CN112995258B - Front-end processor for monitoring environment of machine room - Google Patents

Abstract

The invention relates to a machine room environment monitoring front-end processor, which comprises a data receiving module, a data processing module and a data processing module, wherein the data receiving module is used for receiving data information uploaded by a subsystem; the data processing module is used for carrying out data conversion processing on the received or forwarded data; the data transmitting module is used for transmitting the converted data to the upper-level platform system; the data security detection module is used for performing security detection and identification on the received and transmitted data; the front-end processor is provided with a plurality of, has data transmission between a plurality of front-end processors, and a plurality of front-end processors include first front-end processor and second front-end processor, and the rear end of first front-end processor is arranged in to the second front-end processor, and data processing module of first front-end processor carries out data conversion with received data information and sends to the second front-end processor after first text, and data processing module of second front-end processor is with first text conversion second text uploading to upper platform system. The front-end processor performs multiple conversions on the data to ensure that the data is finally uploaded or issued in a uniform and stable format.

Description

Front-end processor for monitoring environment of machine room

Technical Field

The invention relates to a machine room environment monitoring front-end processor, which belongs to intermediate equipment in a data transmission process.

Background

The machine room environment monitoring is to perform centralized monitoring on power equipment and environment variables in various machine rooms by a pointer, a complete comprehensive power environment monitoring system can perform telemetering, remote signaling and other acquisition on distributed independent power equipment and machine room environments and machine room security monitoring objects, monitor the running states of the system and equipment and security in real time, record and process related data, timely detect faults, perform necessary remote control and remote regulation operation and timely inform personnel of processing; the system realizes the unattended operation of less people in the machine room, improves the reliability of the power supply system and the safety of communication equipment, and provides powerful technical support for the management automation, the operation intellectualization and the decision scientization of the machine room. The machine room environment monitoring front-end processor is used for solving the problem of interconnection and integrated communication equipment among various devices and systems in an automatic system. And collecting data of a plurality of different subsystems, carrying out centralized summarization, classification and preprocessing on the data, and carrying out data forwarding on a plurality of upper-level dispatching and other platform systems. The machine room environment monitoring front-end processor can be used as a distributed data acquisition device, an industrial protocol conversion gateway, an electric power communication server or a communication front-end processor and the like.

The current computer lab environmental monitoring front-end processor carries out unified conversion to data and can't satisfy the safety requirement of different data, and can't accomplish multiple protection, and stability and the security of data are not enough.

Disclosure of Invention

In order to improve stability and safety in a data transmission process, the invention provides a machine room environment monitoring front-end processor, wherein the front-end processor performs multiple conversion on data by arranging a plurality of front-end processors so as to ensure that the data is uploaded or issued in a uniform and stable format.

The technical scheme adopted by the invention is as follows: a machine room environment monitoring front-end processor comprises

And a data receiving module: the system is used for receiving data information uploaded by the subsystem or the upper platform system;

and a data processing module: the data conversion processing is used for carrying out data conversion processing on received or to-be-forwarded data;

and a data transmitting module: the system is used for transmitting the converted data to a superior platform system or subsystem;

and the data security detection module is used for: the system is used for carrying out safety detection and identification on the received and transmitted data;

and a monitoring module: the data processing module is used for monitoring whether the data receiving module, the data processing module and the data sending module work normally or not;

the front-end processor is characterized in that a plurality of front-end processors are arranged, data transmission is arranged among the front-end processors, the front-end processors comprise a first front-end processor and a second front-end processor, the second front-end processor is arranged at the rear end of the first front-end processor, a data processing module of the first front-end processor converts received data information into a first text and then sends the first text to the second front-end processor, and a data processing module of the second front-end processor converts the first text into a second text and uploads the second text to the upper platform system.

Further, the data security detection module comprises a received data security detection and a transmitted data security detection, the received data security detection comprises the step of transmitting verification information to a device for transmitting data, if the verification information is correctly responded, the data is indicated to originate from the device, and the data is secure.

Further, a data identification module for judging the data type is arranged in the first front-end processor, when the data type is first data, the data transmission module is used for transmitting the first text to the upper-level platform system, and when the data is second data, the data transmission module is used for transmitting the first text to the second front-end processor.

Further, the monitoring module is used for monitoring whether the data receiving module can continuously receive the data information uploaded by each subsystem, monitoring whether the data transmitting module can smoothly transmit the data information, and monitoring whether the data converting module has messy codes or clamping stagnation in the data converting process.

Further, when the monitoring module monitors that the data conversion module has messy codes or jamming in the data conversion process, whether the data conversion module is insufficient in memory is judged, if so, memory allocation is performed to ensure running memory, and if not, whether the data conversion program has a problem is checked.

Further, the monitoring module monitors that the data receiving module cannot continuously receive the data information uploaded by each subsystem, and firstly judges whether the subsystem is in a working state, if yes, judges whether the running memory of the data receiving module is insufficient, if yes, memory allocation is carried out, and if not, other problems are checked.

The beneficial effects of the invention include: the machine room environment monitoring front-end processor can perform safety detection and identification on received and transmitted data, and can perform multiple conversion on the data, so that the data is uploaded or issued in a uniform and stable format finally.

Drawings

Fig. 1 is a schematic diagram of a position structure of a machine room environment monitoring front end processor in a data transmission system in the present invention;

FIG. 2 is a schematic diagram of a front end processor according to the present invention.

