CN219627905U - Intelligent sentry counting system and intelligent sentry counting equipment - Google Patents

Abstract

The utility model discloses a digital intelligent sentry system and digital intelligent sentry equipment, the digital intelligent sentry system comprises: the mobile communication equipment is used for sending an equipment identification code, wherein the equipment identification code is a unique identification of the mobile communication equipment; the base station baseband chip is used for connecting with mobile communication equipment through a mobile communication network and acquiring an equipment identification code sent by the mobile communication equipment, wherein the mobile communication network is generated by the base station baseband chip; the network communication module is connected with the base station baseband chip and is used for acquiring the equipment identification code from the base station baseband chip; and the processor is connected with the network communication module and is used for acquiring the equipment identification code from the network communication module and processing the equipment identification code to obtain a processing result, wherein the processing result at least comprises health information of an object holding the mobile communication equipment. The utility model solves the technical problem that the intelligent sentry system in the prior art cannot collect user information without sense.

Description

Intelligent sentry counting system and intelligent sentry counting equipment

Technical Field

The utility model relates to the technical field of computer software, in particular to a digital intelligent sentry system and digital intelligent sentry equipment.

Background

In the existing intelligent sentry system, the linkage is usually carried out by combining gate control electric doors or gate equipment, and the health information of people is obtained by the gate control electric doors or gate, but for some specific scenes, such as places like business, office buildings, non-closed communities, medical institutions and the like, the gate control electric doors or electric doors are often used for solving the problem of high cost or inapplicability, and the inspection and verification are still needed in an artificial way, so that unmanned and accurate epidemic prevention is difficult to achieve, and epidemic prevention holes are easy to exist.

The identity recognition of the intelligent sentry system in the prior art mainly recognizes and reads an identity card, inputs an identity card number through a touch screen and the like, is difficult to realize non-contact verification, and has the problem that user information cannot be acquired in a non-sensitive manner.

In view of the above problems, no effective solution has been proposed at present.

Disclosure of Invention

The embodiment of the utility model provides a digital intelligent sentry system and digital intelligent sentry equipment, which at least solve the technical problem that the digital intelligent sentry system in the prior art cannot collect user information without sense.

According to an aspect of an embodiment of the present utility model, there is provided a digital intelligence sentinel system including: the mobile communication equipment is used for sending an equipment identification code, wherein the equipment identification code is a unique identification of the mobile communication equipment; the base station baseband chip is used for connecting with mobile communication equipment through a mobile communication network and acquiring an equipment identification code sent by the mobile communication equipment, wherein the mobile communication network is generated by the base station baseband chip; the network communication module is connected with the base station baseband chip and is used for acquiring the equipment identification code from the base station baseband chip; and the processor is connected with the network communication module and is used for acquiring the equipment identification code from the network communication module and processing the equipment identification code to obtain a processing result, wherein the processing result at least comprises health information of an object holding the mobile communication equipment.

Further, the intelligent sentry system further comprises: and the temperature measuring module is connected with the processor and used for collecting the body temperature information of the object with the mobile communication equipment.

Further, the intelligent sentry system further comprises: and the image acquisition module is connected with the processor and is used for acquiring video image information of an object holding the mobile communication equipment.

Further, the intelligent sentry system further comprises: the first chip is connected with the processor and used for encrypting the data of the equipment identification code.

Further, the intelligent sentry system further comprises: and the positioning module is connected with the processor and used for collecting the position information of the object holding the mobile communication equipment.

Further, the intelligent sentry system further comprises: the wireless communication unit is connected with the processor and is used for transmitting the processing result in the form of a wireless signal; and the second chip is connected with the processor and used for transmitting the processing result in the form of a network signal.

Further, the intelligent sentry system further comprises: and the terminal equipment is connected with the wireless communication unit and the second chip and is used for acquiring the processing result from the wireless communication unit and/or the second chip.

Further, the intelligent sentry system further comprises: and the signal transceiver is connected with the base station baseband chip and is used for receiving signals of the mobile communication network generated by the base station baseband chip.

Further, the intelligent sentry system further comprises: and the signal amplifier is connected with the signal transceiver and is used for acquiring the signals of the mobile communication network from the signal transceiver and amplifying the signals of the mobile communication network.

Further, the intelligent sentry system further comprises: a computer readable storage medium coupled to the processor for storing processing results generated by the processor.

