CN118155363A - Remote monitoring system for community building linkage alarm - Google Patents

Abstract

The invention discloses a remote monitoring system for community building linkage alarm, and belongs to the technical field of new information. The system comprises a linkage alarm control module, a centralized monitoring center and a wireless communication network; the linkage alarm control module comprises a plurality of environment sensors, a video monitoring device and an intrusion detection unit; the centralized monitoring center comprises a data analysis processor, a display screen and an emergency response controller; the data analysis processor is used for receiving and analyzing the data transmitted by the linkage alarm control module, the display screen is used for displaying the analysis result in real time, and the emergency response controller is used for starting an emergency plan when an abnormal event is detected; the wireless communication network includes a plurality of routers and communication satellites for connection with a remote monitoring center. The remote monitoring system for community building linkage alarm provides a safe, efficient and intelligent safety monitoring solution for communities through advanced design and integration functions.

Description

Remote monitoring system for community building linkage alarm

Technical Field

The invention belongs to the technical field of new information, and particularly relates to a remote monitoring system for community building linkage alarm.

Background

The traditional building alarm systems are mostly independent systems in a single building, and lack effective cross-building linkage and remote monitoring capability, so that obvious defects exist in the aspects of emergency treatment, safety improvement and false alarm reduction. Traditional community building alarm systems rely mainly on wired sensors and alarm devices such as smoke detectors, temperature sensors, intrusion detectors, etc. When the sensors detect abnormal conditions, local alarm signals are triggered, but the signals are often limited to a single building, and effective coverage of the whole community is difficult to achieve. In addition, the monitoring center of the traditional system often needs to be manually attended, and monitoring personnel can check the safety condition of each building through a monitoring screen, so that the mode has limitations on resource allocation and response speed. In the event of an emergency, such as a fire or a security event, a rescue delay may be caused due to a lack of an effective information sharing and linkage mechanism, increasing security risks.

To overcome these limitations, modern community building linked alarm remote monitoring systems began to employ more advanced technologies:

1. Wireless communication technology: the wireless sensor network is used for realizing rapid information transmission and linkage between buildings, so that the response speed and reliability of the system are improved.

2. Centralized monitoring and analysis: and the alarm information from each building is intensively processed in a remote monitoring center by utilizing cloud computing and big data analysis technology, so that intelligent analysis and quick decision are realized.

3. Mobile internet application: through the mobile application program, property management personnel and residents are allowed to receive alarm notification on mobile equipment in real time, and information transmission efficiency is improved.

4. Automatic linkage mechanism: the system can automatically start linkage alarm across buildings when an emergency situation is detected, and the linkage alarm comprises automatic notification of emergency services such as fire protection, medical treatment and the like.

5. Video monitoring integration: the integrated video monitoring function, the remote monitoring center can look over the condition inside and outside the building in real time, provide more information for emergency response.

Through the application of the technologies, the remote monitoring system for community building linkage alarm can provide more comprehensive and efficient safety management service and ensure the life and property safety of community residents. With the continued advancement of technology, future remote monitoring systems will be more intelligent and automated, providing more accurate and rapid safety responses.

Disclosure of Invention

1. Problems to be solved

Aiming at the problems in the prior art, the invention provides a remote monitoring system for community building linkage alarm, which provides a safe, efficient and intelligent safety monitoring solution for communities through advanced design and integration functions.

2. Technical proposal

In order to solve the problems, the invention adopts the following technical scheme.

A remote monitoring system for community building linkage alarm comprises a linkage alarm control module, a centralized monitoring center and a wireless communication network;

The linkage alarm control module comprises a plurality of environment sensors, a video monitoring device and an intrusion detection unit;

The environment sensor is arranged at a key position of the building, the video monitoring device is arranged at an entrance, an exit and an important public area of the building, and the intrusion detection unit is arranged at a surrounding protection area of the building;

The centralized monitoring center comprises a data analysis processor, a display screen and an emergency response controller;

the data analysis processor is used for receiving and analyzing the data transmitted by the linkage alarm control module, the display screen is used for displaying the analysis result in real time, and the emergency response controller is used for starting an emergency plan when an abnormal event is detected;

the wireless communication network comprises a plurality of routers and communication satellites, wherein the routers are distributed in all buildings of a community and used for realizing wireless data transmission among the buildings, and the communication satellites are used for being connected with a remote monitoring center.

