JP2023160718A - Transmission management method and system for operation and maintenance data of power device - Google Patents

Abstract

To provide a transmission management method and system for operation and maintenance data of a power device, which ensure the integrity and security of data transmission and reduces a situation such as an interruption or a content error during data transmission.SOLUTION: In a method, on the transmission side, a data file to be transmitted is encrypted with an original key, the encrypted data file is segmented, multiple pieces of segmented data are obtained, segmentation information for each file is stored, and the original key is split and transmitted while the segmented data is transmitted. On the receiving side, the split keys are matched, it is determined in real time whether the currently transmitted data file is completed during data transmission, an incomplete data file is retransmitted, a complete encrypted data file is finally obtained, the split keys are combined, and the encrypted data file is decrypted.SELECTED DRAWING: Figure 1

Description

The present invention relates to the field of data transmission interaction, and more particularly to a method and system for managing the transmission of operation and maintenance data for power equipment.

During the transmission or synchronization process between the power device and the remote monitoring device, network problems or operation errors may cause transmission interruption or some data loss. Especially when replacing power equipment at a power plant, it is necessary to synchronize important data of the original equipment to the new equipment, and information such as equipment parameter data, operation result data, monitoring data, etc. is always stored after data transmission. If you find that the data file is incomplete or the network is bad, or if you repeat multiple transmissions for the same file, you can flexibly select the data files that can be transmitted at the same time depending on the network situation. It is not possible, which poses a great risk to the safety of use of the operation of the power equipment, and the efficiency is low.

In view of the above problems, the present invention is proposed to provide a technical solution that overcomes the above problems or at least partially solves the above problems.

Therefore, one aspect of the present invention provides a method and system for managing the transmission of operation and maintenance data for a power device, and the method includes:
Step (1) of encrypting the data file to be transmitted using the original key on the transmitting side;
(2) segmenting the encrypted data file on the sending side, obtaining a plurality of segmented data, and storing segmentation information for each file;
a step (3) of dividing and transmitting the original key on the transmitting side, transmitting segmented data at the same time, and matching the divided keys on the receiving side;
During data transmission, determine in real time whether the currently transmitted data file is complete or not, retransmit the incomplete data file, and finally obtain a complete encrypted data file, and then , selecting a segmented data file for transmission based on current network conditions;
A method for managing the transmission of operation and maintenance data for a power device is provided, which includes a step (5) of combining the divided keys on the receiving side and decrypting the encrypted data file.

Preferably, in step (2), the complete data file is segmented, each segmented data is assigned a number, and for the segmented data corresponding to each number, start point information and end point information of the segmented data are obtained. including doing.

Preferably, matching the divided keys in step (3) specifically includes, after receiving the format information of subkey 1, extracting the corresponding subkey 2 based on the response information, and then: Comparing the format information of the received subkey 1 with the format information of the corresponding subkey 2 and, if the matching is successful, transmitting the subkey 2 to the remote monitoring device.

Preferably, in said step (4), the transmission reference time range of the current segmented data is calculated, and at the same time, the transmission time of the current segmented data is calculated; is within the transmission reference time range, and if it is, and the length of the received current segmented data is equal to the length of the stored current segmented data, the next segment is and continuing to transmit the converted data.

Preferably, said step (5) combines the received subkey 1 and subkey 2 to form an original key, and then utilizes the original key to decrypt the encrypted data file to obtain a complete data file. Including.

The present invention includes a sending device, which includes an encryption unit, a data segmentation unit, a transmission unit, and is one or more power devices, and a matching unit, a file analysis unit, a decryption unit, and is a remote monitoring device. including a receiving device and a remote server;
The sender encrypts the data file to be transmitted with an original key, then segments the encrypted data file, obtains a plurality of segmented data, and stores segmentation information of each file,
The transmitter divides and transmits the original key, and simultaneously transmits segmented data to the receiver,
During data transmission, the receiving side judges in real time whether the currently transmitted data file is complete or not, retransmits the incomplete data file, and finally creates a complete encrypted data file. and further select the segmented data file to be transmitted based on the current network status, and the receiving side combines the divided keys and decrypts the encrypted data file. further provides a transmission management system.

