Remote control method for big data server
Technical Field
The invention relates to a big data control method, in particular to a big data server remote control method.
Background
At present, for server control related to big data, designated data generated in the operation process of a business server is often required to be collected; performing association processing on the acquired specified data according to a preset association mode to obtain at least one first association data; determining second associated data needing to be reported from at least one first associated data according to a preset filtering strategy; and sending the second associated data to the background monitoring server so that the background monitoring server carries out safety monitoring according to the received associated data. Thus, multi-level data interconnection is realized.
However, during implementation, as for a mobile terminal, in order to facilitate data transmission, it is often necessary to perform snooping, which causes great consumption of resources and reduces an operation rate. Moreover, each server lacks the control of data reservation, which easily causes data repeat transmission.
Disclosure of Invention
The invention aims to overcome the problems in the prior art and provides a remote control method for a big data server.
In order to realize the purpose of the invention, the remote control method of the big data server comprises a big data communication platform, which comprises the following steps: the big data communication platform is controlled by the master control server to construct master control operation parameters; controlling a big data communication platform through a master control server to send the master control operation parameters to a communication base station; sending a primary downlink control instruction to a mobile terminal through a communication base station, wherein the primary downlink control instruction sends control parameters for transmitting main control operation parameters and main control operation parameters to the mobile terminal, the primary downlink control instruction further indicates the execution times of the main control operation parameters to the mobile terminal, and the primary downlink control instruction further indicates the number of execution groups and messages for message transmission groups to the mobile terminal; receiving the master control operation parameters and the repetition of the master control operation parameters on the control parameters through the mobile terminal; receiving the main control operation parameters and the repetition of the first batch of the main control operation parameters through the mobile terminal; judging whether the mobile terminal can correctly decode the main control operation parameters or not through the mobile terminal; if the judgment is that the message can be received, sending an execution group message to the communication base station on a designated uplink control channel through the mobile terminal, wherein the designated uplink control channel is distributed in a primary downlink control instruction, and the execution group message indicates that at least one of the messages is correctly received to the communication base station; and if the message is judged to be unable, sending the message delivery group to the communication base station on the appointed uplink control channel through the mobile terminal, wherein the message delivery group indicates that all messages are not correctly received to the communication base station.
Further, in the above method for remotely controlling a big data server, the main control server sends a message transfer group to the communication base station, continues to receive the main control operation parameter through the mobile terminal, and determines whether the mobile terminal can decode correctly through the mobile terminal, if the determination is that the mobile terminal can decode correctly, the mobile terminal sends an execution group message to the communication base station on an assigned uplink control channel, the assigned uplink control channel is allocated in the primary downlink control instruction, and at least one message indicated by the execution group message to the communication base station is correctly received; and if the message is judged to be unable, sending the message delivery group to the communication base station on the appointed uplink control channel through the mobile terminal, wherein the message delivery group indicates that all the messages are not correctly received to the communication base station.
Furthermore, in the above remote control method for a big data server, a primary downlink control command is sent to a mobile terminal through a communication base station, and the primary downlink control command indicates control parameters for transmitting the master control operation parameters and the master control operation parameters to the mobile terminal; receiving the master control operation parameters and the master control operation parameters through the mobile terminal; judging whether the mobile terminal can correctly decode through the mobile terminal; if the judgment result is that the main control operation parameter can be received correctly, sending an execution ethnic group message to the communication base station on the appointed uplink control channel through the mobile terminal to indicate that at least one of the main control operation parameter or the main control operation parameter is received correctly; if the disk pair is not able, sending a messaging group to the communication base station on the appointed uplink control channel through the mobile terminal, wherein the master control operation parameter and the master control operation parameter are not correctly received.
Further, in the above remote control method for a big data server, the first message delivery group is sent to the communication base station, and the mobile terminal continues to receive the repeated content of the master control operation parameter; receiving the repeated contents of the main control operation parameters, and judging whether the mobile terminal can correctly decode any one of the repeated contents of the main control operation parameters or not through the mobile terminal; if the mobile terminal is judged to be capable of correctly decoding any one of the repeated contents of the main control operation parameters, sending a second execution group message to the communication base station through the mobile terminal on a designated uplink control channel, wherein the designated uplink control channel is distributed in the primary downlink control instruction, and the second execution group message indicates to the communication base station that at least one of the repeated contents of the main control operation parameters is correctly received; and if the mobile terminal is judged not to be capable of correctly decoding any one of the repeated contents of the main control operation parameters, sending a second message transfer group to the communication base station on the appointed uplink control channel through the mobile terminal, wherein the second message transfer group indicates to the communication base station that the repeated contents of the main control operation parameters are not correctly received.
