CN204389937U - Transit equipment overall process monitoring operation device - Google Patents

Abstract

A whole-process operation monitoring device for transportation equipment, including a front-end data acquisition module for collecting outfield data and infield data according to a set period, a data storage module for storing the collected front-end data, and realizing equipment abnormality detection and an alarm equipment monitoring module, which is used to notify the user of an alarm signal to an alarm reminder module; the equipment monitoring module includes a system for detecting and monitoring the basic assets entered in the system, and the alarm program sets the polling period for equipment network communication and Data anomaly detection, a system automatic alarm sub-module that automatically performs real-time tracking and display of the status of external field equipment and a manual alarm sub-module for manually entering alarm information into the system; the front-end data acquisition module is connected with the data storage module and equipment monitoring The modules are connected, and the equipment monitoring module is connected with the alarm reminder module. The utility model effectively realizes the operation monitoring of the whole process and has good interactivity.

Description

The whole process operation monitoring device of transportation equipment

technical field

The utility model belongs to the field of traffic equipment monitoring, and relates to a whole-process operation monitoring device of traffic equipment.

Background technique

Various cities have successively built smart transportation, and built a large number of supporting software and hardware facilities for transportation. For example, Nanchang has built more than 400 signal machines, including more than 3,000 lane coils, more than 300 geomagnetic equipment, more than 800 sections, more than 5,000 lanes, and other The equipment includes a large number of transportation equipment and facilities such as microwave, electric police, bayonet, video, and induction screens. In addition, it also includes a large number of IT equipment, such as servers, switches and so on.

Complaints from the IT department and the business department have many inconveniences in the maintenance project process: they cannot respond to the failures in a timely, automatic and accurate manner; there is no effective control method for the handling of the failures; Systematic communication channels cause a gap between service expectations and actual results; they cannot provide reliable quantitative service statistical analysis reports.

Contents of the invention

In order to overcome the shortages in the existing traffic field that there are many traffic devices and the maintenance and management of equipment status are not uniform, and the information interaction between maintenance companies and personnel and infield management personnel is not systematic, the utility model provides a system that effectively realizes the whole process of operation monitoring and interactive Excellent monitoring device for the whole process operation of transportation equipment.

The technical scheme that the utility model solves its technical problem adopts is:

A whole-process operation monitoring device for transportation equipment, including a front-end data acquisition module for collecting outfield data and infield data according to a set cycle, a data storage module for storing the collected front-end data, and for realizing abnormal detection of equipment and an alarm equipment monitoring module, which is used to notify the alarm signal to the user's alarm reminder module;

The outfield data includes individual soldiers, signal machines, bayonets, electric police, GPS, induction screens, geomagnetism and microwave signals; the infield data includes server CPU, memory and hard disk space usage; the equipment monitoring module includes It is used to detect and monitor the basic assets entered in the system. The polling cycle is set by the alarm program to detect equipment network communication and data anomalies. The manual alarm sub-module of the system for alarm information;

The front-end data acquisition module is connected with the data storage module and the equipment monitoring module, and the equipment monitoring module is connected with the alarm reminder module.

The beneficial effects of the utility model are mainly manifested in: 1. Comprehensiveness: the monitored equipment is comprehensive, which solves the problem of multi-equipment concurrent alarms, conducts unified management of all traffic equipment in the field, and displays its operating status in real time, and generates Alarm information. The system can automatically generate alarm information, and can also be manually entered to form alarm information. Users can grasp the current state of the device in real time based on this information, and can also check the state of the device at different time points through statistics. 2. Real-time: The alarm period is synchronized with the update period of the traffic equipment data, and the status of the outfield equipment is continuously and automatically detected, and the abnormal information of the equipment status is obtained according to the analysis of the original data and the alarm operation is performed. 3. Topology display: Take the system as a unit, display the real-time status and basic information of each device in the topology. When the alarm severity level of a device rises, the corresponding color and status on the topology display will change so that the specific Indicates the real-time operating status of the device.

Description of drawings

Fig. 1 is a schematic diagram of a monitoring device for the whole process of transportation equipment operation.

Detailed ways

Below in conjunction with accompanying drawing, the utility model is further described.

Referring to Fig. 1, a whole-process operation monitoring device for traffic equipment includes a front-end data acquisition module for collecting outfield data and infield data according to a set cycle, a data storage module for storing the collected front-end data, and a data storage module for The equipment monitoring module that realizes equipment abnormality detection and alarm, and the alarm reminder module that notifies the user of the alarm signal;

The outfield data includes individual soldiers, signal machines, bayonets, electric police, GPS, induction screens, geomagnetism and microwave signals; the infield data includes server CPU, memory and hard disk space usage; the equipment monitoring module includes It is used to detect and monitor the basic assets entered in the system. The polling cycle is set by the alarm program to detect equipment network communication and data anomalies. The manual alarm sub-module of the system for alarm information;

The front-end data acquisition module is connected with the data storage module and the equipment monitoring module, and the equipment monitoring module is connected with the alarm reminder module.

In the front-end data acquisition module, the types of equipment are individual soldiers, signal machines, bayonets, electric police, GPS, induction screens, geomagnetism, microwaves in the field; network equipment monitoring in the computer room: routers, servers, switches, etc.;

The collection indicators include: real-time traffic flow, occupancy rate, speed, and headway, among which signal machine every minute, bayonet crossing collection, geomagnetism once a minute, and microwave once a minute. Infield device indicators include operating information such as server CPU, memory, and hard disk space usage, as well as performance information of applications and related services running on them, such as response time of applications and services, system resource usage, self-performance indicators, and service availability. wait. CPU and memory usage of routers, switches, firewalls and other network devices; inbound and outbound traffic of each port, packet loss rate, error packet rate, bandwidth usage, device response time and other information, including basic parameters of oracle database, file system, and table space , Fragmentation, deadlock, SQL that consumes a lot of CPU, SQL that takes a long time and other status information.