Preferably, the data segmentation unit specifically segments the complete data file, assigns a number to each segmented data, and assigns start point information and end point of the segmented data to the segmented data corresponding to each number. Used to obtain information.

Preferably, after receiving the format information of subkey 1, the remote server extracts the corresponding subkey 2 based on the response information, and then compares the received format information of subkey 1 with the corresponding format information of subkey 2. If the matching is successful, it is used to send subkey 2 to the receiving end.

Preferably, the file analysis unit calculates a transmission reference time range of the current segmented data, and at the same time calculates the transmission time of the current segmented data.

Preferably, the decryption unit specifically combines the received subkey 1 and subkey 2 to form an original key, and then uses the original key to decrypt the encrypted data file to create a complete data file. It is used to obtain.

The present invention can achieve the following beneficial effects by using the technical solutions described above. By ensuring the integrity and security of data transmission and adjusting the transmission interval time according to network speed, situations such as interruptions or content errors during data transmission are reduced.

Various other advantages and benefits will become apparent to those skilled in the art after reading the following detailed description of the preferred embodiments. The drawings are for the purpose of illustrating preferred embodiments only and are not to be considered as limiting the invention. The same reference numbers represent the same parts throughout the drawings.

The drawings and text description are not intended to limit the scope of the inventive concept in any way, but rather explain the inventive concept to those skilled in the art with reference to specific embodiments.
3 is a flowchart of a method for managing the transmission of operation and maintenance data for a power device according to the present invention. 1 is a schematic diagram of a transmission management system for operation and maintenance data for power equipment according to the present invention.

In the following, the technical solutions of the embodiments of the present invention will be clearly and completely explained with reference to the drawings of the embodiments of the present invention, but of course the described embodiments are only part of the embodiments of the present invention. This is not a complete example. All other embodiments that a person skilled in the art obtains without creative effort based on the embodiments of the present invention fall within the patent scope of the present invention.

The present invention provides a method for managing the transmission of operation and maintenance data for power equipment, and the method includes steps (1) to (4).

Encrypt the data file to be sent using the original key on the sending side.

Specifically, the details are as follows. The transmitting side includes one or more power devices, and the data file is a plurality of parameters and provided information related to operation and maintenance of the power devices.

The data file specifically includes parameters for normal operation of the power device, such as temperature, voltage, power, etc., and further includes transmission power amount, waveform information, image data, etc.

The power device generates an original key according to rules agreed upon in advance with the remote monitoring device, and encrypts the data file to be transmitted using the original key.

(2) Segmenting the encrypted data file on the sending side, obtaining a plurality of segmented data, and storing segmentation information for each file.

Specifically, the details are as follows. The complete data file is segmented, each segmented data is numbered, and the starting point information and ending point information of the segmented data are obtained for the segmented data corresponding to each number.

The segmented data is sequentially divided from a complete data file, and each segmented data has the same length.

The start position is a start position of each segmented data, the end point information is an end position of each segmented data, and length information of each segmented data is obtained from the end position and the start position.

The number, start point information, end point information, and corresponding length information of each segmented data are stored.

The transmission reference time of each segmented data is determined based on the network speed detected before data transmission, and the faster the network speed is, the shorter the transmission reference time is. Get range.

For example, before transmitting the current segmented data, the transmission reference time is determined to be 3ms based on the current network speed, and when the current network speed is between -10%-20%, the transmission reference time is The range is determined to be approximately 2.4ms-3.3ms.

(3) The transmitting side divides and transmits the original key, simultaneously transmits segmented data, and the receiving side matches the divided keys. The receiver is a remote monitoring device.

Specifically, the details are as follows. The original key is divided into subkey 1 and subkey 2 having the same format.

The subkey 1, which further includes format information, and the segmented data, which are each encrypted segmented data, are transmitted to the remote monitoring device.

Send subkey 2 to remote server.

After receiving the subkey 1 and the segmented data, the response information including the data file information corresponding to the current subkey 1 and for determining the corresponding subkey 2, and the format information of the subkey 1 are sent to the remote server.