Further, in the above remote control method for a big data server, a second message transfer group is sent to the communication base station, and the mobile terminal continues to receive the repeated content of the master control operation parameter; receiving the repeated contents of the main control operation parameters, and judging whether the mobile terminal can correctly decode any one of the repeated contents of the main control operation parameters or not through the mobile terminal; if the mobile terminal is judged to be capable of correctly decoding any one of the repeated contents of the main control operation parameters, sending a third execution group message to the communication base station through the mobile terminal on a designated uplink control channel, wherein the designated uplink control channel is distributed in the primary downlink control instruction, and the third execution group message indicates to the communication base station that at least one of the repeated contents of the main control operation parameters is correctly received; if the mobile terminal is judged not to be capable of correctly decoding any one of the repeated contents of the main control operation parameters, a third message transfer group is sent to the communication base station through the mobile terminal on the appointed uplink control channel, wherein the third message transfer group indicates to the communication base station that the repeated contents of the main control operation parameters are not correctly received; and the mobile terminal sends the main control operation parameters to a unit of a main control server.
Furthermore, in the above remote control method for a big data server, the master control server is configured with a remote control system, which includes a data construction component for constructing master control operation parameters for a big data communication platform; the data sending component is used for sending the master control operation parameters to the communication base station; a data statistics component for counting the execution times, and a coordination component for coordinating participation of downlink control commands in execution.
Still further, in the above remote control method for a big data server, the mobile terminal includes a terminal body, a repeated data processing component for receiving the message delivery population is provided in the terminal body, and an anomaly detection module is provided on the repeated data processing component.
The technical scheme of the invention has the following advantages:
1. the system has stable communication effect and can meet the requirement of safe data transmission.
2. The data processing time of the mobile terminal is reduced, and the mobile terminal is not required to perform resource-consuming real-time monitoring.
3. The reservation and scheduling of the master control server can be realized, and the transmission delay is reduced.
4. The mobile terminals with reasonable quantity can be configured according to the processing requirement of big data, so that data transmission guidance is realized, and repeated transmission processing of the data is avoided.
Objects, advantages and features of the present invention will be illustrated and explained by the following non-restrictive description of preferred embodiments thereof, given by way of example only with reference to the accompanying drawings.
Drawings
FIG. 1 is a schematic diagram of a big data communication platform.
The meanings of the reference symbols in the figures are as follows:
1. master control server 2 communication base station
3. Mobile terminal 4 big data communication platform
Detailed Description
The big data server remote control method shown in fig. 1 includes a big data communication platform 4, and is distinctive in that it includes the following steps: the main control server 1 controls the big data communication platform 4 to construct main control operation parameters. Meanwhile, the main control server 1 controls the big data communication platform 4 to send the main control operation parameters to the communication base station 2. And, the primary downlink control command is transmitted to the mobile terminal 3 through the correspondent base station 2. During implementation, the primary downlink control command sends control parameters for transmitting the primary control operation parameters and the primary control operation parameters to the mobile terminal 3. Meanwhile, the primary downlink control instruction further indicates the execution times of the master control operation parameter to the mobile terminal 3, and the primary downlink control instruction further indicates the number of the messages for which the execution population and the message transfer population are targeted to the mobile terminal 3. In particular, the master operational parameters and the repetitions of the master operational parameters may be received over the control parameters by the mobile terminal 3. Also, the master operation parameter and the first number of repetitions of the master operation parameter may be received through the mobile terminal 3. Whether the main control operation parameters or the main control operation parameters can be correctly decoded by the mobile terminal 3 can be judged. If the judgment is that the message can be received, sending an execution group message to the communication base station 2 through the mobile terminal 3 on the appointed uplink control channel, wherein the appointed uplink control channel is distributed in the primary downlink control instruction, and the execution group message indicates that at least one of the messages is correctly received to the communication base station 2; if it is determined to be unable, the mobile terminal 3 transmits a messaging group to the correspondent base station 2 on the designated uplink control channel, and the messaging group indicates to the correspondent base station 2 that all messages have not been correctly received.
In a preferred embodiment of the present invention, the main control server 1 sends the message delivery population to the communication base station 2, continues to receive the main control operation parameters through the mobile terminal 3, and determines whether the mobile terminal 3 can correctly decode through the mobile terminal 3. If it is determined that the request is enabled, an execution group message is transmitted to the correspondent base station 2 through the mobile terminal 3 on a designated uplink control channel, the designated uplink control channel is allocated in the primary downlink control command, and at least one message indicated by the execution group message to the correspondent base station 2 is correctly received. If it is determined to be unable, the messaging group is sent by the mobile terminal 3 to the correspondent base station 2 on the designated uplink control channel, indicating to the correspondent base station 2 that all messages have not been correctly received.
