CN104093007B

CN104093007B - Mobile communication equipment, video monitoring system and video frequency monitoring method

Info

Publication number: CN104093007B
Application number: CN201410377373.0A
Authority: CN
Inventors: 沈海寅
Original assignee: Beijing Qihoo Technology Co Ltd; Qizhi Software Beijing Co Ltd
Current assignee: Beijing Qihoo Technology Co Ltd
Priority date: 2014-08-01
Filing date: 2014-08-01
Publication date: 2018-05-29
Anticipated expiration: 2034-08-01
Also published as: CN104093007A

Abstract

The invention discloses a kind of mobile communication equipment, video monitoring system and video frequency monitoring methods.This method includes：Mobile communication equipment searches for wireless network, and the wireless network that search obtains is matched with pre-set wireless network list；If matched, in the case where the mobile communication equipment is in the wireless network to match, the instruction that is stopped for closing work functions is exported to photographic device；Photographic device is stopped in reception after instruction, closes work functions.With the application of the invention, it can be revealed to avoid user privacy information and realize security monitoring.

Description

Mobile communication device, video monitoring system and video monitoring method

Technical Field

The invention relates to a video monitoring technology, in particular to mobile communication equipment, a video monitoring system and a video monitoring method.

Background

With the increase of the income of families, the quantity and the value of valuables stored in the families are continuously improved, and with the busy work of people and the increased opportunity of going out and traveling due to the increase of the income, a living room is always in the current situation of no residence or no supervision for a certain time, so that the home safety has more and more important status in the modern society.

In addition, in the society with high-speed development of the current economic level, the speed of the urbanization process is also increased, so that residents living in the same cell, the same building and even the same floor cannot know each other, thereby bringing hidden dangers to home safety, and ensuring the safety of home property becomes a problem which is more and more valued by people.

In order to guarantee the safety of household property, in the prior art, a video monitoring system is generally installed in a home to shoot a scene in the home in real time, and meanwhile, in order to guarantee that a lawbreaker deletes monitored shooting information by destroying the video monitoring system after entering the home, and after shooting, transmits the shooting to a remote network server for storage.

However, in the video monitoring system for ensuring the safety of the household property through video monitoring, as the video monitoring system is in an all-weather working state, namely when a user is in a home, the video can be transmitted to a remote network server, the leakage of the privacy information of the user is caused, and the safety of the privacy information of the user is reduced. Although the user can turn off the video monitoring system in a manual mode after returning home and turn on the video monitoring system when leaving home, the video monitoring system can still shoot the video of the user and upload the video in the process from the time the user starts entering the monitoring range of the video monitoring system to the time the user leaves the monitoring range of the video monitoring system, and the possibility of leakage of privacy information of the user is caused.

Disclosure of Invention

In view of the above, the present invention has been made to provide a mobile communication device, a video surveillance system and a video surveillance method that overcome or at least partially solve the above-mentioned problems.

According to an aspect of the present invention, there is provided a mobile communication device, the apparatus comprising: a search module and a camera control module, wherein,

the searching module is used for searching the wireless network, matching the searched wireless network with a preset wireless network list, and informing the camera shooting control module if the searched wireless network is matched with the preset wireless network list;

and the camera shooting control module is used for outputting a work stopping instruction for closing the work function to the camera shooting device under the condition that the mobile communication equipment is in the matched wireless network.

Preferably, the searching module is further configured to perform no processing after the searched wireless network is not matched with the preset wireless network list.

Preferably, the user accesses the network server through a user name and an access password, and sets the wireless network list in the network server.

Preferably, the camera control module is further configured to output a stop instruction for turning off the operation function to the camera device when the distance between the matched wireless network and the mobile communication device gradually decreases.

Preferably, the camera control module is further configured to output a start operation instruction for starting the operation function to the camera device when the distance between the matched wireless network and the mobile communication device gradually increases.

Preferably, the wireless network includes a wireless fidelity network and a wireless bluetooth network.

Preferably, the matching the searched wireless network with a preset wireless network list includes:

the searching module searches available wireless fidelity networks, acquires the network identification of each searched wireless fidelity network, and confirms that the wireless fidelity network is matched with the wireless network list if the network identification is the same as any network identification in the preset wireless network list.

Preferably, the network identifier is obtained from a functional attribute field of a wireless fidelity source attribute of the wireless fidelity network.

Preferably, the searching module is further configured to determine whether the signal strength of the searched wireless network exceeds a preset wireless signal strength threshold after searching for the wireless network, if so, execute the process of matching the searched wireless network with a preset wireless network list, otherwise, do not perform the processing.

Preferably, the camera control module is further configured to access the matched wireless network before outputting a stop instruction for turning off the work function to the camera device.

Preferably, the accessing the matched wireless network comprises:

the mobile communication equipment sends an access request containing a user name and an access password to the router, the router authenticates the mobile communication equipment according to the received user name and the access password, and if the authentication is passed, the mobile communication equipment is accessed.

Preferably, the searching module further stores a wireless network identifier of a wireless network corresponding to a preset location;

the searching module is further used for executing the wireless network searching after the preset place is determined to be entered.

According to another aspect of the present invention there is provided a video surveillance system, the system comprising: a mobile communication device, a camera, and a router, wherein,

the mobile communication equipment, the camera device and the router form a wireless network;

the camera device is used for closing the working function according to the working stopping instruction;

a router for broadcasting home LAN signals;

and the mobile communication equipment is used for searching a wireless network, matching the searched wireless network with a preset wireless network list, and if the wireless network is matched with the preset wireless network list, outputting a work stopping instruction for closing the work function to the camera device under the condition that the mobile communication equipment is in the matched wireless network.

Preferably, the closing the work function according to the stop work instruction includes:

the mobile communication equipment transmits a work stopping instruction to the camera device through the mobile communication network, and the camera device receives the work stopping instruction and closes the work function.

the mobile communication equipment sends a work stopping instruction through the router, the router forwards the work stopping instruction to the camera device, and the camera device receives the work stopping instruction and closes a work function.

the mobile communication equipment sends a stop work instruction through the router, and the router closes the network connection of the camera device, so that the camera device stops working.

Preferably, the mobile communication device comprises: a search module and a camera control module, wherein,

the camera shooting control module is used for outputting a work stopping instruction for closing the work function to the camera shooting device under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually reduced; and if the distance between the matched wireless network and the mobile communication equipment is gradually increased, outputting a starting work instruction for starting the work function to the camera device.

Preferably, the mobile communication device comprises: personal digital assistants, mobile phones, mobile intelligent terminals and portable computers.

Preferably, the image pickup apparatus includes: the camera, infrared integration camera, infrared dome camera, ordinary dome camera, explosion-proof dome camera, at the uniform velocity ball camera, well speed ball camera, high speed ball camera, network type camera and gun type camera.

Preferably, the router is a wireless fidelity access point.

Preferably, the camera device is further configured to output non-camera status information to the router after the work function is turned off, and the router stores the received non-camera status information; after the work function is started, the camera shooting state information is output to the router, and the router stores the received camera shooting state information.

Preferably, further comprising:

and the network server receives and stores the camera shooting data transmitted by the camera shooting device through the router.

Preferably, further comprising:

and the data compressor is used for receiving the camera shooting data transmitted by the camera shooting device, compressing the camera shooting data by using a preset data compression algorithm and outputting the camera shooting data to the router.

Preferably, further comprising:

and the encryptor receives the camera shooting data transmitted by the camera shooting device, encrypts the camera shooting data by using a preset encryption algorithm, and outputs the camera shooting data to the router.