After receiving the format information of subkey 1, extract the corresponding subkey 2 based on the response information, and then compare the received format information of subkey 1 with the corresponding format information of subkey 2, and if the matching is successful. , subkey 2 to the remote monitoring device.

(4) During data transmission, judge in real time whether the currently transmitted data file is complete or not, retransmit the incomplete data file, and finally obtain a complete encrypted data file. .

Specifically, the details are as follows. During data transmission, the number of the segmented data that has currently started transmission, the current network speed, the network speed fluctuation situation, and the length of the stored current segmented data are obtained in real time.

A transmission reference time range of the current segmented data is calculated, and at the same time, a transmission time of the current segmented data is calculated.

Subsequently, it is determined whether the transmission time of the current segmented data is within the transmission reference time range, and the current segment within the range and the length of the received current segmented data is stored. If the length of the segmented data is equal to the length of the current segmented data, continue transmitting the next segmented data, or if the length of the current segmented data received is equal to the length of the stored current segmented data. If not, it is determined that the transmission of the segmented data is wrong, the current data transmission is suspended, and the current segmented data is retransmitted.

For example, the transmission reference time range is determined to be approximately 2.4ms-3.3ms, and the transmission time of the current segmented data obtained according to the current network speed and the length of the current segmented data is 2.9ms. It is. Subsequently, it is determined that the transmission time of the current segmented data is within the transmission reference time and the length of the received segmented data is equal to the length of the stored current segmented data. Therefore, it is determined that the current segmented data transmission is normal, and the next segmented data transmission is prepared. Two factors, transmission time and length of segmented data, are used to make decisions to improve the accuracy and completeness of data transmission.

For example, the transmission reference time range is determined to be approximately 2.4ms-3.3ms, and the transmission time of the current segmented data obtained according to the current network speed and the length of the current segmented data is 2.9ms. It is. Subsequently, it is determined that the transmission time of the current segmented data is within the transmission reference time and the length of the received segmented data is not equal to the length of the stored current segmented data. Therefore, it is determined that the transmission of the current segmented data is incorrect, the transmission of the next segmented data is suspended, and the current segmented data is retransmitted.

For example, the range of the transmission reference time is determined to be approximately 2.4ms-3.3ms, and the transmission time of the current segmented data obtained according to the current network speed and the length of the current segmented data is 3.5ms. It is. Subsequently, it is determined that the transmission time of the current segmented data is within the transmission reference time and the length of the received segmented data is equal to the length of the stored current segmented data. Therefore, it is determined that the transmission of the current segmented data is incorrect, the transmission of the next segmented data is suspended, and the current segmented data is retransmitted.

During retransmission, the current network speed and network speed fluctuation situation are detected in real time, and if the current network speed is too slow or the network speed fluctuation range is too large, the current segmented data transmission conditions are If not, the data transmission will continue to be paused and wait for the network speed to recover, and if the current network speed and fluctuation range are normal and the current segmented data transmission conditions are met, the current segmented data will be restarted. Start transmission.

Finally, after the transmission of all segmented data is completed, each segmented data is combined according to the numerical order to obtain a complete encrypted data file.

Also, during data transmission, each segmented data is transmitted sequentially, or a segmented data file to be transmitted is selected according to the current network situation.

(5) The receiving side combines the divided keys and decrypts the encrypted data file.

The received subkey 1 and subkey 2 are combined to form an original key, and then the original key is used to decrypt the encrypted data file to obtain a complete data file.

The present invention further provides a power equipment operation and maintenance data transmission management system, the system including a transmitter device, a receiver device, and a remote server;

Here, the transmitting side is one or more power devices, including an encryption unit, a data segmentation unit, a transmission unit, and the receiving side is a remote monitoring device, including a matching unit, a file parsing unit, a decoding unit. include.

The transmitter encrypts the data file to be transmitted with an original key, then segments the encrypted data file, obtains a plurality of segmented data, and stores segmentation information of each file.

