CN114866690A - Infrared induction camera system and method for instantly sending streaming media video - Google Patents
Infrared induction camera system and method for instantly sending streaming media video Download PDFInfo
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- 230000006698 induction Effects 0.000 title claims abstract description 26
- 238000000034 method Methods 0.000 title claims abstract description 17
- 238000004891 communication Methods 0.000 claims abstract description 4
- 241001465754 Metazoa Species 0.000 claims description 18
- 230000007958 sleep Effects 0.000 claims description 11
- 230000005059 dormancy Effects 0.000 claims description 7
- 230000002618 waking effect Effects 0.000 claims description 7
- 230000006870 function Effects 0.000 claims description 5
- 230000008569 process Effects 0.000 claims description 4
- 230000006855 networking Effects 0.000 claims description 3
- 230000005540 biological transmission Effects 0.000 abstract description 6
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- 238000003384 imaging method Methods 0.000 description 2
- 230000036626 alertness Effects 0.000 description 1
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- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
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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
- H04N23/60—Control of cameras or camera modules
- H04N23/64—Computer-aided capture of images, e.g. transfer from script file into camera, check of taken image quality, advice or proposal for image composition or decision on when to take image
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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
- H04N23/60—Control of cameras or camera modules
- H04N23/65—Control of camera operation in relation to power supply
- H04N23/651—Control of camera operation in relation to power supply for reducing power consumption by affecting camera operations, e.g. sleep mode, hibernation mode or power off of selective parts of the camera
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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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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The invention provides an infrared induction camera system and method for sending streaming media videos in real time, which are suitable for outdoor or in a garden and can automatically upload shot video streams to remote equipment in real time and send prompt messages to equipment holders. The infrared induction camera shooting system comprises a camera module and an application program which is installed on the handheld equipment and matched with the camera module, wherein a 3G/4G/5G wireless module on the camera module is in communication connection with the handheld equipment through the Internet, and when the application program receives information sent by the camera module, the application program can display prompt information or display streaming media videos on the handheld equipment; the method steps of the system comprise: the camera module is started rapidly after infrared sensing is conducted on people, and the camera module is used for rapidly shooting and simultaneously carrying out wireless remote transmission video streaming to handheld equipment of a user so as to remind the user to make judgment or take action rapidly after observing the situation. The invention can be applied to the technical field of intelligent security equipment.
Description
Technical Field
The invention relates to the technical field of intelligent security camera equipment, in particular to an infrared induction camera system and method for instantly sending streaming media videos.
Background
With the development of science and technology, the security camera equipment technology is more mature. From indoor to outdoor, from local storage to wireless remote transmission, various security protection equipment emerges endlessly.
In the prior art, a security camera usually needs to take a picture or a video and store the picture or the video in a preset SD card or other storage media, and then transmits an image file shot in the storage media to a remote device for storage and backup. However, since the intruder has a high degree of tracking-prevention alertness, measures are rapidly taken to destroy the image pickup apparatus if it is found that it is photographed. In order to solve the problem that the image data can be stored after the device is damaged, a general imaging device adopts a method of continuously imaging for a long time and transmitting the image to a different place for storage. The long-time operation of the image pickup apparatus causes problems of high power consumption, heat generation, high storage demand, high traffic, and huge workload required for searching for image evidence afterwards. Therefore, a plurality of camera devices with modes of human body induction, shooting after motion detection and the like appear, and the problems of high storage requirement, high flow and huge workload required for searching image evidence afterwards are basically avoided. However, the camera still needs to be in a working state for a long time, the problems of power consumption and heating still exist, the real-time video is transmitted back only after the user sends an instruction at present, and the camera does not actively send the real-time video stream to a product on the handheld device after detecting a person, so that the camera still is very inconvenient for outdoor working camera devices.
