Disclosure of Invention
The invention provides a remote start-stop control platform, which is used for solving the problems of time consumption and monitoring of remote disconnection or connection operation of a user device.
Remote start-stop control platform includes:
information receiving layer: the remote start-stop information is received by the client, and a start-stop instruction and a corresponding digital signature are generated according to the remote start-stop information;
information processing layer: the method comprises the steps of receiving the start-stop instruction and a digital signature, and determining an execution object of the start-stop instruction;
information control layer: for controlling the execution object to start/stop after the execution object is determined.
As an embodiment of the present invention, the information receiving layer includes:
and a human-computer interface module: the method comprises the steps of receiving a remote start-stop instruction of a client and extracting control information;
digital signature module: the method comprises the steps of determining an execution object of a start-stop instruction according to control information, and carrying out digital signature according to the characteristics of the execution object;
the instruction generation module: the method comprises the steps of generating a start-stop instruction under the condition that the digital signature signs;
third party application module: the data recording device is used for recording the start-stop instruction through a background system;
program interface module: the system is used for connecting with a background system and interacting recorded information with an application communication module;
service calling module: the method comprises the steps of carrying out service information calling on start information and feedback information, and carrying out monitoring item display by calling the information to an information receiving layer;
and (3) an application communication module: and the start-stop instruction is sent to the execution end.
As an embodiment of the present invention, the information processing layer includes:
an information storage module: the information receiving layer is used for receiving start-stop information of the information receiving layer and identifying and storing the start-stop information through the identifying unit;
the computing service module: the digital signature is used for carrying out variable calculation on the stored start-stop information and judging whether the digital signature is correct or not;
and an information management module: the digital signature is used for receiving the start-stop information after the variable calculation after the digital signature is correct, and carrying out data information classification management according to the received start-stop information;
and the information analysis module is used for: the data analysis is used for carrying out data analysis on the classified start-stop information;
cloud interaction module: the method is used for carrying out backup processing on the start-stop information after data analysis;
the notification management module: the information calling module is used for sending the information after the backup processing to the information calling module;
and an information calling module: and the execution object is used for determining the start-stop instruction according to the backup information.
As an embodiment of the present invention, the information control layer includes:
a first control module: the control device is used for connecting with the human-computer interface module and feeding back the operation information of starting and stopping of the control device to the human-computer interface module;
and a second control module: the device stopping information is used for receiving the device stopping information processed by the information processing layer and sending the device stopping information to a device receiver through a wireless remote control terminal;
and a third control module: the device starting information is used for receiving the device starting information processed by the information processing layer and transmitting the device starting information to a device receiver through a wireless remote control terminal;
and based on the first control module, the second control module and the third control module, performing start-stop control processing on the execution object, and controlling the start/stop of the execution object.
As an embodiment of the present invention, further comprising: a remote monitoring module, which is used for monitoring the operation of the mobile phone,
the remote monitoring module is used for: the remote start-stop control platform is used for monitoring the start-stop condition of the remote start-stop control platform and the use equipment;
the specific implementation steps of the remote monitoring module are as follows:
step one: the remote monitoring module receives a wireless start-stop signal sent by a transmitting end of the equipment;
step two: the remote monitoring module converts the start-stop information into a digital signal through an information compression algorithm, and sends the digital signal to a receiving end of a remote start-stop control platform;
step three: the remote start-stop control platform receives the digital signal and decompresses the digital signal;
step four: the remote start-stop control platform sends the decompressed digital signals to a receiving end of the using equipment and an information receiving layer of the remote start-stop control platform, so that monitoring operation of the using equipment and the remote start-stop control platform is realized.
As an embodiment of the invention, the system further comprises: the time control module is used for controlling the time control module,
the time control module: the remote start-stop control platform is used for controlling the start-stop time of the remote start-stop control platform for the using equipment;
the time control module includes:
a time presetting unit: the method comprises the steps of performing time preprocessing on start-stop information received by an information receiving end, and setting rated standard control time according to the time preprocessing;
a time calculation unit: the error calculation is used for calculating the rated standard control time, and the time for controlling the start and stop information is revised through the difference between the rated standard control time and the actual control time;
a time determination unit: and the time for checking the revised control start-stop information is determined.