Preferably, further comprising:

the night indicator lamp is used for switching on a power supply to start illumination after receiving a starting instruction output by the camera device, receiving a switching-off instruction output by the camera device, switching off the power supply to stop illumination, determining that the shooting definition can not meet the preset definition requirement after the camera device carries out shooting, outputting the starting instruction to the night indicator lamp, determining that the shooting definition can meet the preset definition requirement, and outputting the switching-off instruction to the night indicator lamp.

Preferably, further comprising:

and the electromagnetic relay is positioned between the power supply and the night indicator lamp and used for switching on the power supply of the night indicator lamp after receiving the switching-on instruction output by the camera device, receiving the switching-off instruction output by the camera device and switching off the power supply of the night indicator lamp.

Preferably, the image pickup apparatus includes: a face atlas database storage module and an atlas matching module, wherein,

the face atlas database storage module is used for storing a face atlas set by a user;

and the image matching module is used for identifying the image of which the moving target is a person from the images shot by the image shooting device, comparing the image with the face image library stored by the face image library storage module, and outputting the image to the data compression module if the moving target image is determined not to be matched with any face image in the face image library.

Preferably, the atlas matching module is further configured to send voice alarm information to a pre-specified mobile communication device after determining that the moving target image is not matched with any human face atlas in the human face atlas database.

According to still another aspect of the present invention, there is provided a video monitoring method, including:

the mobile communication equipment searches for a wireless network and matches the wireless network obtained by searching with a preset wireless network list;

if the mobile communication equipment is matched with the wireless network, outputting a work stopping instruction for closing the work function to a camera device under the condition that the mobile communication equipment is in the matched wireless network;

and after receiving the work stopping instruction, the camera device closes the work function.

Preferably, the method further comprises:

and the user accesses the network server through the user name and the access password, and sets the wireless network list in the network server.

Preferably, the method further comprises:

and under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually reduced, outputting a work stopping instruction for closing the work function to the camera device.

Preferably, the method further comprises:

and under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually increased, outputting a starting work instruction for starting the work function to the camera device.

Preferably, the mobile communication device searches for a wireless network, and matching the searched wireless network with a preset wireless network list includes:

the router broadcasts wireless fidelity network signals regularly or irregularly;

the mobile communication equipment searches for available wireless fidelity networks, acquires the network identification of each searched wireless fidelity network, and confirms that the wireless fidelity network is matched with the wireless network list if the network identification is the same as any network identification in the preset wireless network list.

Preferably, the acquiring the network identifier of the wifi network includes:

and acquiring the network identification from a function attribute field of a wireless fidelity source attribute of the wireless fidelity network.

Preferably, after the mobile communication device searches for a wireless network, before matching the searched wireless network with a preset wireless network list, the method further comprises: and judging whether the wireless network signal strength obtained by searching exceeds a preset wireless signal strength threshold value, if so, executing the process of matching the wireless network obtained by searching with a preset wireless network list, and otherwise, not processing.

Preferably, before the outputting of the stop instruction for turning off the operation function to the image pickup device, the method further includes:

and the mobile communication equipment accesses the home local area network through a preset user name and an access password.

Preferably, the accessing the home local area network through the user name and the access password includes:

Preferably, the network identification information includes: one or any combination of router service set identifier information, router IP address information, router name, or router mac address information.

Preferably, after the work function is turned off, the method further comprises:

the non-camera state information is output to the router, which stores the received non-camera state information.

Preferably, after the work function is started, the method further comprises:

and outputting the camera shooting state information to a router, and storing the received camera shooting state information by the router.

Preferably, after the work function is started, the method further comprises:

the camera shooting device shoots a camera and transmits the shot camera to the network server for storage through the router.

Preferably, after the camera device captures the camera and before the captured camera is transmitted to the network server through the router for storage, the method further comprises:

and compressing the shot camera by using a preset data compression algorithm.

Preferably, after the compression processing is performed on the shot camera, and before the shot camera is transmitted to a network server through a router for storage, the method further includes:

the image pickup subjected to the compression processing is subjected to encryption processing by using a preset encryption algorithm.

Preferably, after the image pickup device picks up the image pickup, before compressing the picked up image pickup by using a preset data compression algorithm, the method further includes:

and identifying a moving target image in the shot camera, wherein the moving target is a person, comparing the moving target image with a pre-stored human face atlas database, and executing the flow of compressing the shot camera by using a preset data compression algorithm if the moving target image is determined not to be matched with any human face in the human face atlas database.

Preferably, the method further comprises:

after the camera device carries out shooting, the shooting definition is determined to be incapable of meeting the preset definition requirement, a turn-on instruction is output to a preset night indicator lamp, the shooting definition is determined to be capable of meeting the preset definition requirement, and a turn-off instruction is output to the night indicator lamp.

Preferably, the distance of the wireless network from the mobile communication device is determined by one or any combination of GPS positioning, base station positioning, assisted GPS positioning and WiFi positioning.

Preferably, said determining the distance of said wireless network from said mobile communication device by GPS positioning comprises:

the mobile communication equipment sends a positioning request to a GPS positioning system, and the GPS positioning system sends positioning satellite information to the mobile communication equipment according to the received positioning request;

the mobile communication equipment selects a positioning satellite according to the received positioning satellite information, acquires positioning original data from the selected positioning satellite and sends the positioning original data to a positioning position server;

the mobile communication equipment receives instant position information returned by the positioning position server through the base station, and calculates the distance between the wireless network and the mobile communication equipment according to the prestored position information of the wireless network.

Preferably, said determining the distance of said wireless network from said mobile communication device by base station positioning comprises:

the mobile communication equipment sends a positioning request to a base station;

the base station receives the positioning request, calculates the relative position information of the mobile communication equipment which sends the positioning request relative to the base station according to the strength and the azimuth angle of the received signal, weights the relative position information with the position information of the base station to obtain the position information of the mobile communication equipment, packages the obtained position information of the mobile communication equipment in the positioning request response, and returns the positioning request response to the mobile communication equipment;

the mobile communication equipment analyzes the received positioning request response, acquires the position information of the mobile communication equipment, and calculates the distance between the wireless network and the mobile communication equipment according to the position information of the wireless network stored in advance.

Preferably, said determining the distance of said wireless network from said mobile communication device by WiFi positioning comprises:

the mobile communication equipment is accessed to a home local area network;

the mobile communication equipment sends a positioning request to the home local area network and starts a timer;

and the mobile communication equipment receives a positioning request response returned by the home local area network, acquires the time timed by the timer, and calculates the distance between the wireless network and the mobile communication equipment according to the timed time.

According to the mobile communication equipment, the video monitoring system and the video monitoring method, the mobile communication equipment, the router and the camera device can form a home local area network, the router monitors the mobile communication equipment belonging to the home local area network, and if the mobile communication equipment in the home local area network is monitored and the camera device is determined to be in a camera shooting state at present, the router outputs a work stopping instruction to the camera device; and if any mobile communication equipment in the home local area network cannot be monitored, determining that the camera device is in a camera shooting state at present, and outputting a work stopping instruction to the camera device. Thus, when the mobile communication equipment is positioned in the coverage area of the home local area network, the camera shooting device is closed, and after the mobile communication equipment is far away from the coverage area of the home local area network, the camera shooting device is started. Therefore, the technical problem that the privacy information of the user is leaked due to the fact that the camera device is still in the working state when the user enters the camera device camera shooting range is solved, the video monitoring system is automatically closed when the user starts to enter the video monitoring system monitoring range, and the video monitoring system is automatically started after the user keeps away from the video monitoring system monitoring range, so that the beneficial effects that the privacy information of the user is prevented from being leaked, and safety monitoring is achieved are achieved.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a schematic structural diagram of a video monitoring system according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an image capturing apparatus according to an embodiment of the present invention; and the number of the first and second groups,

fig. 3 is a schematic flow chart of a video monitoring method according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

In the existing video monitoring system, the video monitoring system is in an all-weather working state, or after a user returns home, the video monitoring system is closed in a manual mode, and the video monitoring system is opened when the user leaves home, but partial camera shooting of the user is transmitted to a remote network server, so that the privacy information of the user is leaked, and the safety of the privacy information of the user is reduced.