The acquisition method includes: the geomagnetic data acquisition terminal uses a pressure sensor to obtain corresponding basic information after calculation through a peripheral terminal computer program, the data is stored on the terminal APCC, and the background server receives the configured push data from the front end through a tcp connection.

The data acquisition of the signal machine uses the front-end signal machine host computer program to save the data, and the background connects the front-end terminal to collect the basic data saved at the front end and analyze the data according to the corresponding xml protocol.

The bayonet electric police data is captured by the front-end camera and stored on the front-end industrial computer or camera. The backstage collects all the front-end data into the backstage storage through the corresponding interface provided by the manufacturer and applies the basic information data to the oracle. The video data collection uses the professional video cameras of Hikvision and Dahua to obtain real-time stream playback and storage, and the background obtains the basic data of the hardware running status of the front-end equipment through the corresponding SDK.

The induction screen can check whether the communication is normal by pinging the front-end equipment in the background. The front-end induction screen equipment also has temperature sensors, humidity sensors, photosensitive sensors, etc. to detect the operation status of the induction hardware. The background directly obtains these status applications through the communication protocol provided by the corresponding manufacturer. in the system.

Data storage module: the oracle database is combined with Hbase. The tables in the database include basic equipment information tables, asset tables, alarm tables, dictionary tables, rule bases, etc. In the table design, similar data types are established in one table. Differentiate by device type. The alarm information of all devices is unified into one table. This storage rule is to meet both Oracle and HBASE stored in column form to speed up the reading speed. Generally speaking, it is based on the existing oracle data storage, and at the same time, considering the storage of massive traffic data in the future, it is compatible with hbase, paving the way for future HBASE distributed storage and big data computing of intelligent transportation.

Equipment monitoring module: system monitoring consists of manual alarm and system automatic alarm. Detect and monitor the basic assets entered in the system, set the polling cycle by the alarm program to detect equipment network communication and data anomalies, automatically track and display the status of external equipment in real time, and also manually declare and record alarms to achieve manual and automatic declarations and alarms Function. Manual reporting and alarming is carried out by manual input of alarm information, and automatic alarm information is analyzed by the system on the original data uploaded by the equipment. Whether there is any abnormality in the original data, such as whether the flow of the geomagnetic checkpoint is uploaded as 0, whether there is any data, and the abnormal results of the analysis are converted into alarm information and recorded in the alarm information table. At present, there are several detections in the system, such as network communication anomalies and data anomaly alarms. Each type of alarm level can also be manually configured on the page to realize the controllability of system alarms. The system alarm level is divided into four levels, which are composed of general, early warning, serious, and serious. The degree to which the alarm is reached is configured by the manual configuration page. After the alarm program reads the configuration, it will match the program, and the program detection meets the alarm conditions. After that, an automatic alarm will be issued.

Alarm reminder module: After the system alarms, it can send alarm reminders by SMS, WeChat, Fetion, and email. The system uses the email and SMS server, which is used for the system to send email, SMS, and WeChat. The server is an independent application program. When the web client wants to send text messages or emails, it needs to convert the sent information into the corresponding Json format information and transmit it to the email and SMS server. The json protocol format is an internal custom format, and the email and SMS server accepts the protocol. Afterwards, a dedicated message sending operation is performed on the protocol analysis. The system can remind users of different forms of alarm information through these different ways.

The working process of this embodiment: first, install and configure the basic data collection program, and collect the data required by the system.

The storage of data adopts the combination of oracle and Base, and the data is stored in a similar way.

The modules of the whole system are system home page, maintenance management, operation monitoring, asset management, knowledge base, statistical analysis, electronic map, system management, etc.

The system logs in with the highest administrator authority, and the authority and functions of different users can be managed through system management. Under system management, there are role management, user management, system log and dictionary table maintenance and other operations for users to manage personnel.

Maintenance management and operation monitoring are used by the system to manage and record the alarm process. Operation monitoring manages the real-time status and alarms of different devices in each subsystem, and the real-time status is used to display the network topology.

The Asset Management and Statistical Analysis section is for managing the assets and statistics involved in the system. Statistical analysis is to count some alarm information and maintenance status information in the system.

Claims (1)

1. a transit equipment overall process monitoring operation device, it is characterized in that: described supervising device comprises field data for gathering according to the cycle of setting and the front end data acquisition module of interior field data, for the data memory module of the front end data of storage of collected, detect and the monitoring of tools module of reporting to the police, for alerting signal being notified the warning reminding module of user for realizing unit exception; Described field data comprises the signal of individual soldier, teleseme, bayonet socket, electricity police, GPS, induced screen, earth magnetism and microwave; Described internal field data comprise server CPU, internal memory and hard drive space utilization rate; Described monitoring of tools module comprises for carrying out test and monitoring to the basic assets of system typing, set polling cycle by alert program and carry out device network communication and data exception detection, automatically the system automatic alarm submodule of real-time follow-up display and the artificial warning submodule for being carried out system by manual entry warning message are carried out to airfield equipment state;

Described front end data acquisition module and described data memory module, monitoring of tools model calling, described monitoring of tools module and described warning reminding model calling.