The transmitter divides and transmits the original key, and simultaneously transmits segmented data to the receiver.

During data transmission, the receiving side judges in real time whether the currently transmitted data file is complete or not, retransmits the incomplete data file, and finally creates a complete encrypted data file. get.

The receiving side combines the divided keys and decrypts the encrypted data file.

On the sending side, the encryption unit is used to encrypt the data file to be sent with the original key.

The data file includes a plurality of parameters and provided information related to operation and maintenance of the power equipment. The data file specifically includes parameters for normal operation of the power device, such as temperature, voltage, power, etc., and further includes transmission power amount, waveform information, image data, etc.

Specifically, the encryption unit is used to generate an original key according to rules agreed upon in advance with the remote monitoring device, and to encrypt a data file to be transmitted using the original key.

The data segmentation unit is used to segment encrypted data files, obtain a plurality of segmented data, and store segmentation information for each file.

The data segmentation unit specifically segments the complete data file, assigns a number to each segmented data, and obtains start point information and end point information of the segmented data for the segmented data corresponding to each number. used for

The segmented data is sequentially divided from a complete data file, and each segmented data has the same length.

The start position is a start position of each segmented data, the end point information is an end position of each segmented data, and length information of each segmented data is obtained from the end position and the start position.

The number, start point information, end point information, and corresponding length information of each segmented data are stored.

The transmission reference time of each segmented data is determined based on the network speed detected before data transmission, and the faster the network speed is, the shorter the transmission reference time is. Get range.

For example, before transmitting the current segmented data, the transmission reference time is determined to be 3ms based on the current network speed, and when the current network speed is between -10%-20%, the transmission reference time is The range is determined to be approximately 2.4ms-3.3ms.

The transmission unit is used to divide and transmit the original key and transmit segmented data at the same time.

Specifically, the transmission unit divides the original key into subkey 1 and subkey 2 having the same format, and then divides the original key into subkey 1 and subkey 2, which further include format information, and segmented data, which is each encrypted segmented data. is used to send subkey 2 to the remote monitoring device and at the same time send subkey 2 to the remote server.

On the receiving side, after receiving subkey 1 and segmentation data, the matching unit includes data file information corresponding to the current subkey 1, response information for determining the corresponding subkey 2, and the format of subkey 1. used to send information to a remote server.

After the remote server receives the format information of subkey 1, it extracts the corresponding subkey 2 based on the response information, and then compares the received format information of subkey 1 with the corresponding format information of subkey 2 to perform matching. If successful, it is used to send subkey 2 to the receiving end.

During data transmission, the file analysis unit determines in real time whether the currently transmitted data file is complete or not, retransmits the incomplete data file, and finally converts the complete encrypted data. Used to get files.

Specifically, the file analysis unit calculates, during data transmission, the number of the segmented data that has started the current transmission, the current network speed, the fluctuation status of the network speed, and the length of the stored current segmented data. It is used to obtain in real time.

The file analysis unit calculates the transmission reference time range of the current segmented data, and at the same time calculates the transmission time of the current segmented data.

Subsequently, the file analysis unit determines whether the transmission time of the current segmented data is within the transmission reference time range, and if it is within the range and the length of the received current segmented data is within the transmission reference time range. If the length of the current segmented data stored is equal to the length of the current segmented data, continue transmitting the next segmented data, or if the length of the current segmented data received is equal to the length of the current segmented data stored. If the length of the segmented data is not equal to the length of the segmented data, it is determined that the transmission of the segmented data is wrong, the current data transmission is suspended, and the current segmented data is retransmitted.

For example, the transmission reference time range is determined to be approximately 2.4ms-3.3ms, and the transmission time of the current segmented data obtained according to the current network speed and the length of the current segmented data is 2.9ms. It is. Subsequently, it is determined that the transmission time of the current segmented data is within the transmission reference time and the length of the received segmented data is equal to the length of the stored current segmented data. Therefore, it is determined that the current segmented data transmission is normal, and the next segmented data transmission is prepared. Two factors, transmission time and length of segmented data, are used to make decisions to improve the accuracy and completeness of data transmission.