The development of mobile communication technology makes mobile communication devices get more and more widely applied, the mobile communication devices can form a local area network with fixed communication devices, and the fixed communication devices and other mobile communication devices can be controlled in a remote mode.

Wireless Fidelity (WiFi) is a technology that can wirelessly interconnect fixed communication devices, such as Personal computers and mobile communication devices, such as Personal Digital Assistants (PDAs) and mobile phones, and can effectively improve the interoperability between Wireless network products based on the IEEE802.11 standard, and is widely used in offices, leisure places and home places.

In the embodiment of the invention, the situation that the mobile communication equipment is carried by the user in the family is considered, therefore, the router in the family is used as a WiFi access point, the WiFi network, namely the family local area network, is formed by the mobile communication equipment and the camera device, the router detects the mobile communication equipment in the family local area network, when the mobile communication equipment exists in the family local area network, the camera device is informed to close the working function when the user in the family is near the house, so that the user can start to enter the monitoring range of the video monitoring system, the video monitoring system is automatically closed, and the video monitoring system is automatically started after the user is far away from the monitoring range of the video monitoring system, thereby effectively avoiding the leakage of the user privacy information possibly caused by the camera shooting of the user.

Fig. 1 is a schematic structural diagram of a video monitoring system according to an embodiment of the present invention. Referring to fig. 1, the system includes: a mobile communication device, a camera, and a router, wherein,

in the embodiment of the present invention, as an optional embodiment, the wireless network is a home lan. The mobile communication device includes: personal Digital Assistants (PDAs), mobile phones, mobile intelligent terminals, laptop computers, and the like.

As an alternative embodiment, the mobile communication device may have a positioning function of a Global Positioning System (GPS); also, for example, a communication function of a General Packet Radio Service (GPRS); for example, the Mobile communication terminal also has a communication function of a global system for Mobile communication (GSM); for example, the Bluetooth (and/or BLE) communication function is also provided; for example, the mobile terminal also has a communication function of Enhanced Data Rate for GSM Evolution (EDGE); for example, the communication function of Code Division Multiple Access (CDMA) is also provided; for example, the communication device also has a Wideband Code Division Multiple Access (WCDMA) communication function; also for example, the communication function of Time Division-Synchronous Code Division Multiple Access (TD-SCDMA) is provided; for example, the mobile terminal also has a Time Division Long Term Evolution (TD-LTE) communication function. Therefore, the mobile communication device can access the video monitoring system by GPRS, GSM, CDMA, TD-LTE and the like.

The image pickup apparatus includes: the camera comprises a camera, an infrared integrated camera, an infrared dome camera, a common dome camera, an explosion-proof dome camera, a constant-speed dome camera, a medium-speed dome camera, a high-speed dome camera, a network type camera, a gun type camera and the like.

In the embodiment of the present invention, the router may be a wireless router (WiFi access point), or may also be an Asymmetric Digital Subscriber Line (ADSL) router, or a bluetooth adapter, or a router having both wireless routing and ADSL routing functions. Wherein,

the bluetooth adapter may support short-range communication of devices, enabling wireless information exchange between numerous devices including mobile phones, PDAs, wireless headsets, laptop computers, and the like. The standard followed by the bluetooth adapter is IEEE802.15, operating in the 2.4GHz band.

WiFi technology is a wireless network communication technology that can connect mobile phones, PDAs, notebook computers, etc. with other network devices in a wireless manner. The WiFi technology has wide coverage range and high transmission speed, and a user can quickly communicate with other equipment in the WiFi coverage area. In most mobile communication devices, a WiFi module is installed to make WiFi connection.

in the embodiment of the invention, the camera device carries out corresponding processing according to the received instruction, namely after receiving the work stopping instruction, the current work function is terminated, and the camera device is placed in a standby state.

As an alternative embodiment, the turning off the work function according to the stop work instruction includes:

As another alternative, the turning off the work function according to the stop work instruction includes:

As still another alternative, the turning off the work function according to the stop work instruction includes:

A router for broadcasting wireless network signals;

the mobile communication equipment is used for searching a wireless network, matching the searched wireless network with a preset wireless network list, and if the wireless network is matched with the preset wireless network list, outputting a work stopping instruction for closing a work function to the camera device under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually reduced; and if the distance between the matched wireless network and the mobile communication equipment is gradually increased, outputting a starting work instruction for starting the work function to the camera device.

In the embodiment of the invention, the mobile communication equipment is used for searching the wireless network, matching the searched wireless network with a preset wireless network list, and if the wireless network is matched with the preset wireless network list, outputting a work stopping instruction for closing the work function to the camera device under the condition that the mobile communication equipment is in the matched wireless network.

If the mobile communication equipment enters the WiFi signal coverage range of the wireless router of the user, the camera shooting device can be triggered to be turned off, and if the mobile communication equipment leaves the WiFi signal coverage range of the wireless router of the user, the working function in the camera shooting device needs to be triggered to be started for shooting, so that a scene in the house is shot in real time, and the home safety is guaranteed. Therefore, when the user enters the WiFi signal coverage range of the wireless router, but the user does not enter the camera shooting range of the camera shooting device, the working function of the camera shooting device is closed, so that the leakage of the user privacy information is effectively avoided, and the safety of the user privacy information is improved; further, when the user leaves home, when the user keeps away from the WiFi signal coverage of the wireless router gradually, and the user is located outside the shooting range of the shooting device, the working function of the shooting device is triggered and started again, shooting of the shooting device to the user can be avoided, and safety monitoring of home can be effectively guaranteed.

In the embodiment of the invention, in order to enhance the security of the home local area network, the router can encrypt the broadcast home local area network signal according to a key preset by a user before broadcasting the home local area network signal. The mobile communication equipment searches for the wireless network to obtain the broadcast home local area network signal, decrypts the broadcast home local area network signal, and if the decryption is successful, the home local area network identification information and the access password information carried in the broadcast home local area network signal can be obtained, and the home local area network is accessed according to the home local area network identification information and the access password information.

As an alternative embodiment, the image capturing apparatus is further configured to determine that the image capturing apparatus is currently in a non-image capturing state, and then do no processing.

In the embodiment of the invention, if the mobile communication equipment cannot search the home local area network signal, which indicates that the family members corresponding to the mobile communication equipment leave the coverage range of the WiFi signal of the wireless router of the own house, the mobile communication equipment needs to trigger and start the working function in the camera device to carry out camera shooting so as to carry out camera shooting on the scene in the house in real time and guarantee the home safety, and the camera device restarts the working function to carry out camera shooting after receiving the start working instruction.

As an optional embodiment, the router may broadcast the home lan information at regular or irregular time, within the coverage of the WiFi signal of the router, if the mobile communication device in the home lan receives the broadcasted home lan signal, return a response to the router, where the response may not contain any information, the router receives the response, authenticates the mobile communication device after determining that the mobile communication device sending the response is the mobile communication device in the home lan, and after the authentication is passed, executes a procedure of determining whether the camera device is currently in the camera state. Certainly, in practical application, the router may also automatically search for a mobile communication device within a network coverage range, that is, a mobile communication device within the home lan; and acquiring the identity information of the mobile communication equipment obtained by searching, performing identity authentication (authentication) on the mobile communication equipment in the network coverage range obtained by searching by using the stored identity information table, and if the identity authentication is passed, indicating that the mobile communication equipment is a member in the home local area network.