The remote monitoring system for community building linkage alarm,

The environment sensor comprises a smoke detector and a temperature sensor;

and the smoke detector and the temperature sensor are respectively in communication connection with the centralized monitoring center.

The remote monitoring system for community building linkage alarm,

The video monitoring device comprises a fixed camera and a rotary camera;

the fixed camera and the rotary camera are in communication connection with the centralized monitoring center.

The remote monitoring system for community building linkage alarm,

The system also comprises a mobile application communication module which is in communication connection with the centralized monitoring center and is used for sending alarm notification to management personnel and residents.

The remote monitoring system for community building linkage alarm,

The emergency response controller comprises an automatic linkage starting unit, wherein the automatic linkage starting unit is used for automatically informing fire protection and medical treatment when an emergency situation is detected, and the automatic linkage starting unit is connected with the mobile application communication module.

The remote monitoring system for community building linkage alarm,

The intelligent monitoring system also comprises a safety monitoring module, wherein the safety monitoring module is connected with the centralized monitoring center, and the safety monitoring module is arranged at a safety outlet of a building.

The remote monitoring system for community building linkage alarm,

The intrusion detection unit comprises a geomagnetic sensor and an infrared detector;

The geomagnetic sensor and the infrared detector are in communication connection with the centralized monitoring center.

The remote monitoring system for community building linkage alarm,

The linkage alarm control module also comprises an access control unit, wherein the access control unit is arranged at a main entrance of a building and is in communication connection with the centralized monitoring center.

3. Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

Real-time monitoring and emergency linkage between community buildings are realized: by arranging a plurality of environment sensors, a video monitoring device and an intrusion detection unit, the system can comprehensively monitor the internal environment and the external safety of the community building. When an abnormal event is detected, the centralized monitoring center can rapidly receive and analyze data, and an emergency plan is started, so that emergency linkage among buildings is realized. Providing efficient data transfer and processing capabilities: and a data analysis processor in the system receives data from the linkage alarm control module and performs quick analysis. The display screen displays the analysis result in real time, so that monitoring personnel can grasp the building state in real time, and the efficiency and accuracy of data processing are improved. Ensure the reliability and stability of remote monitoring: the wireless communication network is constructed by the router and the communication satellite, so that the stability of wireless data transmission between buildings and reliable connection with a remote monitoring center are ensured, and the overall communication capacity of the system is enhanced. Strengthen community safety protection and early warning function: the smoke detector and the temperature sensor of the environment sensor can timely find dangerous conditions such as fire disasters, and the alarm process is started rapidly through communication connection of the centralized monitoring center, so that the safety protection capability of communities is improved. The comprehensiveness and flexibility of video monitoring are improved: the combined use of fixed camera and rotation type camera has not only improved the coverage of control, has still increased the adjustment flexibility of control angle, has ensured the no dead angle control in key region. Optimizing the timeliness and coverage of alarm notifications: the mobile application communication module enables management personnel and residents to receive alarm notification at the first time, and can quickly respond wherever the management personnel and residents are located, so that the coverage and instantaneity of the alarm notification are improved. Enhancing the automatic linkage response in emergency situations: the automatic linkage starting unit in the emergency response controller can automatically inform relevant departments such as fire protection, medical treatment and the like when an emergency occurs, so that the response speed of emergency service is accelerated, and the emergency treatment efficiency is improved. The accuracy and timeliness of intrusion detection are enhanced: the application of the geomagnetic sensor and the infrared detector improves the accuracy of intrusion detection, can effectively identify and early warn illegal intrusion behaviors, and enhances the safety precaution capability of communities. Promote intelligent level of entrance guard management: the intelligent management of the main entrance of the building is realized by the arrangement of the access control unit, and the efficient operation and the safety monitoring of the access control system are ensured through the communication connection with the centralized monitoring center. In summary, the remote monitoring system for community building linkage alarm provides a safe, efficient and intelligent safety monitoring solution for communities through advanced design and integration functions.