According to another aspect of embodiments of the present utility model, there is also provided a number intelligence sentinel device, including a number intelligence sentinel system.

In the utility model, the intelligent guard system consists of a base station baseband chip, mobile communication equipment, a network communication module and a processor. The mobile communication equipment is used for sending an equipment identification code, wherein the equipment identification code is a unique identification of the mobile communication equipment; the base station baseband chip is used for connecting with mobile communication equipment through a mobile communication network and acquiring an equipment identification code sent by the mobile communication equipment, wherein the mobile communication network is generated by the base station baseband chip; the network communication module is connected with the base station baseband chip and is used for acquiring the equipment identification code from the base station baseband chip; and the processor is connected with the network communication module and is used for acquiring the equipment identification code from the network communication module and processing the equipment identification code to obtain a processing result, wherein the processing result at least comprises health information of an object holding the mobile communication equipment.

As can be seen from the above, in the present utility model, when an object holding a mobile communication device enters a mobile communication network range generated by a base station baseband chip, the base station baseband chip is automatically connected with the mobile communication device through the mobile communication network, acquires a device identification code transmitted by the mobile communication device, and then transmits the device identification code to a processor through a network communication module, and the processor obtains health information of the object holding the mobile communication device based on the device identification code without sense, thereby solving the problem that the prior art cannot collect user information without sense.

Therefore, the scheme provided by the utility model achieves the purpose of non-sensibilization acquisition of the user information of the intelligent whistle system, thereby realizing the technical effect of non-sensibilization acquisition of the user information and further solving the technical problem that the intelligent whistle system in the prior art cannot collect the user information.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic diagram of a digital intelligence sentinel system in accordance with an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a digital intelligence sentinel system composition in accordance with an embodiment of the present utility model;

FIG. 3 is a schematic diagram of the infrastructure of a digital intelligence sentinel system in accordance with an embodiment of the utility model;

FIG. 4 is a flow chart of an application of a mental sentinel system in accordance with an embodiment of the present utility model;

fig. 5 is a schematic diagram of the structure of a digital intelligence sentinel system in accordance with an embodiment of the utility model.

The following is a related explanation and explanation of the reference numerals:

100-a mobile communication device; 200-base station baseband chip; 300-a network communication module; 400-a processor; 500-a temperature measurement module; 600-an image acquisition module; 700-a first chip; 800-a positioning module; 900-a wireless communication unit; 1000-a second chip; 1200-signal transceiver; 1300-a signal amplifier; 1400-computer-readable storage medium; 1500-input/output interface; 1600-DDR (Double Data Rate) memory; 1700-eMMC (Embedded Multi Media Card) flash memory; 1800-RJ45 interface; 1900-clock and power management module.

Detailed Description

In order that those skilled in the art will better understand the present utility model, a technical solution in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

According to an embodiment of the present utility model, there is provided an embodiment of a digital intelligence sentinel system, as shown in fig. 1, the system at least comprising: the intelligent sentry system is an information acquisition system and comprises mobile communication equipment (100), a base station baseband chip (200), a network communication module (300) and a processor (400).

The mobile communication device (100) is configured to send a device identification code, where the device identification code is a unique identifier of the mobile communication device (100).

Optionally, the mobile communication device (100) includes, but is not limited to, a mobile phone, a notebook computer, a tablet computer, and the like, and the device identification code is an IMSI (International Mobile Subscriber Identity ) of the mobile communication device (100).

And a base station baseband chip (200) for connecting with the mobile communication device (100) through a mobile communication network and acquiring a device identification code transmitted by the mobile communication device (100), wherein the mobile communication network is generated by the base station baseband chip (200).

Optionally, as shown in fig. 2, the base station baseband chip (200) includes a 4G micro base station (e.g. pico base station) module, i.e. pico base station module, configured to generate a mobile communication network, provide mobile service for an object holding a mobile communication device within the range of the mobile communication network, and acquire a device identification code sent by the mobile communication device (100), where the mobile communication network may be a 4G network. For example, after the base station baseband chip (200) is started, the processor (400) is reported its own status by heartbeat and alarm events. Then, a mobile communication network is established, when the mobile phone of the user is in the coverage range of the mobile communication network, RRC connection is established between the mobile communication network and a micro base station of a base station baseband chip (200), the RRC connection establishment process comprises information such as mobile phone identification and the like, mobile phone registration and authentication are initiated to a micro base station gateway through the micro base station, and after the mobile phone of the user is successfully registered, the micro base station of the base station baseband chip (200) acquires an equipment identification code IMSI.