As an embodiment of the invention, the system further comprises: an information positioning module is provided with a positioning module,
the information positioning module is used for: the device is used for carrying out positioning tracking on start-stop information of the control device, and determining whether the start-stop information is received by the device according to the real-time positioning information;
the information positioning module comprises:
an information identification unit: the remote start-stop control platform is used for identifying start-stop information received by a remote start-stop control platform receiving end;
an information calibration unit: the information calibration device is used for calibrating the identified start-stop information;
an information storage unit: the method comprises the steps of storing calibrated start-stop information in a database;
an information tracking unit: and the system is used for carrying out positioning tracking on the received and transmitted start-stop information according to the start-stop information stored in the database.
As an embodiment of the present invention, the specific steps of implementing information positioning by the information positioning module are as follows:
step one: the information identification unit receives start-stop information, carries out algorithm password analysis on the start-stop information to generate a digital signal, identifies the start-stop information according to the digital signal, and sends the identified digital signal to the information calibration unit;
step two: the information calibration unit receives the digital signals, performs start-stop signal calibration according to the identified digital signals, and sends the calibrated start-stop digital signals to the information storage unit;
step three: the information storage unit receives the calibrated start-stop digital signals, stores the start-stop digital signals and records the start-stop digital signals in a database;
step four: the information tracking unit reads the start-stop digital signals recorded in the database, and performs positioning tracking on the wireless start-stop signals according to the read information.
As an embodiment of the invention, the system further comprises: the wireless control switch module is used for controlling the starting and stopping of the using equipment through a wireless control signal;
the wireless control switch module includes:
start-stop signal receiving unit: the device is used for receiving a start-stop signal request transmitted by using equipment and preprocessing the start-stop signal;
start-stop signal judging unit: the device is used for receiving the preprocessed start-stop signal and making a judgment of equipment start-stop or equipment stop according to the start-stop signal request;
start-stop signal processing unit: the device is used for controlling and processing a device start signal or a device stop signal;
start-stop signal transmitting unit: the device starting signal or the device stopping signal after the control processing is transmitted to the receiving end of the using device through the transmitting end of the remote start-stop control platform.
As an embodiment of the present invention, the specific implementation steps of the wireless control switch module for switching on or off the user equipment are as follows:
step one: the start-stop signal receiving unit receives a start-stop signal request transmitted by using equipment, pre-processes the start-stop signal and transmits the pre-processed start-stop signal to the start-stop signal judging unit;
step two: the start-stop signal judging unit receives the start-stop signal, starts or stops judging the start-stop signal, and sends the divided equipment start signal or equipment stop signal to the start-stop signal processing unit according to the equipment request by dividing the judged signal into the equipment start signal and the equipment stop signal;
step three: the start-stop signal processing unit receives a device start signal or a device stop signal, monitors and controls the signals, can execute a remote wireless control command through controlling and processing the signals, and sends the signals subjected to the monitoring and control to the start-stop signal transmitting unit;
step four: the start-stop signal transmitting unit receives the control processing signals and transmits the device start signals or the device stop signals after the control processing to the receiving end of the using device through the remote start-stop control platform transmitting end.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.
The technical scheme of the invention is further described in detail through the drawings and the embodiments.
Detailed Description
The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.
Example 1
As shown in fig. 1, an embodiment of the present invention provides a remote start-stop control platform, including:
information receiving layer: the remote start-stop information is received by the client, and a start-stop instruction and a corresponding digital signature are generated according to the remote start-stop information;
information processing layer: the method comprises the steps of receiving the start-stop instruction and a digital signature, and determining an execution object of the start-stop instruction;
information control layer: for controlling the execution object to start/stop after the execution object is determined.