Detailed Description

The invention is further described below in connection with specific embodiments.

Examples

The remote monitoring system for community building linkage alarm comprises a linkage alarm control module, a centralized monitoring center and a wireless communication network;

The linkage alarm control module comprises a plurality of environment sensors, a video monitoring device and an intrusion detection unit;

The environment sensor is arranged at a key position of the building, the video monitoring device is arranged at an entrance, an exit and an important public area of the building, and the intrusion detection unit is arranged at a surrounding protection area of the building;

The centralized monitoring center comprises a data analysis processor, a display screen and an emergency response controller;

the data analysis processor is used for receiving and analyzing the data transmitted by the linkage alarm control module, the display screen is used for displaying the analysis result in real time, and the emergency response controller is used for starting an emergency plan when an abnormal event is detected;

the wireless communication network comprises a plurality of routers and communication satellites, wherein the routers are distributed in all buildings of a community and used for realizing wireless data transmission among the buildings, and the communication satellites are used for being connected with a remote monitoring center.

In particular, a remote monitoring system for community building linked alarms is described herein, which aims to improve the effectiveness of community security management through highly integrated technical means. The system consists of three main parts: the system comprises a linkage alarm control module, a centralized monitoring center and a wireless communication network. First, the linkage alarm control module is the front end part of the system, and consists of a plurality of environment sensors, a video monitoring device and an intrusion detection unit. Environmental sensors include smoke detectors, temperature sensors, harmful gas detectors, etc., all to monitor environmental changes that may pose a threat to resident security. These environmental sensors are carefully deployed in strategic locations of the building, such as elevator cabs, stairway exits, machine rooms, etc., to enable rapid detection of emergency situations such as fires, gas leaks, etc. The video monitoring device is arranged at an entrance, an exit and an important public area of a building, such as a hall, a corridor, a parking lot and the like, is not only used for daily safety monitoring, but also can provide on-site video when an emergency occurs, and helps to determine the nature and the scale of an event. Meanwhile, the intrusion detection units are deployed in surrounding protection areas of the building and comprise infrared detectors, electronic fences, ground vibration sensors and the like, and are used for detecting unauthorized intrusion behaviors and guaranteeing physical safety of communities. The centralized monitoring center is a command and control core of the system and consists of a data analysis processor, a display screen and an emergency response controller. The data analysis processor is responsible for receiving data from the linkage alarm control module and analyzing the data in real time to judge whether an abnormal condition exists. The display screen is used for displaying analysis results in real time and monitoring video streams, so that monitoring personnel can know the safety condition of the community in real time. The emergency response controller is responsible for starting an emergency plan when an abnormal event is detected, such as an automatic alarm, a notification of fire control and other related departments, or starting an emergency broadcasting system in a community, so as to guide residents to take corresponding safety measures. The wireless communication network is responsible for contacting the linkage alarm control module at the front end and the centralized monitoring center at the rear end. The network includes a plurality of routers and communication satellites. The routers are distributed in each building of the community and used for realizing wireless data transmission among the buildings, and stability and instantaneity of data transmission are guaranteed. The communication satellite is used for being connected with a remote monitoring center, so that the operation of the monitoring system can be maintained when the ground network is blocked.

In addition, the remote monitoring system also has data storage and analysis capability, can carry out long-term storage and historical trend analysis on the collected data, and provides decision support for community security management. The system may also interface with smart phones or other mobile device applications so that community administrators and residents can receive security alarms and status updates anywhere and anytime.