It should be noted that, the mobile communication network generated by the base station baseband chip is automatically connected with the mobile communication device, so that the device identification code sent by the mobile communication device can be automatically obtained, the effect of obtaining the device identification code of the mobile communication device of the user without sense is realized, and preparation is made for the subsequent acquisition of the user information.

And the network communication module (300) is connected with the base station baseband chip (200) and is used for acquiring the equipment identification code from the base station baseband chip (200).

Optionally, as shown in fig. 1, the network communication module (300) is connected to the base station baseband chip (200) through an ethernet or other internal high-speed bus, and obtains the device identification code from the base station baseband chip (200). Optionally, the network communication module (300) is further configured to access a pico-base station module (4G micro-base station module) inside the base station baseband chip (200) to a backhaul network of an LTE (Long Term Evolution ) core network.

Optionally, the network communication module (300) includes at least a network interface for 4G/5G communication and a backhaul network, where the backhaul network may be a PON (passive optical network), a PTN (packet transport network ) or other high-speed broadband network.

And the processor (400) is connected with the network communication module (300) and is used for acquiring the equipment identification code from the network communication module (300) and processing the equipment identification code to obtain a processing result, wherein the processing result at least comprises health information of an object holding the mobile communication equipment (100).

Optionally, after the processor (400) obtains the device identification code from the network communication module (300), a health query request is generated by processing the device identification code, and the health query request is sent to a personal health information query service provided by the health information query platform, and the personal health information query service provided by the health information query platform returns the health information of the encrypted and desensitized object (such as a user) holding the mobile communication device (100) to the system.

Optionally, as shown in fig. 2, the processor (400) is a core control module, which includes: the intelligent sensing module is used for receiving and analyzing image data acquired by the image acquisition module (namely the video acquisition module), comprises a video stream, a picture stream and the like, can detect and track personnel in the video stream, judge the entering and exiting directions of the personnel, establish a temporary face and a human body feature library, allocate temporary personnel ID for the personnel after feature matching and duplication removal, and judge and count the passing directions, residence time and passing times of the personnel. The people flow statistics module can carry out statistical analysis on face recognition, human body recognition and IMSI, for example, the number of people entering and exiting in the entrance area and the number of people exiting and exiting in the entrance area managed by the real-time sensing device, and the people in the area and the people in the entrance area, the people in the exit area, the people in the entrance area, the number of people entering and exiting in the entrance area, the aggregation early warning and the like are counted according to requirements.

In this embodiment, as shown in fig. 2, the intelligent sentinel system further includes: the system comprises a display module, an audio output module, a printing module, an audible and visual warning module, an audio acquisition module, a two-dimensional code module, an NFC module and a passing control module, wherein the passing control module is used for controlling the opening and closing of a gate and an electric door.

As can be seen from the above, in this embodiment, the intelligent guard system is composed of a base station baseband chip, a mobile communication device, a network communication module, and a processor. The mobile communication equipment is used for sending an equipment identification code, wherein the equipment identification code is a unique identification of the mobile communication equipment; the base station baseband chip is used for connecting with mobile communication equipment through a mobile communication network and acquiring an equipment identification code sent by the mobile communication equipment, wherein the mobile communication network is generated by the base station baseband chip; the network communication module is connected with the base station baseband chip and is used for acquiring the equipment identification code from the base station baseband chip; and the processor is connected with the network communication module and is used for acquiring the equipment identification code from the network communication module and processing the equipment identification code to obtain a processing result, wherein the processing result at least comprises health information of an object holding the mobile communication equipment.

It is easy to note that in this embodiment, when an object holding a mobile communication device enters a mobile communication network range generated by a base station baseband chip, the base station baseband chip is automatically connected with the mobile communication device through the mobile communication network, acquires a device identification code sent by the mobile communication device, and then sends the device identification code to a processor through a network communication module, and the processor obtains health information of the object holding the mobile communication device based on the device identification code without sense, thereby solving the problem that the prior art cannot collect user information without sense.