Therefore, enterprises design corresponding equipment for the situation, for example, the chinese utility model with publication number CN 210781068U discloses an infrared sensing camera device for real-time video transmission through a mobile network. The scheme describes the principle of sending real-time video through a mobile network after infrared induction shooting. When an animal or a human passes through the camera device, the camera device starts the shooting function after being sensed by the pyroelectric infrared sensor, and the video is sent to a cloud server or a designated device of the internet through a mobile network such as a 4G/5G network. However, the scheme does not specifically describe how to realize a scheme for quickly uploading videos or photos to a remote device so as to avoid the camera device from being damaged by people quickly.
Therefore, it is highly desirable to design a camera device which can be suitable for security protection and can be awakened in a low power consumption sleep state by automatic infrared induction, quickly start shooting video streams, automatically upload the video streams to a remote device, send prompt information to a device holder, and quickly display real-time video streams. Meanwhile, all the problems that the power consumption is high, the heat is generated, the storage requirement is high, the flow is high, huge workload is needed for searching image evidence afterwards, the image evidence is easy to damage as the image arrives at the remote equipment slowly, or a user of the camera equipment cannot observe illegal behaviors occurring in time are solved.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provides an infrared induction camera shooting system and method which are suitable for security protection and can automatically wake up through infrared induction in a low-power-consumption dormant state, quickly start shooting video streams to be automatically uploaded to remote equipment, send prompt information to an equipment holder, quickly display real-time video streams and store streaming media videos. According to the invention, within 1-3 seconds after infrared sensing is performed on a person, the remote handheld equipment can synchronously observe the occurring field real-time video stream, and then a user of the camera equipment can immediately observe the field situation on the handheld equipment, so that targeted measures can be rapidly taken.
The invention relates to an infrared induction camera system for instantly sending streaming media videos, which adopts the technical scheme that: infrared induction camera system sets up in indoor or outdoor space, it including take infrared induction function's camera module and install on handheld device and with camera module assorted application, 3G 4G 5G wireless module in the camera module passes through the internet and installs application on the handheld device carries out communication connection, works as handheld device receives and comes from when the video stream that the camera module sent, application is in handheld device automatic display prompt information or show the video stream video or save the video and arrive on the handheld device, camera module is including taking infrared induction function's camera module and installing on handheld device and with camera module assorted application
The pyroelectric infrared sensor assembly is used for receiving human body induction signals;
the CMOS image sensor unit is used for acquiring shot images;
the control circuit comprises a main control chip and a memory, wherein after the main control chip is powered on and initialized, the main control chip informs the single chip microcomputer to cut off the power supply of other parts of the main control chip, only the power supply of the memory is reserved, so that the memory can store the previously loaded running program and working data information, enters a standby dormant state of microampere current, immediately wakes up from the dormant state after the power supply unit restores the power supply of other parts, reads the running program and the working data information stored in the memory before dormancy, controls and processes the shot image data collected by the CMOS image sensor unit, and realizes ultra-fast starting and automatic shooting; the storage is used for storing the current running program and working data information of the camera before the camera enters the dormant state, the main control chip shoots and stores videos in the video storage arranged in the camera module, meanwhile, the stream media are sent to the Internet through the awakened 3G/4G/5G wireless module, the shooting time length is set according to needs, after the set shooting time is reached, the main control chip informs the single chip microcomputer to disconnect the power supplies of other parts of the main control chip, only the power supply of the storage is reserved, and the camera module automatically enters the dormant state;
the single chip microcomputer is used for receiving the animal or human body induction signals sent by the pyroelectric infrared sensor assembly, controlling a power supply unit to be connected with power supplies of other devices except the memory, and awakening the main control chip to automatically shoot and enable the camera module to automatically enter a dormant state after shooting is finished; when the single chip microcomputer receives the animal or human body sensing signal of the pyroelectric infrared sensor assembly again, the camera module is controlled to enter a cycle working flow of waking up and shooting again, and meanwhile, a streaming media is transmitted to sleep again; and
the power supply unit supplies power to the whole camera module, the pyroelectric infrared sensor assembly and the power supply unit are connected with the single chip microcomputer, and the single chip microcomputer, the CMOS image sensor unit, the memory, the video memory and the 3G/4G/5G wireless module are in signal connection with the main control chip.