In general, the remote monitoring system for community building linkage alarm provides an omnibearing and multi-layer guarantee system for community safety through high integration and intellectualization. Through real-time monitoring, quick response and scientific management, the precaution capability of communities and the efficiency of coping with emergency events are greatly improved.

The remote monitoring system for community building linkage alarm,

The environment sensor comprises a smoke detector and a temperature sensor;

the smoke detector and the temperature sensor are respectively in communication connection with the centralized monitoring center; the video monitoring device comprises a fixed camera and a rotary camera;

The fixed camera and the rotary camera are both in communication connection with the centralized monitoring center; the system also comprises a mobile application communication module which is in communication connection with the centralized monitoring center and is used for sending alarm notification to management personnel and residents. In the remote monitoring system for community building linkage alarm, the function of the environment sensors is important, and the environment sensors serve as a first defense line, so that powerful guarantee is provided for the safety of residents. These environmental sensors include smoke detectors and temperature sensors that are designed to be in real-time communication with a centralized monitoring center. The smoke detector can timely detect smoke generated by a fire, and the temperature sensor can monitor abnormal temperature changes, and the changes possibly indicate the occurrence of the fire or other dangerous conditions. When the sensors detect abnormal conditions, the sensors immediately transmit signals to a centralized monitoring center, and staff of the monitoring center can quickly take corresponding emergency measures. The video monitoring device is another key component in the system and comprises a fixed camera and a rotary camera. Fixed cameras are typically installed at specific monitoring points, such as hall entrances, elevator exits, etc., for continuous monitoring of a specific area. The rotary camera has greater flexibility, and can remotely control the rotation angle and the focal length, thereby realizing the monitoring of a larger range. The cameras are all in communication connection with the centralized monitoring center, so that the monitoring center can receive real-time video streams, and monitoring personnel can comprehensively monitor and evaluate the safety conditions of communities through the video streams. In order to further improve the response speed and convenience of the system, the remote monitoring system further comprises a mobile application communication module. The module is in communication connection with a centralized monitoring center and can send alarm notification to mobile equipment of management personnel and residents in real time. Whether a manager or resident, emergency notifications, such as fire alarms, intrusion alarms, etc., may be received by an application installed on the smartphone. Thus, even when away from home or work place, residents and management personnel can timely know the safety condition of the community and take corresponding actions. In addition, the remote monitoring system also comprises a standby power supply and a data backup mechanism in order to ensure the stability and the reliability of the system. In the event of an interruption in the power supply or a system failure, the backup power supply can ensure that the monitoring system continues to operate, while the data backup mechanism can prevent loss of important data. Meanwhile, the system also has a self-diagnosis function, and can periodically detect the working state of each component and timely discover and repair potential problems. The remote monitoring system for community building linkage alarm described herein is a highly integrated, intelligent safety management system. Through functions of real-time monitoring, quick response, mobile communication, self-diagnosis and the like, the system provides comprehensive and multi-level safety guarantee for community residents. The system not only can improve the safety level of communities, but also can improve the safety feeling and satisfaction of residents, and is an important tool for safety management of modern communities.

In addition, in the intelligent monitoring system, the camera can effectively identify and early warn various abnormal behaviors by combining an Artificial Intelligence (AI) visual algorithm. The following is a specific description of AI visual algorithms and their application details in abnormal behavior recognition:

abnormal behavior recognition algorithm

1. Deep learning algorithm

Algorithm overview: deep learning algorithms, particularly Convolutional Neural Networks (CNNs) and Recurrent Neural Networks (RNNs), are the dominant approach for abnormal behavior identification in video surveillance. These algorithms can automatically learn and extract features from a large amount of video data for training models to identify abnormal behavior.

Application details:

-overstay of non-community personnel: by extracting character features through CNN, and in conjunction with time series analysis (using RNN), the system can identify the length of time an individual has remained in the community. If the dwell time exceeds the set threshold, the system will determine an anomaly and issue a warning.