In the embodiment of the present invention, the identity information table may be number information of the mobile communication device, for example, SIM information or IMEI information of the mobile communication device. The identity information table may be set by the user according to actual needs, and may include classmates, friends, old and rural areas, colleagues, neighbors, and the like, for example. And if the identity information corresponding to the mobile communication equipment in the network coverage area obtained by searching is matched with any identity information in the identity information table, the identity authentication is passed.

In this embodiment of the present invention, as another optional embodiment, the mobile communication device may also scan a WiFi network and obtain WiFi access point identification information, determine whether the WiFi access point identification information is a home lan according to the obtained WiFi access point identification information, after determining that the WiFi access point identification information is the home lan, access the home lan through an access password, receive a home lan signal broadcast by the home lan, and return a response to the router.

In the embodiment of the invention, the WiFi network broadcasts the WiFi signals, and the mobile communication equipment searches the WiFi signals sent by the WiFi network so as to be connected to the WiFi network. Specifically, when the mobile communication device enters an 802.11b/g network environment in which a standard is set, the WiFi signal receiver built in the mobile communication device may be used to send connection information through a protocol interface of a standard in an 802.11 protocol family to scan a WiFi network in the current environment, and after determining that the WiFi network exists in the current environment according to the returned connection response information, WiFi network identification information of the existing WiFi network is obtained. For example, the mobile communication device may determine whether the mobile communication device accesses the internet through the mobile communication base station or the WiFi access point according to the returned connection response information, and obtain WiFi access point identification information connected to the mobile communication device when determining that the mobile communication device accesses the internet through the WiFi access point. The WiFi access point identification information may be SSID (Service Set Identifier) information of a WiFi access point (router), IP address information of the WiFi access point, a name of the WiFi access point, Media Access Control (MAC) address information of the WiFi access point, home lan identification information, or any combination of the above information. The MAC address is a MAC layer address of the WiFi access point, and can be used to uniquely identify the WiFi access point. The service set identifier is used to distinguish different WiFi networks, and may be used as identification information of a WiFi access point to distinguish different WiFi access points, and the service set identifier is usually broadcast by a WiFi access point, for example, a wireless router.

In the embodiment of the invention, the mobile communication device can scan the WiFi network in a timing mode or in an irregular mode.

In practical application, the router can also be used as a common router, and is connected with an external base station to provide wireless network service, so that the router sends a location query request at regular or irregular time, and the location query request carries information of mobile communication equipment in the home local area network.

As an optional embodiment, the camera device is further configured to output non-camera status information to the router after the work function is turned off, and the router stores the received non-camera status information; after the work function is started, the camera shooting state information is output to the router, and the router stores the received camera shooting state information.

As an alternative embodiment, the video surveillance system may further comprise:

As another alternative embodiment, in order to effectively reduce the traffic of the camera data in the network transmission, the system may further include:

In the embodiment of the invention, the data compression algorithm comprises the following steps: robert k.jung Archive (ARJ, Archived byRobert k.jung), PKZip, WinZip, LHArc, roshel compression (RAR, Roshal Archive), GZip, ACE, zo, TurboZip, compression, Moving Pictures Experts Group (MPEG), h.264, and Java Archive (JAR, Java Archive).

As still another alternative embodiment, in order to improve security of the camera data in network transmission, the video surveillance system may further include:

In the embodiment of the present invention, the encryptor may be disposed behind the data compressor, and receive the compressed data output by the data compressor to perform encryption processing. Naturally, in practical applications, the encryptor may be disposed on the router side, that is, the image pickup data transmitted by the image pickup device through the router is received, encrypted, and then output to the network server.

In the embodiment of the invention, the encryption algorithm comprises the following steps: data Encryption Standard (DES), Triple Data Encryption Standard (3 DES), International Data Encryption Algorithm (IDEA), Digital Signature Algorithm (DSA), Advanced Encryption Standard (AES), International Data Encryption Algorithm (IDEA), Public-key cryptography Standard (PKCS), RC2, RC4, and novel elliptic curve Encryption Algorithm, and The like.

Further, in order to reduce the data volume of network transmission and improve the transmission efficiency, a human face atlas database is also preset in the camera device, after the camera device is used for shooting, a moving target image in the camera is obtained, the moving target image is a human and is compared with the preset human face atlas database, if the moving target image is determined not to be matched with any human face in the human face atlas database, the camera device is output to the router, and the camera device is transmitted to the network server and the preset mobile communication equipment through the router.

In the embodiment of the invention, the human face atlas database can be obtained by processing images in the shooting of the shooting device. In the shooting process of the shooting device, as long as one person can match any face in the face atlas database, the shooting does not need to be output to the network server.

In practical application, after the moving target image is determined not to be matched with any human face in the human face atlas database, voice alarm information can be sent to pre-designated mobile communication equipment. As another alternative, after the user receives the camera through the mobile communication device and confirms the camera, the user may return a processing instruction to the camera through the mobile communication device, for example, trigger the camera to play an alarm sound to warn the entrant, and make the surrounding neighbors hear the alarm sound. Or the camera device is instructed not to start the alarm.

Further, the video monitoring system may further include:

As an alternative embodiment, the video monitoring system may further include:

and an electromagnetic relay (not shown in the figure) located between the power supply and the night indicator lamp and used for switching on the power supply of the night indicator lamp after receiving the on command output by the camera device, receiving the off command output by the camera device and switching off the power supply of the night indicator lamp.

It should be noted that most of the functions described above may also be integrated in the imaging device.

As an alternative embodiment, a mobile communication device, comprising: a search module, and a camera control module (not shown), wherein,

In the embodiment of the present invention, the camera control module is configured to output a stop instruction for turning off the working function to the camera device when the mobile communication device is in the matched wireless network.

The searching module is further used for not processing the wireless network obtained by searching after the wireless network is not matched with the preset wireless network list.

Preferably, the user accesses the network server through the user name and the access password, and sets the wireless network list in the network server.

The wireless network comprises a wireless fidelity network and a wireless Bluetooth network.

Preferably, the matching the searched wireless network with the preset wireless network list includes:

In practical applications, the network identifier may be obtained from a functional attribute field of a wireless fidelity source attribute of the wireless fidelity network. For example, when a home router establishes a WIFI network, its password, the number of people to share, the sharing range, etc. are set in the attribute of the WIFI source, and a field of functional attribute is added to the attribute of the WIFI source for storing the name (network identifier) of the service provided by the WIFI source. When the mobile communication equipment automatically searches for available WIFI networks, the attribute of a WIFI source of each searched WIFI network is searched, a field with the function attribute exists in the attribute of each WIFI source to represent the service provided by the corresponding WIFI source, and after the mobile communication equipment searches for the WIFI network, the field value of the function attribute of the corresponding WIFI source can be read, so that the name of the service provided by the mobile communication equipment is obtained. Such as "family WIFI sources", "booking WIFI sources", etc.

As an optional embodiment, after searching for the wireless network, the searching module is further configured to determine whether the signal strength of the wireless network obtained by the search exceeds a preset wireless signal strength threshold, if so, execute the process of matching the wireless network obtained by the search with a preset wireless network list, otherwise, do not perform the processing.

The camera shooting control module is further used for accessing the matched wireless network before outputting a work stopping instruction for closing the work function to the camera shooting device. Wherein said accessing said matched wireless network comprises:

As another alternative embodiment, in order to reduce the range of the mobile communication device searching for the wireless network, the search module further stores the wireless network identifier of the wireless network corresponding to the preset location;

the searching module is further used for executing the wireless network searching after the preset place is determined to be entered. For example, when entering a new cell, cell identification information of the cell in which the mobile communication device is currently located is acquired; then directly searching whether the cell identification information matched with the cell identification information exists in a wireless network list preset by the mobile communication equipment, and if so, searching the wireless network. And then, comparing the acquired wireless network identification with the wireless network identifications in the wireless network list, and determining that the wireless fidelity network is matched with the wireless network list when the acquired wireless network identification is judged to be the same as any wireless network identification in the wireless network list.