For example, the transmission reference time range is determined to be approximately 2.4ms-3.3ms, and the transmission time of the current segmented data obtained according to the current network speed and the length of the current segmented data is 2.9ms. It is. Subsequently, it is determined that the transmission time of the current segmented data is within the transmission reference time and the length of the received segmented data is not equal to the length of the stored current segmented data. Therefore, it is determined that the transmission of the current segmented data is incorrect, the transmission of the next segmented data is suspended, and the current segmented data is retransmitted.

For example, the range of the transmission reference time is determined to be approximately 2.4ms-3.3ms, and the transmission time of the current segmented data obtained according to the current network speed and the length of the current segmented data is 3.5ms. It is. Subsequently, it is determined that the transmission time of the current segmented data is within the transmission reference time and the length of the received segmented data is equal to the length of the stored current segmented data. Therefore, it is determined that the transmission of the current segmented data is incorrect, the transmission of the next segmented data is suspended, and the current segmented data is retransmitted.

During retransmission, the sending side detects the current network speed, network speed fluctuation situation in real time, and if the current network speed is too slow or the network speed fluctuation range is too large, the current segmented data If the transmission conditions of the current segmented data are not met, the data transmission will continue to be paused and wait for the network speed to recover; if the current network speed and fluctuation range are normal and the current segmented data transmission conditions are met, the current Starts retransmission of converted data.

After the transmission of all segmented data is completed, the file analysis unit combines each segmented data according to the numerical order to obtain a complete encrypted data file.

Also, during data transmission, the file analysis unit may sequentially transmit each segmented data or select a segmented data file to be transmitted according to the current network situation.

The decryption unit is used at the receiving end to combine the split keys and decrypt the encrypted data file.

The decryption unit specifically combines the received subkey 1 and subkey 2 to form an original key, and then uses the original key to decrypt the encrypted data file to obtain a complete data file. used for.

In one or more exemplary designs, the functionality described above in embodiments of the invention may be implemented in hardware, software, firmware, or any combination of the three. If implemented in software, the functions may be stored on or transmitted over to a computer-readable medium in the form of one or more instructions or code. Computer-readable media includes computer storage media and communication media that facilitate transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a general purpose or special purpose computer. For example, such computer-readable media may include RAM, ROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage, instructions or data structures or general purpose or special purpose computer, or general purpose memory. or any other medium that can be used to carry or store program code in other forms that can be read by a dedicated processor. Additionally, any connection can be suitably defined as a computer-readable medium, such as when software connects a website, server, or other remote resource to a coaxial cable, fiber optic cable, twisted pair, digital subscriber line (DSL), etc. ) or by wireless means such as infrared, radio, and microwave are also included in the defined computer-readable medium. The disks and magnetic disks include compressed disks, laser disks, optical disks, DVDs, floppy disks, and Blu-ray disks, and magnetic disks typically store data magnetically. Replicate, disks typically use lasers to optically replicate data. A combination of the above may be contained in a computer readable medium.

Although preferred embodiments of the present disclosure have been described above with reference to the drawings, it goes without saying that the present disclosure is not limited to the above examples. It should be understood by those skilled in the art that various changes and modifications can be made within the scope of the appended claims, and that these changes and modifications, of course, fall within the scope of the present disclosure.

In this specification, the steps illustrated in the flowcharts include not only processes that are performed chronologically in the order described above, but also processes that do not have to be performed chronologically, but in parallel or separately. Furthermore, it goes without saying that in steps that are processed in chronological order, this order can be changed as appropriate.

All the above descriptions are merely embodiments of the present invention, and the patent scope of the present invention is not limited thereto. Any changes or substitutions can be easily made by those skilled in the art. Therefore, the patentable scope of the present invention should be based on the patentable scope of the claims.