-Placing a small advertisement: using a target detection algorithm, such as YOLO (You Only Look Once) or SSD (Single Sho t MultiBox Detector), the camera can identify the particular advertisement decal shape and size. Once an object is detected that matches a known advertisement decal feature, the system considers the act of small advertisement.

-Fire setting: in combination with image segmentation and abnormal pattern recognition techniques, the system may detect flame and smoke features. This typically involves analysis of color, motion, and texture characteristics.

-Breaking the infrastructure: by setting a specific infrastructure model and using CNN for feature learning, the system can monitor the state changes of the infrastructure. In conjunction with anomaly detection algorithms, such as isolated forests or self-encoders, the system is able to identify changes that do not coincide with normal conditions.

2. Behavior recognition algorithm

Algorithm overview: behavior recognition algorithms, such as long and short memory networks (LSTM) and 3D-CNN, focus on learning and recognizing human behavior patterns from video sequences.

Application details:

By analyzing the motion trajectories and behavior patterns of the people in the video by LSTM, the system is able to identify abnormal behavior sequences.

3D-CNN is able to process a sequence of video frames, extracting spatiotemporal features for identifying complex patterns of behaviour, such as fire or vandalism.

3. Anomaly detection algorithm

Algorithm overview: anomaly detection algorithms, such as a Class of support vector machines (One-Class SVM) and self-encoders, are trained to recognize only normal behavior, and thus treat all behaviors that do not meet this pattern as anomalies.

Application details:

the system evaluates the new observations by training One-Class SVM on the normal behavior data and then using the model. If the score of the new data is below a certain threshold, the system marks it as anomalous.

-Learning features of normal behaviour by reconstructing the input data from the encoder. In the test phase, if the reconstruction error of the input data exceeds a threshold value, it is considered to be an abnormal behavior.

Implementation steps

1. And (3) data collection: first, a large amount of video data for normal and abnormal behavior needs to be collected for training the AI model.

2. Pretreatment: video data is preprocessed, including frame extraction, scaling, and normalization.

3. Feature extraction: key features are extracted from the video frames using a deep learning algorithm.

4. Model training: training an abnormal behavior recognition model on the marked data set.

5. Deployment and monitoring: and deploying the trained model into a camera system, and monitoring and analyzing the video stream in real time.

6. Abnormality detection and alarm: when the model identifies abnormal behavior, the system will automatically alert and notify security personnel.

Through the algorithm and the implementation steps, the intelligent monitoring system can effectively identify and respond to abnormal behaviors in the community, and the safety and order of the community are ensured.

In order to realize the linkage of the sensor and the camera so as to automatically align the dangerous occurrence area when the danger is detected, the following technology and algorithm can be adopted for detailed description:

Sensor data analysis algorithm

1. Threshold detection algorithm

Algorithm overview: a simple threshold detection algorithm may be used to determine when to trigger the camera alignment action. The data collected by the sensors (e.g., smoke, temperature, motion, or sound sensors) is compared to a preset safety threshold.

Application details:

when the sensor data exceeds a safety threshold, the system may consider the hazard to occur and trigger an alarm and camera alignment protocol.

2. Anomaly detection algorithm

Algorithm overview: more complex anomaly detection algorithms, such as isolated forests or self-encoders, can be used to process more complex sensor data and detect subtle anomaly patterns.

Application details:

These algorithms are trained on normal data to learn the normal mode. In real-time monitoring, any data that deviates from the normal mode is marked as anomalous and triggers camera alignment.

Camera alignment algorithm

PID control algorithm

Algorithm overview: a proportional-integral-derivative (PID) control algorithm is a commonly used feedback control algorithm for controlling the output of a system to track a desired input value.

Application details:

when the sensor detects a hazard, the PID control algorithm can control the servo mechanism of the camera to precisely adjust the angle of the camera to the hazard zone.

2. Image recognition algorithm

Algorithm overview: image recognition algorithms, such as CNN, may be used to analyze the real-time images captured by the cameras and determine the exact location of the hazard source.