Fig. 2 is a schematic structural diagram of an image capturing apparatus according to an embodiment of the present invention. Referring to fig. 2, the image pickup apparatus includes: a monitoring module, a state storage module and a camera control module, wherein,

the monitoring module is used for monitoring the mobile communication equipment in the home local area network, inquiring the state storage module if the mobile communication equipment is monitored, determining that the camera device is in a camera shooting state at present, and outputting a working stopping instruction to the camera shooting control module; if any mobile communication equipment in the home local area network cannot be monitored, inquiring a state storage module, determining that a camera device is in a camera shooting state at present, and outputting a working stopping instruction to a camera shooting control module;

in the embodiment of the invention, the monitoring module can send the device inquiry request at regular time or irregular time to monitor the mobile communication device in the home local area network.

In the embodiment of the invention, after monitoring the mobile communication equipment, the monitoring module inquires the state storage module, and if the camera device is determined to be in a non-camera state currently, the monitoring module does not process the camera device; and after any mobile communication equipment is not monitored, inquiring the state storage module, and if the camera device is determined to be in the camera shooting state currently, not processing.

The camera shooting control module is used for receiving a work stopping instruction and closing a work function; and receiving a work starting instruction and starting a work function.

In an embodiment of the present invention, an imaging apparatus includes: the camera comprises a camera, an infrared integrated camera, an infrared dome camera, a common dome camera, an explosion-proof dome camera, a constant-speed dome camera, a medium-speed dome camera, a high-speed dome camera, a network type camera, a gun type camera and the like.

As an optional embodiment, the camera control module is further configured to output non-camera state information to the state storage module after the working function is turned off, and the state storage module updates the state of the camera device to a non-camera state; after the work function is started, the shooting state information is output to the state storage module, and the state storage module updates the state of the shooting device to a shooting state.

As an optional embodiment, in order to enhance the security of home monitoring and avoid destroying the camera device after an illegal person enters the home, so that the camera shooting cannot be recovered, the shot camera shooting can be transmitted to the network server. Thus, the image pickup apparatus further includes:

and the camera shooting transmission module is used for outputting the camera shooting shot by the camera shooting device to the router.

As another alternative embodiment, in order to effectively reduce the traffic of the camera (data) in the network transmission, the camera apparatus may further include:

and the data compression module (not shown in the figure) is used for compressing the camera shot by the camera shooting device by using a preset data compression algorithm and outputting the compressed camera shot to the camera shooting transmission module.

As still another alternative embodiment, in order to improve security of the camera data in network transmission, the camera apparatus may further include:

and the encryption module (not shown in the figure) receives the camera shooting data transmitted by the data compression module, encrypts the camera shooting data by using a preset encryption algorithm, and outputs the camera shooting data to the camera shooting transmission module.

Further, in order to reduce the data amount transmitted through the network and improve the transmission efficiency, the image pickup apparatus may further include: a face atlas database storage module and an atlas matching module (not shown), wherein,

in the embodiment of the invention, the human face atlas database can be obtained by processing images in the shooting of the shooting device. For example, a user selects a familiar face from the shooting, performs image processing, and then places the face subjected to the image processing in a face gallery storage module.

In the embodiment of the invention, the atlas matching module does not process the image of one person in the shooting process of the shooting device as long as the image of one person can be matched with any face in the face atlas database.

As an optional embodiment, the atlas matching module is further configured to send voice alarm information to a pre-specified mobile communication device after determining that the moving target image does not match any of the face atlases in the face atlas database.

In practical application, as another optional embodiment, after the user receives the camera through the mobile communication device and confirms the camera, the mobile communication device may return a processing instruction to the camera, for example, trigger the camera to play an alarm sound to warn the entrant, and enable the surrounding neighbors to hear the alarm sound. Or the camera device is instructed not to start the alarm. Thus, the image pickup apparatus may further include:

and an alarm module (not shown in the figure) for receiving an alarm instruction from the mobile communication device and playing an alarm sound.

Further, as still another optional embodiment, the image pickup apparatus may further include: a clarity judging module, an electromagnetic relay module, and a lighting module (not shown in the figure), wherein,

the definition judging module is used for judging whether the definition of the camera shot by the camera shooting device can meet the preset definition requirement or not, if so, outputting a starting instruction to the electromagnetic relay module, and otherwise, outputting a switching-off instruction to the electromagnetic relay module;

and the electromagnetic relay module is used for receiving the opening instruction, switching on the passage of the power supply and the illumination module, receiving the switching-off instruction and switching off the passage of the power supply and the illumination module.

In the embodiment of the invention, the lighting module can be a night indicator lamp.

Fig. 3 is a schematic flow chart of a video monitoring method according to an embodiment of the present invention. The video monitoring method relates to mobile communication equipment, a camera device and a router, and the mobile communication equipment, the camera device and the router form a home local area network. Referring to fig. 3, the process includes:

step 301, the mobile communication device searches for a wireless network and matches the wireless network obtained by the search with a preset wireless network list;

in this step, the mobile communication device may be: personal digital assistants, mobile phones, mobile intelligent terminals or portable computers, etc. The router may be a WiFi wireless router.

In the embodiment of the present invention, as an optional embodiment, when the user is near home, the video monitoring of the embodiment of the present invention may be performed, the mobile communication device searches for a wireless network, and matching the wireless network obtained by the search with a preset wireless network list includes:

c11, the router broadcasts the wireless fidelity network signal regularly or irregularly;

in this step, the broadcasted wifi network signal carries the router identification information. The router identification information may be: one or any combination of router service set identifier information, router IP address information, router name, or router mac address information.

C12, the mobile communication device searches the available wireless fidelity network, and for each searched wireless fidelity network, obtains the network identification of the wireless fidelity network, if the network identification is the same as any network identification in the preset wireless network list, it confirms that the wireless fidelity network matches with the wireless network list.

The method comprises the following steps:

d11, the mobile communication device and the router establish a close range communication connection;

in this step, the short-range communication includes, but is not limited to, radio frequency identification wireless communication, near field communication wireless communication, and the like.

D12, the mobile communication device receives the wireless fidelity network signal broadcasted from the router through the near field communication connection, and router identification information is obtained;

in this step, the router identification information is WiFi connection parameter information, including but not limited to: SSID, access password.

In the embodiment of the invention, each wireless router has an SSID which is equivalent to the identification code of the wireless router. By default, the wireless router transmits the SSID outward so that devices such as notebooks, mobile phones, etc. can search for the wireless router. The wireless router broadcasts the SSID packet once according to a preset period, and the broadcast action has little influence on the network efficiency because the length of the packet is quite short. After receiving the SSID broadcast packet, the mobile communication device may determine whether to establish a connection with a wireless router corresponding to the SSID.

D13, the mobile communication device establishes WiFi connection with the router according to the router identification information.

In this step, the mobile communication device starts the WiFi module to search for a WiFi access point. Taking an Android mobile communication device as an example, after a WiFi module is started, the WiFi module calls onpreferenceachange of WifiEnabler, then the WifiEnabler calls a setwifigenableable interface function of WifiManager, a MESSAGE _ ENABLE _ WiFi MESSAGE is sent, enabling is carried out in a code for processing the MESSAGE, and after the enabling is successful, a WiFi _ STATE _ CHANGED _ ACTION MESSAGE is broadcast and sent to inform the outside world that Wi-Fi is successfully enabled.

And when the WifiEnabler is created, registering and receiving a WIFI _ STATE _ CHANGED _ ACTION message to the Android mobile communication equipment, and starting scanning and executing search after receiving the WIFI _ STATE _ CHANGED _ ACTION message.

During scanning, the scanning is carried out by calling an entry function, namely a startScan function of WifiService.