Further, the present invention may send a primary downlink control command to the mobile terminal 3 through the communication base station 2, where the primary downlink control command indicates the mobile terminal 3 with control parameters for transmitting the primary control operation parameters and the primary control operation parameters. Meanwhile, the main control operation parameters and the main control operation parameters can be received through the mobile terminal 3, and whether the mobile terminal 3 can correctly decode or not is judged through the mobile terminal 3. During implementation, if the determination is yes, an execution group message is sent to the corresponding base station 2 on the designated uplink control channel through the mobile terminal 3, indicating that the master operation parameter or at least one of the master operation parameters is correctly received. If the pair of disks is not able, the messaging group is sent to the correspondent base station 2 on the assigned uplink control channel by the mobile terminal 3, and neither the master operating parameters nor the master operating parameters are correctly received.
In view of practical implementation, first, the first messaging group is sent to the corresponding base station 2, and the mobile terminal 3 continues to receive the repeated content of the master operation parameter. And then, receiving the repeated contents of the main control operation parameters, and judging whether the mobile terminal 3 can correctly decode any one of the repeated contents of the main control operation parameters or not through the mobile terminal 3. If any of the contents is repeated, the second execution group message is transmitted to the communication base station 2 on the designated uplink control channel through the mobile terminal 3. The assigned uplink control channel is allocated in the primary downlink control order. The second executive group message indicates to the correspondent base station 2 that at least one of the repeated contents of the master operating parameter was correctly received. If it is determined that the mobile terminal 3 is not able to correctly decode any of the repeated contents of the master operating parameter, a second messaging group is sent to the correspondent base station 2 over the designated uplink control channel through the mobile terminal 3, wherein the second messaging group indicates to the correspondent base station 2 that none of the repeated contents of the master operating parameter have been correctly received.
In view of the actual work of the communication base station 2, the information from the big data communication platform 4 may send a second message transfer group to the communication base station 2, and the mobile terminal 3 continues to receive the repeated content of the master control operation parameter. Then, by receiving the repeated content of the main control operation parameter, the mobile terminal 3 determines whether the mobile terminal 3 can correctly decode any one of the repeated contents of the main control operation parameter. If it is determined that the mobile terminal 3 can correctly decode any one of the repeated contents of the master operation parameter, a third executive group message is transmitted to the correspondent base station 2 through the mobile terminal 3 on the assigned uplink control channel. During implementation, the assigned uplink control channel is allocated in the primary downlink control command, and the third executive group message indicates to the correspondent base station 2 that at least one of the repeated contents of the master operating parameter was correctly received. Meanwhile, if it is determined that the mobile terminal 3 cannot correctly decode any one of the repeated contents of the master operation parameter, the third message delivery group is transmitted to the correspondent base station 2 through the mobile terminal 3 on the designated uplink control channel. The third messaging group indicates to the correspondent base station 2 that the duplicate content of the master operating parameter was not correctly received. And a unit for receiving the master control operation parameters and sending the master control operation parameters to the master control server 1 through the mobile terminal 3.
Still further, the remote control system is configured in the master control server 1, and includes a data construction component for constructing master control operation parameters by the big data communication platform 4. A data transmission component is arranged for transmitting the master control operation parameters to the communication base station 2. And a data counting component for counting the execution times is also arranged. And also for coordinating the coordination component for the participation of downlink control commands in execution. During implementation, the mobile terminal 3 includes a terminal body, a repeated data processing component for receiving the message transmission group is arranged in the terminal body, and an anomaly detection module is arranged on the repeated data processing component.
Of course, fig. 1 only shows the basic construction during the implementation of the present invention, and may have more communication base stations 2 and mobile terminals 3 to meet the requirement of more data communication processing.
The following advantages can be seen from the above description in conjunction with the accompanying drawings:
1. the system has stable communication effect and can meet the requirement of data safety transmission.
2. The data processing time of the mobile terminal is reduced, and the mobile terminal does not need to perform resource-consuming real-time monitoring.
3. The reservation and scheduling of the master control server can be realized, and the transmission delay is reduced.
4. The mobile terminals with reasonable quantity can be configured according to the processing requirement of big data, so that data transmission guidance is realized, and repeated transmission processing of the data is avoided.
The above is, of course, only a specific application example of the present invention, and the scope of the present invention is not limited in any way. In addition to the above embodiments, the present invention may have other embodiments. All technical solutions formed by using equivalent substitutions or equivalent transformations fall within the scope of the present invention.