacent to the monitoring device 4 is the monitoring device 8, and the monitoring device adjacent to (which may be the nearest) the monitoring device 8 may be another monitoring device. In the assumed condition of the present invention, the monitoring device 4 has a network anomaly, and the monitoring device 8 is a neighboring monitoring device. Of course, in the invention, when the transmission of the first network module of the single monitoring device fails, the emergency information can be transmitted to the cloud or the client of the intelligent device between two or more adjacent monitoring devices through infrared transmission.
it should be noted that, when the network of the first monitoring device returns to normal, the first monitoring device is directly connected to the cloud or the terminal device, and the cloud or the terminal device removes the warning after recognizing the first monitoring device.
It should be noted that the invention can remind about the fault, including but not limited to reminding as a ring or voice reminding mode, a blinking reminding mode of an indicator light, a vibration reminding mode of the device, or a combination of two or more modes.
There is, of course, additional use of the teachings of the invention in the foregoing description of preferred embodiments of the invention, but it should be understood that the invention is not limited to the foregoing embodiments, and is not to be construed as excluding other embodiments. Modifications made by those skilled in the art in light of the teachings of this disclosure, which are well known or are within the skill and knowledge of the art, are also to be considered as within the scope of this invention.
Claims (10)
1. A monitoring system capable of transmitting emergency information is characterized in that,
The monitoring system comprises at least two monitoring devices, each monitoring device comprises a camera module, at least one infrared transmitting tube and a first network module,
the camera module is used for acquiring image information or video information of the surrounding environment;
The first network module is used for transmitting image information or video information acquired by the camera module to a cloud end or terminal equipment;
When the first monitoring equipment monitors that the first monitoring equipment cannot transmit data to the outside through the first network module, the first monitoring equipment controls the tripod head to adjust the angle, so that the infrared transmitting tube of the first monitoring equipment faces to the camera of the adjacent second monitoring equipment, starts the infrared transmitting tube to transmit information, modulates the information in infrared light, transmits the information to the camera module of the adjacent second monitoring equipment through the infrared light, demodulates the information transmitted to the camera module by the adjacent second monitoring equipment, and performs primary judgment,
and when the second monitoring device preliminarily judges that the received information is normal information, transmitting the received information to a second network module of the second monitoring device, and transmitting the information to the cloud end and/or the terminal device through the second network module of the second monitoring device.
2. The monitoring system capable of transmitting emergency information according to claim 1,
The infrared emission tubes are arranged around the camera.
3. the monitoring system capable of transmitting emergency information according to claim 1,
When the second monitoring device preliminarily judges that the received information is normal information, the received information is transmitted to a second network module of the second monitoring device and is transmitted to a cloud end or a terminal device through the second network module of the second monitoring device, the cloud end carries out fault recording and/or stores the received information, and/or sends the information to an APP of the terminal device or sends a short message to the terminal device to inform a user.
4. the monitoring system capable of transmitting emergency information according to claim 1,
When the second monitoring equipment preliminarily judges that the received information is abnormal information, the second monitoring equipment controls the holder to adjust the angle, so that the infrared transmitting tube of the second monitoring equipment faces the camera of the first monitoring equipment, the information is sent to the first monitoring equipment through the infrared transmitting tube of the second monitoring equipment, and the request is sent again.
5. The monitoring system capable of transmitting emergency information according to claim 4,
and if the second monitoring equipment cannot receive the normal signal at least twice, the second monitoring equipment sends a notification of the fault of the first monitoring equipment to the cloud and/or the terminal equipment.
6. the monitoring system capable of transmitting emergency information according to claim 4,
the second monitoring device sends a notification of the failure of the first monitoring device to the cloud, and the cloud records the failure and/or stores the received information, and/or sends the information to the APP of the terminal device or sends a short message to the terminal device to notify the user.
7. the monitoring system capable of transmitting emergency information according to claim 1,
the infrared transmitting tube is used for supplementing light to the environment when the ambient illuminance is smaller than a certain threshold value, so that the camera module can image clearly.
8. The monitoring system capable of transmitting emergency information according to claim 1,
The second network module or the first network module transmits the image information or the video information to the cloud end or the terminal equipment in a wired Ethernet mode, a local area network wireless communication module, an optical fiber module or a wide area network wireless communication module.
9. a monitoring device, characterized in that,
The monitoring device is as claimed in any one of claims 1 to 7, and includes a camera module, an infrared emission tube and a first network module, and the monitoring device determines in real time whether it can transmit data to the outside through the first network module.
10. a monitoring method of a monitoring system capable of transmitting emergency information is characterized in that,
The monitoring system as claimed in any claim from 1 to 8 is adopted, the monitoring system comprises at least two monitoring devices, and the monitoring method comprises the following steps:
step 1, the first monitoring equipment judges whether the first monitoring equipment can transmit data to the outside through a first network module in real time, and if the first monitoring equipment judges that the first monitoring equipment cannot transmit data to the outside through the first network module in real time, the step 2 is entered;
step 2, the first monitoring equipment controls the holder to adjust the angle, so that the infrared emission tube of the first monitoring equipment faces to the camera of the adjacent second monitoring equipment;
Step 3, the first monitoring equipment starts an infrared transmitting tube to transmit information, modulates the information in infrared light and transmits the information to a camera module of adjacent second monitoring equipment through the infrared light;
step 4, the adjacent second monitoring equipment demodulates the information transmitted by the infrared light to the camera module of the adjacent second monitoring equipment, preliminarily judges whether the received information is normal information, if the information received by the adjacent second monitoring equipment is normal information, the step 5 is carried out, otherwise, the step 6 is carried out;
step 5, the second monitoring device transmits the received information to a second network module of the second monitoring device and transmits the information to the cloud or the terminal device through the second network module of the second monitoring device;
Step 6, the second monitoring equipment controls the holder to adjust the angle, so that the infrared emission tube of the second monitoring equipment faces to the camera of the first monitoring equipment; and sending information to the first monitoring equipment through an infrared transmitting tube of the second monitoring equipment, requesting to send again, and if the second monitoring equipment cannot receive normal signals at least twice, sending a fault notification of the first monitoring equipment to the cloud end or the terminal equipment by the second monitoring equipment.
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CN103686087A (en) * | 2013-12-16 | 2014-03-26 | 中国寰球工程公司 | Signal collecting and monitoring system based on wireless node network |
CN104902235A (en) * | 2015-05-27 | 2015-09-09 | 国网山东临朐县供电公司 | Wireless network communication real-time monitoring system and monitoring method |
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