And judging whether the searched WiFi access point contains the SSID in the received WiFi connection parameter information, if so, establishing WiFi connection with the router according to the password information in the WiFi connection parameter information.

In this step, for each WiFi access point returned by scanning, the WiFi layer will call the onaccessfoot setchanged function of the WiFi settings to determine whether to match with the pre-stored router identification information.

As an alternative embodiment, the method further comprises:

the mobile communication equipment analyzes the broadcast wireless fidelity network signal, acquires the router identification information, inquires a stored router identification information base (wireless network list), determines the router identification information as a home local area network if the acquired router identification information is matched with the router identification information base, and accesses the home local area network through a user name and an access password.

In this step, accessing the home lan through the user name and the access password includes:

In this step, the router authenticates the received user name and access password according to the stored user name and access password library, i.e. determines whether the mobile communication device is a mobile communication device in the home local area network, so as to effectively reduce the access of the illegal mobile communication device. Therefore, after the mobile communication equipment is accessed to the home local area network, the network flow cost can be saved.

In the embodiment of the invention, if the router passes the authentication of the mobile communication equipment, the router shows that the mobile communication equipment which belongs to the same home local area network as the router is monitored.

In practical application, the mobile communication device may also search whether there is a wireless network signal in the wireless network list, and if so, end the search process; if not, then,

searching whether a Bluetooth network signal exists or not, and if so, ending the searching process; otherwise, wait for the next search period.

In the embodiment of the present invention, acquiring the network identifier of the wifi network includes:

As another alternative, the router may not only search for mobile communication devices within its WiFi signal coverage area, but may also perform video surveillance via the base station.

Step 302, if the distance between the wireless network and the mobile communication equipment is matched with the distance between the wireless network and the mobile communication equipment, outputting a camera shooting stopping instruction for closing the camera shooting function to the camera shooting device; if the distance between the matched wireless network and the mobile communication equipment is gradually increased, outputting a camera shooting starting instruction for starting a camera shooting function to a camera shooting device;

in this step, step 302 may also be: and if the mobile communication equipment is matched with the wireless network, outputting a work stopping instruction for closing the work function to the camera device under the condition that the mobile communication equipment is in the matched wireless network.

The method may further comprise:

Wherein the distance between the wireless network and the mobile communication device can be determined by one or any combination of GPS positioning, base station positioning, assisted GPS positioning, and WiFi positioning.

Said determining the distance of the wireless network from the mobile communication device by GPS positioning comprises:

Specifically, the GPS positioning includes:

f1, the mobile communication device sends a positioning request to the GPS, and the GPS sends the positioning satellite information to the mobile communication device according to the received positioning request;

in this step, for a mobile communication device equipped with a Global Positioning System (GPS), a Positioning request may be sent via a built-in GPS chip, via a public network, a Wireless Fidelity (WiFi) Wireless network, or another Wireless network.

F2, the mobile communication device selects a positioning satellite according to the received positioning satellite information, acquires positioning original data from the selected positioning satellite, and sends the positioning original data to the positioning position server;

in this step, as an optional embodiment, the number of the selected positioning satellites is at least three. The mobile communication equipment selects at least three positioning satellites from the received positioning satellite information, and directly acquires positioning original data from each selected positioning satellite from the selected positioning satellites.

As an alternative embodiment, locating the raw data comprises: coordinates of where the mobile communication device is located, speed of movement, and time. After receiving the positioning original data, the mobile communication device transmits the positioning original data back to the positioning position server through the base station.

F3, the mobile communication device receives the instant location information returned by the positioning location server through the base station.

In the step, the positioning position server processes the received positioning original data to obtain longitude and latitude values of the position of the mobile communication equipment, and obtains instant position information of the mobile communication equipment according to the longitude and latitude values, and the instant position information is sent to the mobile communication equipment, and the mobile communication equipment sends the instant position information of the mobile communication equipment to the router through the base station.

In the embodiment of the present invention, as an optional embodiment, the mobile communication device may send a positioning request to the positioning location server through a wireless network (WiFi access point), to request to obtain instant location information of the mobile communication device.

Said determining the distance of the wireless network from the mobile communication device by base station positioning comprises:

Specifically, the base station positioning includes:

b1, the mobile communication device sends a positioning request to the base station;

b2, the base station receives the positioning request, calculates the relative position information of the mobile communication device sending the positioning request relative to the base station according to the intensity and azimuth of the received signal, weights the relative position information with the position information of the base station to obtain the position information of the mobile communication device, packages the obtained position information of the mobile communication device in the positioning request response, and returns the positioning request response to the mobile communication device;

in this step, for example, the base station may determine the distance from the mobile communication device to the base station according to a Received Signal Strength Indication (RSSI).

B3, the mobile communication device analyzes the received positioning request response to obtain the position information of the mobile communication device.

In this step, if the mobile communication device receives the positioning request responses returned by the multiple base stations, as an optional embodiment, geometric average may be performed on the mobile communication device location information in the multiple positioning request responses obtained through analysis, so as to obtain the mobile communication device location information.

As another alternative embodiment, the location information of the mobile communication device in the location request response with the strongest received signal may also be selected from the location request responses returned by the multiple base stations, as the acquired location information of the mobile communication device.

The determining the distance of the wireless network from the mobile communication device through WiFi positioning comprises:

the mobile communication equipment is accessed to a home local area network;

Step 303, after receiving the instruction of stopping shooting, the shooting device closes the shooting function; and receiving a camera shooting starting instruction and starting a camera shooting function.

In this step, the image capture device closes the work function after receiving the stop instruction, where the stop instruction is the stop instruction, and the close function is the close function. Before the shutting down the work function, the method further comprises:

and the camera device judges whether the camera device is in a camera shooting state at present, if so, the process of closing the working function is executed, and if not, the process is not carried out.

As an alternative embodiment, after the work function is turned off, the method further comprises:

In this step, after the work function is started, the method further includes:

As yet another alternative, after the initiating the work function, the method further comprises:

and step 304, shooting the camera by the camera device, and transmitting the shot camera to the network server for storage through the router.

As another optional embodiment, in order to effectively reduce the traffic of the camera data in the network transmission, after the camera device takes a picture and before the taken picture is transmitted to the network server through the router for storage, the method further includes:

and compressing the shot camera by using a preset data compression algorithm.

In an embodiment of the present invention, in order to improve security of image data in network transmission, after compressing captured images and before transmitting the captured images to a network server through a router for storage, the method further includes:

In this step, the encryption algorithm includes: data encryption standard, triple data encryption standard, international data encryption algorithm, digital signature algorithm, advanced encryption standard, international data encryption algorithm, public key cryptography standard, RC2, RC4, novel elliptic curve encryption algorithm and the like.

In the embodiment of the invention, in order to further reduce the network data transmission quantity, only the moving target is considered, and the camera shooting of the moving target which is a person and is unfamiliar to the user is output to the network server for storage, so that the safety of camera shooting is ensured. Thus, as an alternative embodiment, after the image pickup device picks up the image pickup, before the picked up image pickup is compressed by using a preset data compression algorithm, the method further includes:

In this step, in the shot shooting, if a moving object is not included, or a moving object is included but the moving object is not a person, or a shooting including a moving object which is a person but the moving object can be matched with the human face gallery, the shooting need not be transmitted to the network server for storage, and only the shooting device needs to store or not store the shooting.

Further, for scenes such as night and the like which are not favorable for the operation of the camera device, the method may further include:

In the step, the night indicator lamp is powered on to turn on the illumination after receiving the turn-on instruction output by the camera device, receives the turn-off instruction output by the camera device, and turns off the power to stop the illumination.