Therefore, the scheme provided by the utility model achieves the purpose of non-sensibilization acquisition of the user information of the intelligent whistle system, thereby realizing the technical effect of non-sensibilization acquisition of the user information and further solving the technical problem that the intelligent whistle system in the prior art cannot collect the user information.

In an alternative embodiment, the intelligent sentinel system further comprises: and the temperature measuring module (500) is connected with the processor (400) and is used for collecting the body temperature information of the object holding the mobile communication equipment (100).

Optionally, as shown in fig. 3, the temperature measurement module (500) of the system is connected to the processor (400) and is used for collecting the human body temperature data of the object holding the mobile communication device (100), and the temperature data can be displayed on the display module of the system.

Further, the intelligent sentry system further comprises: and the image acquisition module (600) is connected with the processor (400) and is used for acquiring video image information of an object holding the mobile communication device (100).

Optionally, as shown in fig. 3, the image acquisition module (600) may be a main camera at the top of the device for face recognition and temperature measurement, or may be a monitoring camera, a face capturing camera, or other devices, and is connected to the processor (400) and configured to acquire video image information of an object holding the mobile communication device (100). When an object with the mobile communication equipment (100) enters a camera acquisition area, the display module synchronously displays a camera acquisition picture.

Further, the intelligent sentry system further comprises: the first chip (700) is connected with the processor (400) and used for encrypting the data of the equipment identification code.

Optionally, as shown in fig. 3, the first chip (700) is connected to the processor (400), where the chip includes the secure encryption module shown in fig. 2, and is used to implement bidirectional authentication between the system and the server, and perform data encryption on user information such as a device identification code.

Further, the intelligent sentry system further comprises: and the positioning module (800) is connected with the processor (400) and is used for collecting the position information of the object holding the mobile communication device (100).

Optionally, as shown in fig. 3, the positioning module (800) is connected to the processor (400) and is configured to collect current location information of an object holding the mobile communication device (100).

Further, the intelligent sentry system further comprises: a wireless communication unit (900) connected to the processor (400) for transmitting the processing result in the form of a wireless signal; and the second chip (1000) is connected with the processor (400) and is used for transmitting the processing result in the form of a network signal.

Further, the intelligent sentry system further comprises: and the terminal equipment (1100) is connected with the wireless communication unit (900) and the second chip (1000) and is used for acquiring the processing result from the wireless communication unit (900) and/or the second chip (1000).

Optionally, as shown in fig. 3, the wireless communication unit (900) is connected to the processor (400), where the wireless communication unit includes one or more wireless network interfaces, for example, one or more network interfaces of a WLAN, and is connected to the terminal device (1100) through the wireless network interfaces, and is capable of transmitting the processing result to the terminal device (1100) in the form of a wireless signal.

Optionally, as shown in fig. 3, the second chip (1000) is connected to the processor (400), where the chip includes one or more network interfaces of ethernet, and is connected to the terminal device (1100) through the network interface of ethernet, and can transmit the processing result to the terminal device (1100) in the form of a network signal.

Optionally, the terminal device (1100) includes, but is not limited to, a computer display device for displaying the processing result on a display screen of the terminal device (1100) after the processing result is acquired.

Further, the intelligent sentry system further comprises: and a signal transceiver (1200) connected to the base station baseband chip (200) for receiving signals of the mobile communication network generated by the base station baseband chip (200).

Further, the intelligent sentry system further comprises: and a signal amplifier (1300) connected to the signal transceiver (1200) for acquiring the signal of the mobile communication network from the signal transceiver (1200) and amplifying the signal of the mobile communication network.

Optionally, as shown in fig. 3, a base station baseband chip (200) of the system is connected with a signal transceiver (1200) and a signal amplifier (1300), when the base station baseband chip (200) generates a mobile communication network, the signal transceiver (1200) receives a signal of the mobile communication network, and then the signal amplifier (1300) acquires the signal of the mobile communication network from the signal transceiver (1200) and amplifies the signal of the mobile communication network, so that the signal range of the mobile communication network is enlarged.

Further, the intelligent sentry system further comprises: a computer readable storage medium (1400), coupled to the processor (400), for storing processing results generated by the processor (400).

Optionally, the computer readable storage medium (1400) includes DDR (Double Data Rate) memory and eMMC (Embedded Multi Media Card) flash memory for storing processing results generated by the processor (400).