Claims (8)

A method for managing the transmission of operation and maintenance data for power equipment, the method comprising:
Step (1) of encrypting the data file to be transmitted using the original key on the transmitting side;
(2) segmenting the encrypted data file on the sending side, obtaining a plurality of segmented data, and storing segmentation information for each file;
Step (3) of dividing and transmitting the original key on the transmitting side, transmitting segmented data at the same time, and matching the divided keys on the receiving side, the matching of the divided keys being specifically Specifically, dividing the original key into subkey 1 and subkey 2 having the same format, and transmitting subkey 1 further including format information and segmented data, which are each encrypted segmented data, to a remote monitoring device. , after sending subkey 2 to a remote server and receiving subkey 1 and segmentation data, response information for determining the corresponding subkey 2, including data file information corresponding to the current subkey 1, and subkey 1; 1 to a remote server, and after the remote server receives the format information of subkey 1, extracts the corresponding subkey 2 based on the response information; 1 and the corresponding format information of subkey 2, and upon successful matching, transmitting subkey 2 to a remote monitoring device;
During data transmission, determine in real time whether the currently transmitted data file is complete or not, retransmit the incomplete data file, and finally obtain a complete encrypted data file, and then , selecting a segmented data file for transmission based on current network conditions;
A method for managing the transmission of operation and maintenance data for a power device, the method comprising the step of combining the divided keys on the receiving side and decrypting the encrypted data file (5). In step (2), the complete data file is segmented, each segmented data is assigned a number, and for the segmented data corresponding to each number, the start point information and end point information of the segmented data are obtained. 2. The method of claim 1, comprising: Calculating the transmission reference time range of the current segmented data in the step (4), simultaneously calculating the transmission time of the current segmented data, and subsequently calculating the transmission time range of the current segmented data; Determine whether it is within a reference time range, and if it is within the range and the length of the current segmented data received is equal to the length of the current segmented data stored, then start the next segmented data. 2. The method of claim 1, further comprising: continuing to transmit. Said step (5) includes combining the received subkey 1 and subkey 2 to form an original key, and then using the original key to decrypt the encrypted data file to obtain a complete data file. The method according to claim 1, characterized in that: A transmission management system for operation and maintenance data of power equipment,
a transmitter device that includes an encryption unit, a data segmentation unit, a transmission unit and is one or more power devices;
including a matching unit, a file analysis unit, a decryption unit, a receiving device that is a remote monitoring device, and a remote server;
The sender encrypts the data file to be transmitted with an original key, then segments the encrypted data file, obtains a plurality of segmented data, and stores segmentation information of each file,
The transmitter divides and transmits the original key, and simultaneously transmits segmented data to the receiver,
During data transmission, the receiving side judges in real time whether the currently transmitted data file is complete or not, retransmits the incomplete data file, and finally creates a complete encrypted data file. further select a segmented data file to be transmitted based on the current network state, and the receiver combines the divided keys to decrypt the encrypted data file;
Specifically, the transmission unit divides the original key into subkey 1 and subkey 2 having the same format, and then divides the original key into subkey 1 and subkey 2, which further include format information, and segmented data, which is each encrypted segmented data. is used to send subkey 2 to the remote monitoring device and at the same time send subkey 2 to the remote server,
After receiving the subkey 1 and segmentation data, the matching unit remotely transmits response information including data file information corresponding to the current subkey 1, response information for determining the corresponding subkey 2, and format information of the subkey 1. used to send to the server,
After the remote server receives the format information of subkey 1, the remote server extracts the corresponding subkey 2 based on the response information, and then the remote server extracts the format information of the received subkey 1 and the corresponding format information of subkey 2. A power equipment operation and maintenance data transmission management system characterized in that the system is used to compare and, when matching is successful, to transmit subkey 2 to a remote monitoring device. The data segmentation unit specifically segments the complete data file, assigns a number to each segmented data, and obtains start point information and end point information of the segmented data for the segmented data corresponding to each number. 6. The system according to claim 5, wherein the system is used for: The system according to claim 5, wherein the file analysis unit calculates a transmission reference time range of the current segmented data and simultaneously calculates the transmission time of the current segmented data. The decryption unit specifically combines the received subkey 1 and subkey 2 to form an original key, and then uses the original key to decrypt the encrypted data file to obtain a complete data file. The system according to claim 5, characterized in that it is used for.