Application details:

After the sensor triggers the camera, the image recognition algorithm analyzes the picture for visual features related to the hazard (e.g. flame, smoke, abnormal movements, etc.) and helps the camera focus on the most relevant area.

Implementation steps

1. Sensor deployment and monitoring: and deploying sensors in the key areas, and monitoring environment data in real time.

2. Data analysis and processing: the sensor data is analyzed in real-time and a threshold detection or anomaly detection algorithm is used to determine if there is a hazard.

3. Triggering by a camera: once a hazard is identified, the system triggers an alignment mechanism for the camera.

4. Positioning a camera: the angle of the camera is quickly adjusted using a PID control algorithm to align the area indicated by the sensor.

5. Image analysis: the real-time images captured by the cameras are further analyzed using an image recognition algorithm to ensure that the cameras are aimed at the source of the hazard.

6. Recording and responding: the camera records the picture when the danger occurs for subsequent analysis, and the system can take further response measures according to the situation, such as notifying security personnel or starting an automatic fire extinguishing system.

Through the algorithm and implementation steps, the camera can be ensured to be rapidly and accurately aligned to a dangerous area when the danger occurs, and key visual evidence is provided for emergency response and accident investigation.

The remote monitoring system for community building linkage alarm,

The emergency response controller comprises an automatic linkage starting unit, wherein the automatic linkage starting unit is used for automatically informing fire protection and medical treatment when an emergency situation is detected, and the automatic linkage starting unit is connected with the mobile application communication module.

The intelligent monitoring system also comprises a safety monitoring module, wherein the safety monitoring module is connected with the centralized monitoring center, and the safety monitoring module is arranged at a safety outlet of a building. The intrusion detection unit comprises a geomagnetic sensor and an infrared detector; the geomagnetic sensor and the infrared detector are in communication connection with the centralized monitoring center.

The linkage alarm control module also comprises an access control unit, wherein the access control unit is arranged at a main entrance of a building and is in communication connection with the centralized monitoring center.

The remote monitoring system for community building linkage alarm is a high-tech solution designed for community security and measurement. The system integrates various intelligent devices and modules to realize real-time monitoring and quick response to various potential security threats in communities.

An emergency response controller in the system is a key link for handling emergency situations and comprises an automatic linkage starting unit. This unit is capable of automatically executing a preset emergency program upon detection of an emergency situation, such as a fire, medical emergency or other safety accident. It immediately notifies fire, medical emergency centers and other related emergency services via the wireless communication network, ensuring that a response is obtained within a first time. Meanwhile, the automatic linkage starting unit is also connected with the mobile application communication module, so that emergency situations can be rapidly notified to community management personnel and residents, and necessary safety measures can be adopted by the community management personnel and residents.

The security monitoring module is a part of the system for enhancing community security exit monitoring. The system is connected with a centralized monitoring center and is arranged at a safety exit of a building. During emergency evacuation, the safety monitoring module can ensure the smoothness of the exit and monitor the evacuation process so as to prevent congestion and accidents. In addition, the safety monitoring module can monitor the exit area daily, and find and solve the obstacle possibly obstructing emergency evacuation in advance.

The intrusion detection unit is an important component of the community protection system and consists of a geomagnetic sensor and an infrared detector. Geomagnetic sensors are mainly used for detecting movement of large metal objects such as automobiles or other large devices, which are very effective in preventing illegal vehicles from invading a community. The infrared detector can detect the heat emitted by the human body, thereby monitoring the activities of unauthorized persons. The sensors are all in communication connection with a centralized monitoring center, ensuring that the monitoring center can take corresponding measures immediately once intrusion is detected.

Another key component of the linked alarm control module is an access control unit, which is disposed at a primary entrance of a building. The access control unit not only can control the access of personnel, but also can record the identity information of the access personnel, and the visitor management capability of the community is enhanced. In an emergency situation, the access control unit can also lock or unlock the access rapidly to assist emergency evacuation or prevent further threat spread. The unit is also in communication connection with a centralized monitoring center, so that the real-time monitoring and the remote control of the access control state are realized.