Optionally, as shown in fig. 3, the intelligent sentinel system further includes: and the input/output interface (1500) is connected with the processor (400) and is used for connecting other external input devices such as a mouse and the like. And the DDR memory (1600) is connected with the base station baseband chip (200) and is used for storing data. And the eMMC flash memory (1700) is connected with the base station baseband chip (200) and is used for storing data. An RJ45 interface (1800) is connected to the second chip (1000), as is a network jack. A clock and power management module (1900) is coupled to the processor (400) and the base station baseband chip (200) for providing power and providing time data, such as generating a log storage time when the system is log storing.

In an alternative embodiment, for convenience in describing the intelligent guard system of the present utility model, the following description is made in connection with an application scenario of the intelligent guard system. As shown in fig. 4, after the base station baseband chip (200) is started, a mobile communication network is created, a user mobile phone enters a coverage area of the mobile communication network, performs area reselection, residence and RRC registration, and is connected with the base station baseband chip, the base station baseband chip acquires an IMSI reported by the mobile phone, the base station baseband chip reports IMSI and pico-cell information to the health information query platform through an encrypted tunnel, the health information query platform analyzes and processes information reported by the base station baseband chip pico-cell, and combines operator data to acquire user information (such as identification card number, mobile phone number, personnel health state and the like) corresponding to the IMSI, thereby forming personnel space-time correlation data. When a user approaches the mobile communication network according to the prompt of the man-machine interaction module, the base station baseband chip judges whether the mobile phone approaches according to the signal intensity measured value reported by the mobile phone, meanwhile, the mobile phone acquires the face and the questioning information according to the camera and the temperature measuring module to generate a health query request, encrypts and sends the health query request to the personal health information query service provided by the health information query platform, and the health information query platform returns the encrypted and desensitized personal health information query result to the system according to the provided personal health information query service.

Optionally, when the personal health information inquiry result is abnormal, the user can be prompted to contact the on-site staff to carry out information verification through the man-machine interaction module and the sound-light alarm module.

In another alternative embodiment, for convenience in describing the intelligent guard system of the present utility model, the following description is made in connection with an application scenario of the intelligent guard system. In the utility model, the system supports self-help authorization registration of users such as visitor reservation, employee entry and the like, and takes the mobile communication equipment as a pass certificate. The specific application scene is as follows: when a user approaches a mobile communication network, the base station baseband chip judges whether the mobile phone is higher than a set threshold value according to a signal strength measured value reported by the mobile phone, and judges whether the user is conducting autonomous card punching operation. The base station baseband chip sends the encrypted data of the IMSI identification code to an authentication and authorization module in the processor, and the authentication and authorization module starts a user authorization process. The authorization authentication module controls the display module and the audio output module through the man-machine interaction module to guide the user to carry out information registration verification and authorization binding. The user authorization module sends a user registration request to the service server shown in fig. 2, which validates the user registration request and returns a registration result token. The authorization authentication module displays a two-dimensional code of the registration applet on a screen of the display module, wherein the two-dimensional code comprises an ID and a hash value of the encrypted registration result token, a user performs visitor reservation, employee registration information registration and verification operation on the applet after scanning the code by using a mobile phone, and the acquired information can comprise identity information, face characteristic information, an IMSI (international mobile subscriber identity) identification code, the ID and the hash value of the registration result token and the like. The service server receives registration information submitted by the applet, after verification is completed and registration is successful, the mobile phone of the user can be used as a pass certificate, and when the reported signal strength measured value is higher than a threshold value when the user passes through the coverage area of the mobile communication network, the device can automatically perform operations such as card punching, authority verification, health information registration verification, pass control and the like.

Optionally, the information and the query result acquired by the system are not stored locally, and the query request and the query result (such as health information) adopt technologies of encryption storage, encryption transmission, desensitization display and the like, so that the data are stored in the cloud platform, and personal information security is ensured.