The time from when the pyroelectric infrared sensor assembly senses a person or an animal to when the application program starts displaying video streaming video or starts storing video on the handheld device is not more than 3 seconds.
The 3G/4G/5G wireless module and the main control chip are connected through a USB interface.
The handheld device is connected with the internet, after the application program receives the streaming media data sent by the camera module, the generated prompt information is in a ring prompt form or a text display form, and the received streaming media can be displayed on the screen of the handheld device in real time and stored in the handheld device.
The memory is a DDR register, and the video memory is an SD card or a TF card.
The handheld device is a mobile phone, a tablet personal computer or a portable computer, and the application program is an App or an application program which is arranged in the mobile phone, the tablet personal computer or the portable computer and matched with the camera module.
The method for instantly sending the streaming media video by using the infrared induction camera system for instantly sending the streaming media video comprises the following steps:
a. after the main control chip is powered on, started and initialized, the 3G/4G/5G wireless module is controlled to be connected with a base station and enter a low-power-consumption dormant state for keeping a networking state, and the current program and working data information of a camera are stored in the memory;
b. then the main control chip informs the single chip microcomputer to send a power-off instruction to the power supply unit, the power supply unit cuts off the power supply of other parts except for reserving the power supply for the memory, the single chip microcomputer, the pyroelectric infrared sensor assembly and the 3G/4G/5G wireless module, and the main control chip enters a low-power consumption standby dormant state;
c. when the pyroelectric infrared sensor assembly senses that a person or an animal acts within 0.1s, a trigger signal is sent to the single chip microcomputer, the single chip microcomputer sends a power-on instruction to the power supply unit, the power supply unit restores power supply to other components, the main control chip is rapidly awakened from a dormant state, a program and working data information which are stored in the memory before dormancy are immediately read, video shooting work is rapidly started within 0.4s, and the person or the animal which enters a shooting range of the camera is shot;
d. simultaneously awakening the 3G/4G/5G wireless module to start transmitting video streams to the Internet in real time and storing video files in the memory, wherein the shooting time length is set according to the needs of a user;
e. the application program on the handheld equipment receives a video stream transmitted from the Internet, displays information on a screen of the handheld equipment, reminds an equipment holder of watching the video stream transmitted by the camera module in time, or directly plays a real-time video stream on the screen, or is set to automatically store the video stream into a memory in the handheld equipment;
f. after the set shooting time is reached, the main control chip informs the single chip microcomputer to cut off the power supplies of other parts of the main control chip, only the power supply of the memory is reserved, and the camera module automatically enters a dormant state;
g. when the single chip microcomputer receives the sensing signal of the pyroelectric infrared sensor assembly again, the camera module is controlled to enter a cycle working flow of waking up and shooting, and meanwhile, the streaming media is transmitted and then sleeping is achieved.
The video stream may be transmitted to 1 or to a plurality of said handheld devices simultaneously.
When a Wi-Fi router is arranged near the camera module, the 3G/4G/5G wireless module can be replaced by a Wi-Fi module.