The working principle of the technical scheme is as follows: the information receiving layer sends a request for equipment starting or equipment stopping according to the self requirement sent by using equipment, and in the information receiving layer, the called start-stop information is sent to the information processing layer through interaction among a man-machine interface module, a third party application module, a program interface module, a service calling module and an application communication module; the information processing layer starts to process the received start-stop information, in the information processing layer, the operations of identifying, storing, calculating and analyzing the start-stop information and the like are performed through the information storage module, the calculation service module, the information management module, the information analysis module, the cloud interaction module, the information calling module and the notification management module, and then the processed start-stop information is sent to the information control layer; the information control layer performs control operation on the processed start-stop information, and gives feedback operation of enabling the information to start and stop the using equipment; the invention also comprises a digital signature, which is one of main innovation points of the invention, because the digital signature is not particularly important to a remote control platform in the prior art, most of the remote control platform is a wired platform, but the wireless platform is few, and the main reason is that signals are easy to cause interference, an execution object cannot be identified, and the invention adopts wireless control, but adopts a digital signature technology, so that the execution object has uniqueness, and after the execution object is determined, a start-stop instruction can be sent according to the execution object to be removed from one to one.
The beneficial effects of the technical scheme are as follows: the step-by-step operation of the information receiving layer, the information processing layer and the information control layer on the start-stop information is completed, the starting and stopping operation of the using equipment is carried out through remote control, the round trip time can be saved, and the state of switching of the using equipment can be achieved through non-contact control.
Example 2:
in one embodiment, the information receiving layer includes:
and a human-computer interface module: the method comprises the steps of receiving a remote start-stop instruction of a client and extracting control information;
digital signature module: the method comprises the steps of determining an execution object of a start-stop instruction according to control information, and carrying out digital signature according to the characteristics of the execution object;
the instruction generation module: the method comprises the steps of generating a start-stop instruction under the condition that the digital signature signs;
third party application module: the data recording device is used for recording the start-stop instruction through a background system;
program interface module: the system is used for connecting with a background system and interacting recorded information with an application communication module;
service calling module: the method comprises the steps of carrying out service information calling on start information and feedback information, and carrying out monitoring item display by calling the information to an information receiving layer;
and (3) an application communication module: and the start-stop instruction is sent to the execution end.
The working principle of the technical scheme is as follows: in the present invention, the digital signature is unique so that it is set after the characteristics of the execution object are determined. And thereafter the uniqueness of the digital signature such that the start-stop instruction is generated only if the digital signature is signed. The human-computer interface is a medium and a dialogue interface for transmitting and exchanging information between a person and a computer, an operation and maintenance person can check monitoring items of the platform through a display screen of a remote start-stop control platform, in a third party application, a background system is used for recording start and stop information of a using device, a program interface module is connected with the background system for information communication between the background system and the platform, as shown in figure 3, a service calling module is used for transmitting request signals of the using device, and then an application communication module is used for controlling communication between the using device and the remote start-stop control platform;
the beneficial effects of the technical scheme are as follows: through the mutual connection among the modules in the information receiving layer, the received start-stop information is subjected to multi-module calling, so that the feedback result of the request information can be timely realized, and the preprocessed information can be conveniently transmitted to the information processing layer.
Example 3:
in one embodiment, the information processing layer includes:
an information storage module: the information receiving layer is used for receiving start-stop information of the information receiving layer and identifying and storing the start-stop information through the identifying unit;
the computing service module: the digital signature is used for carrying out variable calculation on the stored start-stop information and judging whether the digital signature is correct or not;
and an information management module: the digital signature is used for receiving the start-stop information after the variable calculation after the digital signature is correct, and carrying out data information classification management according to the received start-stop information;
and the information analysis module is used for: the data analysis is used for carrying out data analysis on the classified start-stop information;
cloud interaction module: the method is used for carrying out backup processing on the start-stop information after data analysis;
the notification management module: the information calling module is used for sending the information after the backup processing to the information calling module;
and an information calling module: and the execution object is used for determining the start-stop instruction according to the backup information.