The algorithms and displays presented herein are not inherently related to any particular computer, virtual machine, or other apparatus. Various general purpose systems may also be used with the teachings herein. The required structure for constructing such a system will be apparent from the description above. Moreover, the present invention is not directed to any particular programming language. It is appreciated that a variety of programming languages may be used to implement the teachings of the present invention as described herein, and any descriptions of specific languages are provided above to disclose the best mode of the invention.

In the description provided herein, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the disclosure and aiding in the understanding of one or more of the various inventive aspects. However, the disclosed method should not be interpreted as reflecting an intention that: that the invention as claimed requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

Those skilled in the art will appreciate that the modules in the device in an embodiment may be adaptively changed and disposed in one or more devices different from the embodiment. The modules or units or components of the embodiments may be combined into one module or unit or component, and furthermore they may be divided into a plurality of sub-modules or sub-units or sub-components. All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and all of the processes or elements of any method or apparatus so disclosed, may be combined in any combination, except combinations where at least some of such features and/or processes or elements are mutually exclusive. Each feature disclosed in this specification (including any accompanying claims, abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise.

Furthermore, those skilled in the art will appreciate that while some embodiments described herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the following claims, any of the claimed embodiments may be used in any combination.

The various component embodiments of the invention may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. It will be appreciated by those skilled in the art that a microprocessor or Digital Signal Processor (DSP) may be used in practice to implement some or all of the functions of some or all of the components of the camera device and video surveillance system according to embodiments of the present invention. The present invention may also be embodied as apparatus or device programs (e.g., computer programs and computer program products) for performing a portion or all of the methods described herein. Such programs implementing the present invention may be stored on computer-readable media or may be in the form of one or more signals. Such a signal may be downloaded from an internet web server or provided on a carrier signal or in any other form.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names.

The invention discloses A1. a mobile communication device, comprising: a search module and a camera control module, wherein,

A2. The mobile communication device according to a1, wherein the searching module is further configured to not process the searched wireless network after the searched wireless network is not matched with the preset wireless network list.

A3. According to the mobile communication device described in a1, the user accesses the web server by the user name and the access password, and sets the wireless network list in the web server.

A4. According to the mobile communication device described in a1, the camera control module is further configured to output a stop instruction for turning off the operation function to the camera apparatus when the distance between the matched wireless network and the mobile communication device gradually decreases.

A5. According to the mobile communication device described in a1, the camera control module is further configured to output a start operation instruction for starting an operation function to the camera device when the distance between the matched wireless network and the mobile communication device gradually increases.

A6. The mobile communication device of a1, the wireless networks comprising a wireless fidelity network and a wireless bluetooth network.

A7. According to the mobile communication device of a6, the matching the searched wireless network with a preset wireless network list includes:

A8. The mobile communication device according to a7, wherein the network identifier is obtained from a functional attribute field of a wireless fidelity source attribute of the wireless fidelity network.

A9. According to the mobile communication device described in a1, after searching for a wireless network, the search module is further configured to determine whether the signal strength of the wireless network obtained by the search exceeds a preset wireless signal strength threshold, if so, execute the process of matching the wireless network obtained by the search with a preset wireless network list, otherwise, do not perform the processing.

A10. According to the mobile communication device described in a1, the camera control module is further configured to access the matching wireless network before outputting a stop instruction for turning off the operation function to the camera device.

A11. The mobile communication device of a10, the accessing the matching wireless network comprising:

A12. According to the mobile communication device of a1, the search module further stores a wireless network identifier of a wireless network corresponding to a preset location;

A13. A video surveillance system, the system comprising: a mobile communication device, a camera, and a router, wherein,

a router for broadcasting home LAN signals;

A14. According to the system of a13, the shutdown of the work function according to the stop work order includes:

A15. According to the system of a13, the shutdown of the work function according to the stop work order includes:

A16. According to the system of a13, the shutdown of the work function according to the stop work order includes:

A17. The system of a13, the mobile communication device, comprising: a search module and a camera control module, wherein,

A18. The system of a17, the mobile communication device comprising: personal digital assistants, mobile phones, mobile intelligent terminals and portable computers.

A19. The system of a17, the image capture device comprising: the camera, infrared integration camera, infrared dome camera, ordinary dome camera, explosion-proof dome camera, at the uniform velocity ball camera, well speed ball camera, high speed ball camera, network type camera and gun type camera.

A20. The system of a17, the router being a wifi access point.

A21. According to the system as described in a17, the camera device is further configured to output non-camera status information to the router after the work function is turned off, and the router stores the received non-camera status information; after the work function is started, the camera shooting state information is output to the router, and the router stores the received camera shooting state information.

A22. The system according to a17, further comprising:

A23. The system according to a17, further comprising:

A24. The system according to a17, further comprising:

A25. The system according to a17, further comprising:

A26. The system according to a25, further comprising:

A27. The system of a23, the image capture device comprising: a face atlas database storage module and an atlas matching module, wherein,

A28. The system of a27, wherein the atlas matching module is further configured to send voice alert information to a pre-designated mobile communications device after determining that the moving target image does not match any of the face atlases in the face atlas library.

A29. A method of video surveillance, the method comprising:

A30. The method of a29, the method further comprising:

A31. The method of a29, the method further comprising:

A32. The method of a29, the method further comprising:

A33. The method of a29, wherein the mobile communication device searches for a wireless network and matching the searched wireless network with a preset list of wireless networks comprises:

A34. According to the method of a33, the obtaining the network identifier of the wifi network includes:

A35. The method of a29, wherein after the mobile communication device searches for a wireless network, before matching the searched wireless network with a preset list of wireless networks, the method further comprises: and judging whether the wireless network signal strength obtained by searching exceeds a preset wireless signal strength threshold value, if so, executing the process of matching the wireless network obtained by searching with a preset wireless network list, and otherwise, not processing.

A36. The method according to a29, further comprising, before the outputting a stop instruction to turn off the operation function to the image pickup device:

A37. The method according to a36, wherein the accessing the home local area network through the user name and the access password comprises:

A38. The method of a32, the network identification information comprising: one or any combination of router service set identifier information, router IP address information, router name, or router mac address information.

A39. The method of a29, further comprising, after the operational function is turned off:

A40. The method of a29, after initiating a work function, the method further comprising:

A41. The method of a29, after initiating a work function, the method further comprising:

A42. According to the method as described in a41, after the image pickup device picks up the image pickup and before the picked up image pickup is transmitted to the web server through the router for storage, the method further comprises:

and compressing the shot camera by using a preset data compression algorithm.

A43. According to the method described in a42, after compression processing is performed on a captured image, and before the captured image is transmitted to a web server through a router for storage, the method further includes:

A44. According to the method of a43, after the image pickup device picks up the image pickup, before compression processing is performed on the picked up image pickup by using a preset data compression algorithm, the method further includes:

A45. The method of a29, the method further comprising:

A46. According to the method of a29, the distance between the wireless network and the mobile communication device is determined by one or any combination of GPS positioning, base station positioning, assisted GPS positioning, and WiFi positioning.

A47. The method of a46, the determining the range of the wireless network from the mobile communication device by GPS positioning comprising:

A48. The method of a46, wherein the determining the distance of the wireless network from the mobile communication device by base station location comprises:

A49. The method of a46, the determining the distance of the wireless network from the mobile communication device through WiFi positioning comprising:

the mobile communication equipment is accessed to a home local area network;

Claims

1. A mobile communication device, comprising: a search module and a camera control module, wherein,

the camera control module is configured to output a stop instruction for turning off the work function to the camera device when the mobile communication device is in the matched wireless network, and specifically includes: outputting a work stopping instruction for closing a work function to a camera device under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually reduced after the wireless signal coverage is entered;

the camera shooting control module is further used for outputting a work starting instruction for starting a work function to the camera shooting device under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually increased after the camera shooting control module enters the wireless signal coverage range;

the camera device comprises a monitoring module, a camera control module and a processing module, wherein the monitoring module is used for monitoring mobile communication equipment in the matched wireless network, determining that the camera device is in a camera shooting state currently if the mobile communication equipment is monitored, and outputting a working stopping instruction to the camera control module in the camera device; the camera shooting control module in the camera shooting device is used for closing the working function of the camera shooting device according to the working stopping instruction; and if any mobile communication equipment in the matched wireless network cannot be monitored, determining that the camera device is in a non-camera shooting state at present, and outputting a starting working instruction to a camera shooting control module in the camera device.