The invention has the beneficial effects that: in the invention, when the pyroelectric infrared sensor assembly senses that a person or an animal acts within 0.1s, a trigger signal is sent to the single chip microcomputer, the single chip microcomputer sends a power-on instruction to the power supply unit, the power supply unit restores power supply to other components, the main control chip is rapidly awakened from a dormant state, a program and working data information which are stored in the memory before dormancy are immediately read, shooting work is rapidly started within 0.4s, the person or the animal which enters a shooting range of a camera is shot, and due to the fact that the running program does not need to be reloaded and reinitialized, starting time is greatly saved, and ultra-rapid starting and automatic shooting are realized; meanwhile, the main control chip shoots and stores the video in a video memory arranged in the camera module, simultaneously sends the streaming media to the Internet by waking up the 3G/4G/5G wireless module, an application program installed on the handheld device receives the streaming media data sent by the camera module, and then generates prompt information in a ring prompt form or a text character display form on a screen, and can also display the received streaming media on the screen of the handheld device in real time and store the streaming media in the memory of the handheld device, so that video stream evidence shot and stored in different places cannot be damaged, and when the application program of the handheld device receives the video stream notification sent by the far-end camera module, the application program of the handheld device sends a ring notification or a screen notification in a short message form to remind a device holder of checking the current real-time video stream, the video image which is generated at the far end of the camera device at present can be seen, and then the user can quickly make judgment or take action after observing the situation; after testing, the system only has 1 to 3 seconds from the time of sensing the human body to the time of the video stream image appearing on the APP on the equipment, so that the video stream can be transmitted before being found and damaged by people; therefore, the invention can automatically upload the shot video stream to the remote equipment and send prompt information to the equipment holder in real time, is particularly suitable for indoor or outdoor security protection and ensures safety.
Drawings
Fig. 1 is a block diagram of a simple structure of an infrared sensing camera system according to the present invention;
fig. 2 is a block diagram of a simple structure of the camera module.
Detailed Description
The embodiments of the present invention are specifically as follows.
As shown in fig. 1 and 2, the infrared sensing camera system of the present invention is installed in an indoor or outdoor space. The infrared induction camera system comprises a camera module 1 with an infrared induction function and an application program 3 which is installed on a handheld device 2 and matched with the camera module 1, wherein a 3G/4G/5G wireless module 4 in the camera module 1 is in communication connection with the application program 3 installed on the handheld device 2 through the Internet, when the handheld device 2 receives a video stream sent by the camera module 1, the application program 3 automatically displays prompt information or displays the video stream or stores the video stream onto the handheld device 2, and the camera module 1 comprises
The pyroelectric infrared sensor assembly 11 is used for receiving human body induction signals;
a CMOS image sensor unit 12 for collecting a photographed image;
the control circuit 13 comprises a main control chip 131 and a memory 132, after the main control chip 131 is powered on and initialized, the single chip microcomputer 14 is informed to disconnect the power supply of other parts of the main control chip 131, only the power supply of the memory 132 is reserved, so that the memory 132 can store the previously loaded running program and working data information, enter a standby dormant state of microampere-level current, immediately wake up from the dormant state after the power supply unit 15 restores the power supply of other parts, read the running program and the working data information stored in the memory 132 before dormancy, control and process the shot image data collected by the CMOS image sensor unit 12, and realize ultra-fast starting and automatic shooting; the memory 132 is used for storing the current running program and working data information of the camera before the camera enters the sleep state, the main control chip 131 captures and stores videos in the video memory 16 arranged in the camera module 1, meanwhile, the stream media is sent to the internet through the awakened 3G/4G/5G wireless module 4, the length of the capturing time is set according to the requirement, after the set capturing time is reached, the main control chip 131 informs the single chip microcomputer 14 to disconnect the power supply of other parts of the main control chip 131, only the power supply of the memory 132 is reserved, and the camera module 1 automatically enters the sleep state;
the single chip microcomputer 14 is configured to receive an animal or human body sensing signal sent by the pyroelectric infrared sensor assembly 11, control the power supply unit 15 to turn on the power supplies of other devices except the memory 132, and wake up the main control chip 131 to perform automatic shooting and enable the camera module 1 to automatically enter a sleep state after the shooting is completed; when the single chip microcomputer 14 receives the animal or human body sensing signal of the pyroelectric infrared sensor assembly 11 again, the camera module 1 is controlled to enter a cycle working flow of waking up and shooting again, and meanwhile, a streaming media is transmitted to a sleep state; and
the camera module 1 supplies power to the power supply unit 15, the pyroelectric infrared sensor assembly 11 and the power supply unit 15 are connected with the single chip microcomputer 14, and the single chip microcomputer 14, the CMOS image sensor unit 12, the memory 132, the video memory 16 and the 3G/4G/5G wireless module 4 are in signal connection with the main control chip 131.