In another alternative embodiment, as shown in fig. 5, the intelligent guard system may cut out based on the original module, change the product form, and only reserve the pico-cell antenna, the pico-cell board (i.e. the base-cell baseband chip), the processor (i.e. the main control board in fig. 5), and the data backhaul module (i.e. the WIFI antenna corresponding to the network interface in fig. 5, and the ethernet POE port (i.e. POE RJ 45)). Or an image acquisition module (such as a visible light camera and a surrounding camera), a people flow statistics module, an infrared thermal imaging temperature measurement function and the like are added on the basis, and an audio input function and an audio output function are provided, such as human-computer interaction capability of voice intercom or audible and visual alarm indication. The product appearance structure is changed from a stand column shape into a wall-hanging, ceiling-mounted or vehicle-mounted small-sized device, and is used as an independent component for personnel perception and epidemic prevention information acquisition and integrated in equipment such as intelligent lamp posts, alarm stand columns, intelligent sentry boxes, service robots and the like.

As can be seen from the above, the scheme provided by the present embodiment can provide a non-sensitive epidemic prevention information collection means and an entrance/exit passage verification means. And a non-contact personal health information inquiry means is provided, so that the risk of cross infection is reduced. And the pico-cell is utilized to provide personal information security, so that minimized acquisition is realized, and analysis and comparison of personal health information are performed in a trusted execution environment of a health information query platform of the government cloud.

The foregoing embodiment numbers of the present utility model are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

In the foregoing embodiments of the present utility model, the descriptions of the embodiments are emphasized, and for a portion of this disclosure that is not described in detail in this embodiment, reference is made to the related descriptions of other embodiments.

In the embodiments provided in the present utility model, it should be understood that the disclosed technology may be implemented in other manners. The above-described embodiments of the apparatus are merely exemplary, and the division of units may be a logic function division, and there may be another division manner in actual implementation, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some interfaces, units or modules, or may be in electrical or other forms.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed over a plurality of units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

The foregoing is merely a preferred embodiment of the present utility model and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present utility model, which are intended to be comprehended within the scope of the present utility model.

Claims (11)

1. A number intelligence sentinel system, comprising:

a mobile communication device (100) for transmitting a device identification code, wherein the device identification code is a unique identification of the mobile communication device (100);

a base station baseband chip (200) for connecting with the mobile communication device (100) through a mobile communication network and acquiring a device identification code transmitted by the mobile communication device (100), wherein the mobile communication network is generated by the base station baseband chip (200);

the network communication module (300) is connected with the base station baseband chip (200) and is used for acquiring the equipment identification code from the base station baseband chip (200);

and the processor (400) is connected with the network communication module (300) and is used for acquiring the equipment identification code from the network communication module (300) and processing the equipment identification code to obtain a processing result, wherein the processing result at least comprises health information of an object holding the mobile communication equipment (100).

2. The number intelligence sentinel system of claim 1, further comprising:

and the temperature measuring module (500) is connected with the processor (400) and is used for collecting the body temperature information of the object holding the mobile communication equipment (100).

3. The number intelligence sentinel system of claim 1, further comprising:

and the image acquisition module (600) is connected with the processor (400) and is used for acquiring video image information of an object holding the mobile communication device (100).

4. The number intelligence sentinel system of claim 1, further comprising:

and the first chip (700) is connected with the processor (400) and is used for encrypting the data of the equipment identification code.

5. The number intelligence sentinel system of claim 1, further comprising:

and the positioning module (800) is connected with the processor (400) and is used for collecting the position information of the object holding the mobile communication device (100).

6. The number intelligence sentinel system of claim 1, further comprising:

a wireless communication unit (900) connected to the processor (400) for transmitting the processing result in the form of a wireless signal;

and the second chip (1000) is connected with the processor (400) and is used for transmitting the processing result in the form of a network signal.

7. The number intelligence sentinel system of claim 6, further comprising:

and the terminal equipment (1100) is connected with the wireless communication unit (900) and the second chip (1000) and is used for acquiring the processing result from the wireless communication unit (900) and/or the second chip (1000).

8. The number intelligence sentinel system of claim 1, further comprising:

and the signal transceiver (1200) is connected with the base station baseband chip (200) and is used for receiving signals of the mobile communication network generated by the base station baseband chip (200).

9. The number intelligence sentinel system of claim 8, further comprising:

and a signal amplifier (1300) connected to the signal transceiver (1200) for acquiring the signal of the mobile communication network from the signal transceiver (1200) and amplifying the signal of the mobile communication network.

10. The number intelligence sentinel system of claim 1, further comprising:

a computer readable storage medium (1400) coupled to the processor (400) for storing processing results generated by the processor (400).

11. A mental sentinel device comprising a mental sentinel system as claimed in any of claims 1 to 10.