Detailed Description

The invention will be explained in further detail below with reference to the drawings, but it should be understood that the scope of the invention is not limited to the specific embodiments.

1-2, the machine room environment monitoring front-end processor comprises a data receiving module, a data processing module, a data sending module, a data safety detection module and a monitoring module, wherein the data receiving module is used for receiving data information uploaded by a subsystem; the data transmitting module is used for transmitting the converted data to the upper-level platform system; the data security detection module is used for performing security detection and identification on the received and transmitted data; the data receiving and transmitting system comprises a data receiving and transmitting safety detection module and a data transmitting safety detection module, wherein the data receiving and transmitting safety detection module comprises the steps of transmitting verification information to a transmitting device, if the verification information is correctly responded, the data is from the device, the data is safe, the transmitting device can be a sensor for monitoring the environment or other field monitoring devices, the data transmitting safety detection module comprises the steps of detecting whether the information to be transmitted is successfully analyzed, and if yes, transmitting.

The data processing module is used for carrying out data conversion processing on the received or forwarded data; the front-end processor is provided with a plurality of front-end processors, data transmission is arranged among the front-end processors, the front-end processors at least comprise a first front-end processor and a second front-end processor, the second front-end processor is arranged at the rear end of the first front-end processor, a data processing module of the first front-end processor converts received data information into a first text and then sends the first text to the second front-end processor, and a data processing module of the second front-end processor converts the first text into a second text and uploads the second text to the upper platform system. The first front-end processor is provided with a data identification module for judging the data type, the data transmission module is used for transmitting the first text to the upper-level platform system after the data type is the first data, and the data transmission module is used for transmitting the first text to the second front-end processor after the data is the second data. If the security coefficient of the second data is higher, the data is uploaded or issued after multiple conversion, and the classification processing mode greatly reduces the phenomena of complexity and resource waste caused by unified multiple data processing.

The monitoring module is used for monitoring whether the data receiving module, the data processing module and the data transmitting module work normally or not; the monitoring module is used for monitoring whether the data receiving module can continuously receive the data information uploaded by each subsystem, monitoring whether the data transmitting module can successfully transmit the data information and monitoring whether the data converting module has messy codes or jamming in the data converting process. When the monitoring module monitors that the data conversion module has messy codes or jamming in the data conversion process, judging whether the data conversion module is insufficient in memory, if so, performing memory allocation to ensure the running memory, and if not, checking whether the data conversion program has a problem. The monitoring module monitors that the data receiving module cannot continuously receive the data information uploaded by each subsystem, and firstly judges whether the subsystems are in a working state or not, if yes, judges whether the running memory of the data receiving module is insufficient, if yes, memory allocation is carried out, and if not, the rest problems are checked.

The above is only a preferred embodiment of the present invention, and the present invention is not limited to the contents of the embodiment. Various changes and modifications within the technical scope of the present invention will be apparent to those skilled in the art, and any changes and modifications are intended to be within the scope of the present invention.

Claims (5)

1. The utility model provides a computer lab environmental monitoring front-end processor which characterized in that: comprising

And a data receiving module: the data information is used for receiving the data information uploaded by the subsystem;

and a data processing module: the data conversion processing is used for carrying out data conversion processing on received or to-be-forwarded data;

and a data transmitting module: the system is used for transmitting the converted data to a superior platform system;

and the data security detection module is used for: the system is used for carrying out safety detection and identification on the received and transmitted data;

and a monitoring module: the data processing module is used for monitoring whether the data receiving module, the data processing module and the data sending module work normally or not;

the front-end processor is provided with a plurality of front-end processors, data transmission is arranged among the front-end processors, the front-end processors comprise a first front-end processor and a second front-end processor, the second front-end processor is arranged at the rear end of the first front-end processor, a data processing module of the first front-end processor converts received data information into a first text and then sends the first text to the second front-end processor, and a data processing module of the second front-end processor converts the first text into a second text and uploads the second text to the upper platform system;

the first front-end processor is provided with a data identification module for judging the data type, when the data type is first data, the data transmission module transmits the first text to the upper-level platform system, and when the data type is second data, the data transmission module transmits the first text to the second front-end processor.

2. The machine room environment monitoring front end processor of claim 1, wherein: the data security detection module comprises a received data security detection and a transmitted data security detection, wherein the received data security detection comprises the step of transmitting verification information to a device for transmitting data, if the verification information is correctly responded, the data is from the device, and the data is secure.

3. The machine room environment monitoring front end processor of claim 1, wherein: the monitoring module is used for monitoring whether the data receiving module can continuously receive the data information uploaded by each subsystem, monitoring whether the data transmitting module can smoothly transmit the data information and monitoring whether the data converting module has messy codes or jamming in the data converting process.

4. A machine room environment monitoring front end processor as defined in claim 3, wherein: when the monitoring module monitors that the data conversion module has messy codes or jamming in the data conversion process, judging whether the data conversion module is insufficient in memory, if so, performing memory allocation to ensure the running memory, and if not, checking whether the data conversion program has a problem.

5. The machine room environment monitoring front end processor of claim 1, wherein: the monitoring module monitors that the data receiving module cannot continuously receive the data information uploaded by each subsystem, and firstly judges whether the subsystems are in a working state or not, if yes, judges whether the running memory of the data receiving module is insufficient, if yes, memory allocation is carried out, and if not, the rest problems are checked.