Specifically, the time from when the pyroelectric infrared sensor assembly 11 senses a person or an animal to when the application program 3 starts displaying video streaming video or starts storing video on the handheld device 2 is not more than 3 seconds. The 3G/4G/5G wireless module 4 and the main control chip 131 are connected through a USB interface. The handheld device 2 is connected with the internet, and after the application program 3 receives the streaming media data sent by the camera module 1, the generated prompt information is in a ring prompt form or a text display form, and the received streaming media can be displayed on the screen of the handheld device 2 in real time and stored in the handheld device 2. The memory 132 is a DDR register, and the video memory 16 is an SD card or a TF card. The handheld device 2 is a mobile phone, a tablet personal computer or a portable computer, and the application program 3 is an App or an application program which is arranged in the mobile phone, the tablet personal computer or the portable computer and is matched with the camera module 1. Specifically, the handheld device 2 is a mobile phone, and the application program 3 is an App which is arranged in the mobile phone and is matched with the camera module 1.
The method for instantly sending the streaming media video by using the infrared induction camera system for instantly sending the streaming media video comprises the following steps:
a. when the main control chip 131 is powered on, started and initialized, the 3G/4G/5G wireless module 4 is controlled to connect to a base station and enter a low-power-consumption sleep state in which a networking state is maintained, and a current program and working data information of a camera are stored in the memory 132;
b. then the main control chip 131 informs the single chip microcomputer 14 to send a power-off instruction to the power supply unit 15, the power supply unit 15 cuts off power supply of other components except for reserving power supply for the memory 132, the single chip microcomputer 14, the pyroelectric infrared sensor assembly 11 and the 3G/4G/5G wireless module 4, and the main control chip 131 enters a low-power consumption standby dormant state;
c. when the pyroelectric infrared sensor assembly 11 senses that a person or an animal acts within 0.1s, a trigger signal is sent to the single chip microcomputer 14, the single chip microcomputer 14 sends a power-on instruction to the power supply unit 15, the power supply unit 15 restores power supply to other components, the main control chip 131 is rapidly awakened from a dormant state, a program and working data information stored in the memory 132 before dormancy are immediately read, video shooting work is rapidly started within 0.4s, and the person or the animal entering a shooting range of the camera is shot;
d. simultaneously awakening the 3G/4G/5G wireless module 4 to start transmitting the video stream to the Internet in real time and storing the video file in the memory 16, wherein the shooting time length is set according to the needs of a user;
e. an application program 3 on the handheld device 2 receives a video stream transmitted from the internet, the application program 3 displays information on a screen of the handheld device 2, and reminds a device holder of watching the video stream transmitted by the camera module 1 in time, or directly playing a real-time video stream on the screen, or automatically storing the video stream into a memory inside the handheld device 2;
f. after the set shooting time is reached, the main control chip 131 informs the single chip microcomputer 14 to disconnect the power supplies of other parts of the main control chip 131, only the power supply of the memory 132 is reserved, and the camera module 1 automatically enters a sleep state;
g. when the single chip microcomputer 14 receives the sensing signal of the pyroelectric infrared sensor assembly 11 again, the camera module 1 is controlled to enter a cycle working process of waking up and shooting again, and meanwhile, a streaming media is transmitted to sleep again.
In the present invention, the video stream may be transmitted to 1 or to a plurality of said handheld devices 2 simultaneously. When a Wi-Fi router is arranged near the camera module 1, the 3G/4G/5G wireless module 4 can be replaced by a Wi-Fi module.
In addition, the video stream is transmitted to the specified handheld device 2 by using the currently known transmission technology, such as the public mobile wireless network of CDMA, GPRS, 3G/4G/5G, etc. The camera module 1 includes a camera scheme not limited to the above-described steps, and may also be implemented by using a general camera system that is not in a state of saving the current program and working data by a DDR and has a relatively slow start speed.