2. The mobile communication device as claimed in claim 1, wherein the searching module is further configured to perform no processing after the searched wireless network does not match the preset wireless network list.

3. The mobile communication device of claim 1, wherein the user accesses the web server by a user name and an access password, and sets the wireless network list in the web server.

4. The mobile communication device of claim 1, the wireless network comprising a wireless fidelity network and a wireless bluetooth network.

5. The mobile communication device of claim 4, wherein the matching the searched wireless network with a preset list of wireless networks comprises:

6. The mobile communication device of claim 5, wherein the network identification is obtained from a functional attribute field of a wireless fidelity source attribute of the wireless fidelity network.

7. The mobile communication device of claim 1, wherein the searching module is further configured to determine whether the signal strength of the searched wireless network exceeds a preset wireless signal strength threshold after searching for the wireless network, and if so, execute the process of matching the searched wireless network with a preset wireless network list, otherwise, do not perform the processing.

8. The mobile communication device of claim 1, wherein the camera control module is further configured to access the matched wireless network before outputting a shutdown instruction to shut down the operation function to the camera.

9. The mobile communication device of claim 8, the accessing the matched wireless network comprising:

10. The mobile communication device of claim 1, the search module further stores a wireless network identifier of a wireless network corresponding to a preset location;

11. A video surveillance system, the system comprising: a mobile communication device, a camera, and a router, wherein,

a router for broadcasting home LAN signals;

the mobile communication equipment is used for searching a wireless network, matching the searched wireless network with a preset wireless network list, and if the wireless network is matched with the preset wireless network list, outputting a work stopping instruction for closing a work function to the camera device under the condition that the mobile communication equipment is in the matched wireless network;

the mobile communication device includes a search module and a camera control module, wherein,

the searching module is used for searching a wireless network, matching the searched wireless network with a preset wireless network list, and informing the camera shooting control module if the searched wireless network is matched with the preset wireless network list;

the camera control module is used for outputting a stop work instruction for closing the work function to the camera device under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually reduced in the process that the mobile communication equipment outputs the stop work instruction for closing the work function to the camera device under the condition that the mobile communication equipment is in the matched wireless network; the camera shooting control module is further used for outputting a work starting instruction for starting a work function to the camera shooting device under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually increased;

the camera device also comprises a monitoring module, a camera control module and a processing module, wherein the monitoring module is used for monitoring the mobile communication equipment in the matched wireless network, determining that the camera device is in a camera shooting state currently if the mobile communication equipment is monitored, and outputting a working stopping instruction to the camera control module in the camera device; the camera shooting control module in the camera shooting device is used for closing the working function of the camera shooting device according to the working stopping instruction; and if any mobile communication equipment in the matched wireless network cannot be monitored, determining that the camera device is in a non-camera shooting state at present, and outputting a starting working instruction to a camera shooting control module in the camera device.

12. The system of claim 11, wherein said shutting down the work function according to the stop work instruction comprises:

13. The system of claim 11, wherein said shutting down the work function according to the stop work instruction comprises:

14. The system of claim 11, wherein said shutting down the work function according to the stop work instruction comprises:

15. The system of claim 11, the mobile communication device comprising: personal digital assistants, mobile phones, mobile intelligent terminals and portable computers.

16. The system of claim 11, the camera device comprising: the camera, infrared integration camera, infrared dome camera, ordinary dome camera, explosion-proof dome camera, at the uniform velocity ball camera, well speed ball camera, high speed ball camera, network type camera and gun type camera.

17. The system of claim 11, the router being a wireless fidelity access point.

18. The system of claim 11, the camera device further configured to output non-camera status information to the router after the operational function is turned off, the router storing the received non-camera status information; after the work function is started, the camera shooting state information is output to the router, and the router stores the received camera shooting state information.

19. The system of claim 11, further comprising:

20. The system of claim 11, further comprising:

21. The system of claim 11, further comprising:

22. The system of claim 11, further comprising:

23. The system of claim 22, further comprising:

24. The system of claim 20, the camera device comprising: a face atlas database storage module and an atlas matching module, wherein,

25. The system of claim 24, the atlas matching module further to send voice alert information to a pre-designated mobile communications device upon determining that the moving target image does not match any of the face atlases in the library of face atlases.

26. A method of video surveillance, the method comprising:

if the mobile communication device is matched with the wireless network, outputting a stop work instruction for closing the work function to the camera device under the condition that the mobile communication device is in the matched wireless network, and specifically comprising the following steps: under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually reduced, outputting a work stopping instruction for closing the work function to the camera device;

further, under the condition that the distance between the matched wireless network and the mobile communication equipment is gradually increased, a work starting instruction for starting a work function is output to the camera device;

the camera device closes the working function after receiving the working stopping instruction;

the camera device also monitors mobile communication equipment in the matched wireless network, and if the mobile communication equipment is monitored, the working function is closed when the camera device is determined to be in a camera shooting state; and if any mobile communication equipment in the matched wireless network is not monitored, determining that the camera device is in a non-camera state at present, and starting a working function.

27. The method of claim 26, the method further comprising:

28. The method of claim 26, the mobile communication device searching for wireless networks, matching the searched wireless networks to a preset list of wireless networks comprising:

29. The method of claim 28, the obtaining the network identification of the wifi network comprising:

30. The method of claim 26, after the mobile communication device searches for a wireless network, before matching the searched wireless network with a preset list of wireless networks, the method further comprising: and judging whether the wireless network signal strength obtained by searching exceeds a preset wireless signal strength threshold value, if so, executing the process of matching the wireless network obtained by searching with a preset wireless network list, and otherwise, not processing.

31. The method according to claim 26, before said outputting a stop operation instruction to turn off the operation function to the image pickup device, the method further comprising:

and the mobile communication equipment accesses the matched wireless network through a preset user name and an access password.

32. The method of claim 31, the accessing the matching wireless network with a username and access password comprising:

33. The method of claim 28, the network identification information comprising: one or any combination of router service set identifier information, router IP address information, router name, or router mac address information.

34. The method of claim 26, after shutting down the work function, the method further comprising:

35. The method of claim 26, after initiating the work function, the method further comprising:

36. The method of claim 26, after initiating the work function, the method further comprising:

37. The method of claim 36, after the camera captures the camera and before transmitting the captured camera to the web server for storage via the router, the method further comprising:

and compressing the shot camera by using a preset data compression algorithm.

38. The method of claim 37, after compressing the captured imagery and before transmitting the captured imagery to a network server for storage via a router, the method further comprising:

39. The method according to claim 38, before compressing the captured image capture using a preset data compression algorithm after the image capture by the image capture device, further comprising:

40. The method of claim 26, the method further comprising:

41. The method of claim 26, determining the range of the wireless network from the mobile communication device by one or any combination of GPS positioning, base station positioning, assisted GPS positioning, and WiFi positioning.

42. The method of claim 41, the determining the range of the wireless network from the mobile communication device by GPS positioning comprising:

43. The method of claim 41, the determining the range of the wireless network from the mobile communication device by base station positioning comprising:

44. The method of claim 41, the determining the range of the wireless network from the mobile communication device through WiFi positioning comprising:

the mobile communication equipment is accessed to a home local area network;