The remote monitoring system for community building linkage alarm also comprises other advanced functions such as face recognition, license plate recognition and the like, and the functions can further improve the intelligent level of community safety management. Face recognition techniques may be used in the access control unit to ensure that only authorized residents and visitors can enter the building. License plate recognition is used for community entrance and exit to monitor vehicle ingress and egress and to prevent intrusion of unauthorized vehicles.

In addition, the whole system adopts an encryption communication technology to ensure that all transmitted data are safe and prevent information leakage or malicious attack. The system has very strong expandability, and more sensors and monitoring devices can be added according to specific demands of communities.

In summary, the remote monitoring system for community building linkage alarm provides a comprehensive, efficient and reliable safety guarantee network for communities by combining high-end technology with intelligent equipment. Whether the safety accident is prevented or the quick response is performed in an emergency, the system can provide powerful support, and the safety management capability of communities is greatly improved.

The foregoing is a further elaboration of the present invention in connection with the detailed description, and it is not intended that the invention be limited to the specific embodiments shown, but rather that a number of simple deductions or substitutions be made by one of ordinary skill in the art without departing from the spirit of the invention, should be considered as falling within the scope of the invention as defined in the appended claims.

Claims (8)

1. A remote monitoring system for community building linkage alarm is characterized in that,

The system comprises a linkage alarm control module, a centralized monitoring center and a wireless communication network;

The linkage alarm control module comprises a plurality of environment sensors, a video monitoring device and an intrusion detection unit;

The environment sensor is arranged at a key position of the building, the video monitoring device is arranged at an entrance, an exit and an important public area of the building, and the intrusion detection unit is arranged at a surrounding protection area of the building;

The centralized monitoring center comprises a data analysis processor, a display screen and an emergency response controller;

the data analysis processor is used for receiving and analyzing the data transmitted by the linkage alarm control module, the display screen is used for displaying the analysis result in real time, and the emergency response controller is used for starting an emergency plan when an abnormal event is detected;

the wireless communication network comprises a plurality of routers and communication satellites, wherein the routers are distributed in all buildings of a community and used for realizing wireless data transmission among the buildings, and the communication satellites are used for being connected with a remote monitoring center.

2. The remote monitoring system for community building linked alarms of claim 1, wherein,

The environment sensor comprises a smoke detector and a temperature sensor;

and the smoke detector and the temperature sensor are respectively in communication connection with the centralized monitoring center.

3. The remote monitoring system for community building linked alarms of claim 2, wherein,

The video monitoring device comprises a fixed camera and a rotary camera;

the fixed camera and the rotary camera are in communication connection with the centralized monitoring center.

4. The remote monitoring system for community building linked alarms of claim 3, wherein,

The system also comprises a mobile application communication module which is in communication connection with the centralized monitoring center and is used for sending alarm notification to management personnel and residents.

5. The remote monitoring system for community building linked alarms of claim 4, wherein,

The emergency response controller comprises an automatic linkage starting unit, wherein the automatic linkage starting unit is used for automatically informing fire protection and medical treatment when an emergency situation is detected, and the automatic linkage starting unit is connected with the mobile application communication module.

6. The remote monitoring system for community building linked alarms of claim 5, wherein,

The intelligent monitoring system also comprises a safety monitoring module, wherein the safety monitoring module is connected with the centralized monitoring center, and the safety monitoring module is arranged at a safety outlet of a building.

7. The remote monitoring system for community building linked alarms of claim 6, wherein,

The intrusion detection unit comprises a geomagnetic sensor and an infrared detector;

The geomagnetic sensor and the infrared detector are in communication connection with the centralized monitoring center.

8. The remote monitoring system for community building linked alarms of claim 7, wherein,

The linkage alarm control module also comprises an access control unit, wherein the access control unit is arranged at a main entrance of a building and is in communication connection with the centralized monitoring center.