In addition, the camera module can shoot a video stream with a certain time length according to the preset setting of a user, or automatically prolong the shooting time when people are found to move in front of the lens. When no person is detected, the main control chip sends information to the single chip microcomputer, the single chip microcomputer controls the CMOS image sensor unit to stop working, then shooting and sleeping are automatically stopped, and the ultra-low power consumption warning state is achieved. Therefore, wireless mobile transmission flow can be greatly reduced, and the use cost of a user can be saved. Each captured video stream may be optionally automatically saved on the handheld device. Meanwhile, because people are in the condition of starting shooting every time, huge convenience can be brought to subsequent checking and management.
In addition, the pyroelectric infrared sensor has very high response speed which is generally less than 0.1 second, and the single chip microcomputer powers on the camera part after receiving the induction pulse, so that rapid image shooting and transmission are realized. A fast start-up is achieved. The effect achieved at present is that the video stream images only take about 1 to 3 seconds from the time of sensing the human body to the time of the mobile phone APP appearing. This allows the video stream to be transmitted before being discovered and destroyed.
Finally, it should be emphasized that the above-described preferred embodiments of the present invention are merely examples of implementations, rather than limitations, and that many variations and modifications of the invention are possible to those skilled in the art, without departing from the spirit and scope of the invention.
Claims (9)
1. An infrared induction camera system for instantly sending streaming media videos is characterized in that: the infrared induction camera system comprises a camera module (1) with an infrared induction function and an application program (3) which is installed on a handheld device (2) and matched with the camera module (1), wherein a 3G/4G/5G wireless module (4) in the camera module (1) is in communication connection with the application program (3) installed on the handheld device (2) through the Internet, when the handheld device (2) receives a video stream sent by the camera module (1), the application program (3) is used for automatically displaying prompt information or displaying a video stream or storing the video stream on the handheld device (2), and the camera module (1) comprises a camera module (1)
The pyroelectric infrared sensor assembly (11) is used for receiving human body induction signals;
a CMOS image sensor unit (12) for acquiring a photographed image;
the control circuit (13) comprises a main control chip (131) and a memory (132), after the main control chip (131) is powered on and initialized, the single chip microcomputer (14) is informed to disconnect the power supply of other parts of the main control chip (131), and only the power supply of the memory (132) is reserved, so that the memory (132) can store the previously loaded running program and working data information, enter a standby dormant state of microampere-level current, immediately wake up from the dormant state after the power supply unit (15) recovers the power supply of other parts, read the running program and the working data information stored in the memory (132) before dormancy, control and process the shot image data collected by the CMOS image sensor unit (12), and realize ultra-fast starting and automatic shooting; the storage (132) is used for storing the current running program and working data information of the camera before the camera enters the dormant state, the main control chip (131) shoots and stores videos in the video storage (16) arranged in the camera module (1), meanwhile, the stream media are sent to the Internet through the awakened 3G/4G/5G wireless module (4), the shooting time length is set according to needs, after the set shooting time is reached, the main control chip (131) informs the single chip microcomputer (14) to disconnect the power supply of other parts of the main control chip (131), only the power supply of the storage (132) is reserved, and the camera module (1) automatically enters the dormant state;
the single chip microcomputer (14) is used for receiving the animal or human body sensing signals sent by the pyroelectric infrared sensor assembly (11), controlling a power supply unit (15) to be connected with power supplies of other devices except the memory (132), awakening the main control chip (131) to automatically shoot, and enabling the camera module (1) to automatically enter a dormant state after shooting is finished; when the single chip microcomputer (14) receives the animal or human body sensing signal of the pyroelectric infrared sensor assembly (11) again, the camera module (1) is controlled to enter a cycle working flow of waking up and shooting, and meanwhile, a streaming media is transmitted to sleep again; and
the camera module comprises a power supply unit (15), the power supply unit (15) is used for supplying power to the whole camera module (1), the pyroelectric infrared sensor assembly (11) and the power supply unit (15) are connected with a single chip microcomputer (14), the CMOS image sensor unit (12), a memory (132), a video memory (16) and a 3G/4G/5G wireless module (4) are in signal connection with a main control chip (131).