The working principle of the technical scheme is as follows: in the information processing layer, the information received from the using equipment is processed according to the information storage module, the computing service module, the information management module, the information analysis module, the cloud interaction module, the information calling module and the notification management module, so that the start-stop information is subjected to data analysis in the information processing layer;
the beneficial effects of the technical scheme are as follows: the information processing layer analyzes the data of the start-stop information, so that the background of the remote start-stop monitoring platform can generate more accurate control data.
Example 4:
in one embodiment, the information control layer includes:
the information control layer includes:
a first control module: the control device is used for connecting with the human-computer interface module and feeding back the operation information of starting and stopping of the control device to the human-computer interface module;
and a second control module: the device stopping information is used for receiving the device stopping information processed by the information processing layer and sending the device stopping information to a device receiver through a wireless remote control terminal;
and a third control module: the device starting information is used for receiving the device starting information processed by the information processing layer and transmitting the device starting information to a device receiver through a wireless remote control terminal;
and based on the first control module, the second control module and the third control module, performing start-stop control processing on the execution object, and controlling the start/stop of the execution object.
The working principle of the technical scheme is as follows: in the information control layer, the first control module, the second control module and the third control module give the processed start-stop information an effect of controlling the equipment to start or stop, and respectively feed back start-stop signals to the equipment, control the equipment to stop and control the operation of starting the equipment according to different effects of the three control modules;
the beneficial effects of the technical scheme are as follows: the first control module, the second 0 control module and the third control module are used for carrying out classification control on the start-stop information, so that the control information among the modules is not interfered with each other.
Example 5:
in one embodiment, further comprising: a remote monitoring module, which is used for monitoring the operation of the mobile phone,
the remote monitoring module is used for: the remote start-stop control platform is used for monitoring the start-stop condition of the remote start-stop control platform and the use equipment;
the specific implementation steps of the remote monitoring module are as follows:
step one: the remote monitoring module receives a wireless start-stop signal sent by a transmitting end of the equipment;
step two: the remote monitoring module converts the start-stop information into a digital signal through an information compression algorithm, and sends the digital signal to a receiving end of a remote start-stop control platform;
step three: the remote start-stop control platform receives the digital signal and decompresses the digital signal;
step four: the remote start-stop control platform sends the decompressed digital signals to a receiving end of the using equipment and an information receiving layer of the remote start-stop control platform, so that monitoring operation of the using equipment and the remote start-stop control platform is realized;
the working principle of the technical scheme is as follows: in the process of the remote monitoring module for the remote monitoring of the using equipment, the invention adopts an information compression algorithm and the conversion of lion signals, and then realizes the start-stop control based on digital signals.
In a specific embodiment, in the process of the remote monitoring module for remotely monitoring the using device, the remote monitoring module processes and calculates the information compression algorithm on the start-stop signal by receiving the wireless start-stop signal sent by the transmitting end of the using device,
the compressed signal is a compressed model:
wherein gamma is0 For initial signal strength, λ is signal wavelength, ψ is signal compression, Μ is interference strength, χi A signal reduction degree, v, representing an ith signal, is a signal transmission rate; zeta typet A compression model for compressing a signal at time t is shown; i is a positive integer and n; n represents a compression function. The purpose of the above formula is to build a compression model, and calculate the compression value of each signal. When compressing a signal, the compressed signal must be constrained, and the signal constraint conditions are:
wherein m is0 For the lowest rated digital signal, M0 Is the highest rated digital signal;
after the start-stop information is converted into a digital signal, the converted digital signal is sent to a receiving end of a remote start-stop control platform, the remote start-stop control platform starts to decompress the digital signal, and then the decompressed digital signal is sent to an information receiving layer, so that monitoring operation of using equipment and the remote start-stop control platform is realized;
the beneficial effects of the technical scheme are as follows: the remote monitoring module is used for remotely monitoring the using equipment and the remote start-stop control platform, judging whether the using equipment is in a normal working state or not and whether an error start-stop information request occurs or not through monitoring, and ensuring that the compressed digital signal is in an identifiable range according to the constraint condition.
