CN219891649U - Domestic operating system recovery backup intelligent system - Google Patents

Abstract

The utility model discloses a domestic operation system backup recovery intelligent system, which belongs to the field of computers and comprises a backup medium sensor, a control center, a backup medium cabin and a recording recovery system. It is desirable to provide an efficient method to restore backup of an operating system and ensure data integrity. The system is based on physical media, does not relate to computer programs and algorithms, has an autonomous intelligent function, and can automatically monitor, identify and restore the backup of an operating system.

Description

Domestic operating system recovery backup intelligent system

Technical Field

The utility model belongs to the field of computers, and particularly relates to a domestic operating system backup intelligent system.

Background

In a computer system, the operating system is the core software that manages the computer hardware and software resources. However, for various reasons, the operating system may suffer from crashes, failures, or other unexpected situations, resulting in a system that does not function properly. In order to ensure the normal operation of the computer and the safety of data, the recovery and backup of an operating system become a critical task.

Currently, common operating system restore-backup methods typically rely on computer programs and algorithms. For example, the system is backed up on a full disk by snapshot technology, or key data of the system is backed up periodically by incremental backup. There are also file system based backup schemes, mirror technology backup schemes, etc.

However, these operating system restoration backup methods that rely on computer programs and algorithms have some problems. Firstly, the implementation of the methods requires perfect algorithm and program support, has high requirements for technicians, and is not compact and easy to use. Second, in special cases, such as when a severe crash or virus attack of the operating system occurs, these methods may not start or recover in time.

Disclosure of Invention

The utility model provides an operating system recovery backup system which is not dependent on a computer program or an algorithm. The system can independently realize data backup and recovery of the system, monitor the state of the system in real time and timely recover under abnormal conditions. Compared with the prior art, the operating system recovery backup system independent of the computer program or algorithm has obvious advantages in terms of simplicity, usability and reliability, and can improve the stability and reliability of the computer system.

In order to achieve the above purpose, the present utility model is realized by adopting the following technical scheme: the domestic operation system recovery backup intelligent system comprises a backup medium sensor module, a control center, a backup medium cabin and a recovery recording system;

the backup medium sensor module is arranged in the computer host, the output end of the backup medium sensor module is connected with the control center, the backup medium cabin is positioned in the computer host, the recovery recording system is arranged in the backup medium cabin, and the control center is connected with the recovery recording system.

Further, the backup media sensor module comprises a temperature sensor, a vibration sensor and a humidity sensor, and the output end of each sensor is connected with the control center.

Further, the recovery recording system comprises a data reading unit, a storage unit and a data writing unit; the data reading unit and the data writing unit are respectively connected with the control center, the data reading unit and the data writing unit are respectively connected with the operating system, and the storage unit is connected with the data reading unit.

Further, the intelligent system for recovering and backing up also comprises a log module, wherein the log module is connected with the control center and is used for recording the operation and recovery events of the operating system.

Further, the control center adopts a singlechip.

The utility model has the beneficial effects that:

automatic recovery backup: through the autonomous intelligent function, the backup of the operating system is automatically monitored, identified and restored, and manual intervention is reduced.

High efficiency and reliability: the intelligent system can quickly judge the state of the backup medium, quickly restore the backup, and provide high-efficiency and reliable data restoration guarantee.

Data integrity assurance: the intelligent system can monitor the state of the backup medium in time, and avoid the risks of data loss and tampering.

Drawings

FIG. 1 is a block diagram of a system of the present utility model.

In the figure, a 1-backup medium sensor module, a 2-control center, a 3-backup medium cabin, a 4-recovery recording system, a 5-temperature sensor, a 6-vibration sensor, a 7-humidity sensor, an 8-data reading unit, a 9-storage unit and a 10-data writing unit are arranged.

Detailed Description

In order to make the objects, technical solutions and advantageous effects of the present utility model more apparent, preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings, so as to facilitate understanding of the skilled person.

As shown in fig. 1, the domestic operating system recovery backup intelligent system comprises a backup medium sensor module 1, a control center 2, a backup medium cabin 3 and a recovery recording system 4; the backup medium sensor module 1 is arranged in the computer host, the output end of the backup medium sensor module is connected with the control center 2, the backup medium cabin 3 is positioned in the computer host, the recovery recording system 4 is arranged in the backup medium cabin 3, and the control center 2 is connected with the recovery recording system 4.

The backup medium sensor is arranged in the computer host, is used for monitoring the state of the physical medium backed up by the operating system in real time, and can sense and record physical environment parameters; the backup medium sensor module 1 comprises a temperature sensor 5, a vibration sensor 6 and a humidity sensor 7, and the output end of each sensor is connected with the control center 2.

The control center 2, the control center 2 adopts the singlechip. And the device is used for receiving the data from the backup media sensor, analyzing the media state and judging whether backup recovery is needed.

The backup media sensor module 1 senses physical environmental parameters (e.g., temperature, humidity, vibration, etc.) and converts these parameters into electrical signals. The electric signals are amplified and filtered and then connected with the singlechip through a sensor interface.