2. The infrared sensing camera system for instantly sending the streaming media video according to claim 1, characterized in that: the time from the sensing of the human or animal by the pyroelectric infrared sensor assembly (11) to the start of the display of the video streaming video or the start of the storage of the video by the application (3) at the handheld device (2) does not exceed 3 seconds.
3. The infrared sensing camera system for instantly sending the streaming media video according to claim 1, characterized in that: the 3G/4G/5G wireless module (4) and the main control chip (131) are connected through a USB interface.
4. The infrared sensing camera system for instantly sending the streaming media video according to claim 1, characterized in that: the handheld device (2) is connected with the internet, after the application program (3) receives the streaming media data sent by the camera module (1), the generated prompt information is in a ring prompt mode or a text display mode on a screen, and the received streaming media can be displayed on the screen of the handheld device (2) in real time and stored in the handheld device (2).
5. The infrared sensing camera system for instantly sending the streaming media video according to claim 1, characterized in that: the memory (132) is a DDR register, and the video memory (16) is an SD card or a TF card.
6. The infrared sensing camera system for instantly sending the streaming media video according to claim 1, characterized in that: the handheld device (2) is a mobile phone, a tablet personal computer or a portable computer, and the application program (3) is an App or an application program which is arranged in the mobile phone, the tablet personal computer or the portable computer and matched with the camera module (1).
7. A method for instantly sending streaming video by using the infrared sensing camera system for instantly sending streaming video according to claim 1, wherein the method comprises the following steps:
a. when the main control chip (131) is powered on and started and initialized, the 3G/4G/5G wireless module (4) is controlled to be connected with a base station and enter a low-power-consumption dormant state for keeping a networking state, and the current program and working data information of a camera are stored in the memory (132);
b. then the main control chip (131) informs the single chip microcomputer (14) to send a power-off instruction to the power supply unit (15), the power supply unit (15) cuts off the power supply of other parts except for reserving the power supply for the memory (132), the single chip microcomputer (14), the pyroelectric infrared sensor assembly (11) and the 3G/4G/5G wireless module (4), and the main control chip (131) enters a low-power-consumption standby dormant state;
c. when the pyroelectric infrared sensor assembly (11) senses that a person or an animal acts within 0.1s, a trigger signal is sent to the single chip microcomputer (14), the single chip microcomputer (14) sends a power-on instruction to the power supply unit (15), the power supply unit (15) restores power supply to other components, the main control chip (131) is rapidly awakened from a dormant state, a program and working data information which are stored in the memory (132) before dormancy are immediately read, video shooting work is rapidly started within 0.4s, and the person or the animal which enters a camera shooting range is shot;
d. simultaneously awakening the 3G/4G/5G wireless module (4) to start transmitting the video stream to the Internet in real time and storing the video file in the memory (16), wherein the shooting time length is set according to the user requirement;
e. an application program (3) on the handheld device (2) receives a video stream transmitted from the Internet, the application program (3) displays information on a screen of the handheld device (2) to remind a device holder of watching the video stream transmitted by the camera module (1) in time, or directly playing a real-time video stream on the screen, or automatically storing the video stream into a memory inside the handheld device (2);
f. after the set shooting time is reached, the main control chip (131) informs the single chip microcomputer (14) to cut off the power supplies of other parts of the main control chip (131), only the power supply of the memory (132) is reserved, and the camera module (1) automatically enters a dormant state;
g. when the single chip microcomputer (14) receives the sensing signal of the pyroelectric infrared sensor assembly (11) again, the camera module (1) is controlled to enter a cycle working flow of waking up and shooting again, and meanwhile, the streaming media is transmitted to the sleep again.
8. The method of claim 7, wherein: the video stream can be transmitted to 1 or simultaneously to a plurality of the handheld devices (2).
9. The method of claim 7, wherein: when a Wi-Fi router is arranged near the camera module (1), the 3G/4G/5G wireless module (4) can be replaced by a Wi-Fi module.
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