The singlechip acquires the related data of the backup medium by reading the electric signal of the sensor interface. Meanwhile, the singlechip is also provided with other interfaces for communicating with external equipment, such as a backup medium cabin 3 or a resume recording system 4. The singlechip analyzes and analyzes the received signals of the backup media sensor, and comprises the processing of physical environment parameters and the identification of the state of the backup media. The singlechip judges the state of the backup medium to determine whether backup recovery operation is needed.

If the singlechip judges that backup recovery operation is needed, the singlechip communicates with other equipment through the control interface and sends corresponding instructions to control the backup medium cabin 3 or the recovery recording system 4 to recover data.

The backup medium cabin 3 is positioned in the computer host and is used for storing the backup medium of the operating system; the main purpose of the back-up medium compartment 3 is to store the resume recording system 4, and the storage unit 9 in the resume recording system 4 is the most important data storage device, so a special compartment is required for storage, which compartment is sealed.

The recording recovery system 4 is connected with the backup medium cabin 3 and is used for recovering the data in the backup medium to the operating system; the recovery burning system 4 comprises a data reading unit 8, a storage unit 9 and a data writing unit 10; the data reading unit 8 and the data writing unit 10 are respectively connected with the control center 2, the data reading unit 8 and the data writing unit 10 are respectively connected with an operating system, and the storage unit 9 is connected with the data reading unit 8. Through the cooperative work of the components, the automatic monitoring, the identification and the recovery of the backup of the operating system are realized. The storage unit 9 adopts a solid state disk for storage.

When the control center 2 detects that the physical medium of the operating system, namely the working hard disk of the operating system vibrates too much, or the humidity is too high, or the temperature is too high, the data reading unit 8 is started, and the data reading unit 8 reads the operating system data into the storage unit 9 for storage, so that the backup work of the operating system is completed. When the control center 2 detects that the working hard disk state of the operating system is normal, a data writing unit 10 is started, and the data writing unit 10 writes the stored backup data of the operating system into the operating system hard disk from the new recovery from the storage unit 9, so that the recovery work of the operating system is completed.

The intelligent system for recovering and backing up also comprises a log module which is connected with the control center 2 and is used for recording the operation and recovery events of the operating system. To provide operational history and troubleshooting. The following is the working principle of the log module:

logging request: when the control center 2 determines that a backup recovery operation is required, it sends a request to the log module requesting to record the relevant information of the operation and recovery event.

And (3) information recording: upon receiving the request, the log module records information about the operation and recovery events of the operating system, including time, operation type (e.g., backup or recovery), backup media status, recovery results, etc. This information can be used for subsequent analysis and troubleshooting.

The storage mode is as follows: the log module may use internal memory or external media (e.g., hard disk, flash memory, etc.) to store log information. The specific storage mode can be selected and configured according to actual requirements.

Through the working principle, the log module can record the operation of the operating system and the related information of the recovery event, and provides important data support for operation history record and fault detection.

The working principle of the utility model is as follows: the backup media sensor module 1 monitors the state of the backup media in real time and transmits data to the control center 2. The control center 2 analyzes the status of the backup medium according to the monitored data, and judges whether restoration or backup is required. When the recovery or backup is needed, the control center 2 sends a corresponding signal to the recovery recording system 4, and when the control center 2 receives the signal of finishing the data recovery, the system log is automatically updated.

Finally, it is noted that the above-mentioned preferred embodiments illustrate rather than limit the utility model, and that, although the utility model has been described in detail with reference to the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the utility model as defined by the appended claims.

Claims (5)

1. A domestic operating system restores the backup intelligent system, characterized by: the domestic operation system recovery backup intelligent system comprises a backup medium sensor module (1), a control center (2), a backup medium cabin (3) and a recovery recording system (4);

the backup medium sensor module (1) is installed inside the computer host, the output end of the backup medium sensor module is connected with the control center (2), the backup medium cabin (3) is located inside the computer host, the recovery recording system (4) is installed inside the backup medium cabin (3), and the control center (2) is connected with the recovery recording system (4).

2. The intelligent system for restoring backup of a domestic operating system according to claim 1, wherein: the backup medium sensor module (1) comprises a temperature sensor (5), a vibration sensor (6) and a humidity sensor (7), and the output end of each sensor is connected with the control center (2).

3. The intelligent system for restoring backup of a domestic operating system according to claim 1, wherein: the recovery burning system (4) comprises a data reading unit (8), a storage unit (9) and a data writing unit (10); the data reading unit (8) and the data writing unit (10) are respectively connected with the control center (2), the data reading unit (8) and the data writing unit (10) are respectively connected with the operating system, and the storage unit (9) is connected with the data reading unit (8).

4. The intelligent system for restoring backup of a domestic operating system according to claim 1, wherein: the intelligent system for recovering and backing up also comprises a log module, wherein the log module is connected with the control center (2).

5. The intelligent system for restoring backup of a domestic operating system according to claim 1, wherein: the control center (2) adopts a singlechip.