Example 6:
in one embodiment, the platform further comprises: and the time control module is used for:
the time control module: the remote start-stop control platform is used for controlling the start-stop time of the remote start-stop control platform for the using equipment;
the time control module includes:
a time presetting unit: the method comprises the steps of performing time preprocessing on start-stop information received by an information receiving end, and setting rated standard control time according to the time preprocessing;
a time calculation unit: the error calculation is used for calculating the rated standard control time, and the time for controlling the start and stop information is revised through the difference between the rated standard control time and the actual control time;
a time determination unit: the time for revising the revised control start-stop information is determined;
the working principle of the technical scheme is as follows: the invention discloses a pair of signal transmission, it is also necessary to control the start and stop events to ensure that the events have no error events.
In the time control module, we tend to process events, where the time spent on the signal needs to be calculated first because the signal needs to be transmitted by the event. The received start-stop information is subjected to time preprocessing, then rated standard control time is set according to the time preprocessing, and the round trip period of the start-stop signal is C0 :
Wherein L is the total lost time of the round trip period of the start-stop signal; y represents the nominal standard control time;
wherein li Delay time of signal at ith second, Mi For the ith second is a time consumption error, Ri The interfered time of the signal at the ith second;
and then carrying out error calculation on the rated standard control time through a time calculation unit, determining the difference between the rated standard control time and the actual control time, starting to revise the time of controlling the start-stop information, and determining the revised signal time: c (C)
Wherein T isλ Wavelength time is transmitted for the signal. Finally, rechecking and determining according to the time of the revised control start-stop information;
the beneficial effects of the technical scheme are as follows: in the time control module, the time from receiving the start-stop information request sent by the using equipment to the time period of the start-stop control information fed back to the using equipment from the remote start-stop control platform is analyzed and calculated, and the extremely small time-consuming control can be achieved through formula calculation, so that the start-stop information can be timely transmitted to the using equipment.
Example 7:
in one embodiment, the platform further comprises: an information positioning module is provided with a positioning module,
the information positioning module is used for: the device is used for carrying out positioning tracking on start-stop information of the control device, and determining whether the start-stop information is received by the device according to the real-time positioning information;
the information positioning module comprises:
an information identification unit: the remote start-stop control platform is used for identifying start-stop information received by a remote start-stop control platform receiving end;
an information calibration unit: the information calibration device is used for calibrating the identified start-stop information;
an information storage unit: the method comprises the steps of storing calibrated start-stop information in a database;
an information tracking unit: the system is used for carrying out positioning tracking on the received and transmitted start-stop information according to the start-stop information stored in the database;
the working principle of the technical scheme is as follows: in the information positioning module, an information identification unit identifies received start-stop information, then the information calibration unit is used for calibrating the start-stop information, after the information calibration is completed, an information storage unit is used for storing the calibrated start-stop information, and then the information tracking unit is used for positioning and tracking the start-stop information according to the stored calibration information;
the beneficial effects of the technical scheme are as follows: the information positioning module is used for positioning and tracking the received and fed back start-stop information through the gradual operation of a series of units, and the information positioning module is used for positioning and tracking the start-stop information, so that the background of the remote start-stop control platform can grasp the transmission position of the information in real time.
Example 8:
in one embodiment, the specific steps of the information positioning module for implementing information positioning are as follows:
step one: the information identification unit receives start-stop information, carries out algorithm password analysis on the start-stop information to generate a digital signal, identifies the start-stop information according to the digital signal, and sends the identified digital signal to the information calibration unit;
step two: the information calibration unit receives the digital signals, performs start-stop signal calibration according to the identified digital signals, and sends the calibrated start-stop digital signals to the information storage unit;
step three: the information storage unit receives the calibrated start-stop digital signals, stores the start-stop digital signals and records the start-stop digital signals in a database;
step four: the information tracking unit reads the start-stop digital signals recorded in the database and performs positioning tracking on the wireless start-stop signals according to the read information;
the working principle of the technical scheme is as follows: in the process of positioning and tracking information, an information identification unit carries out algorithm password analysis operation on received start-stop information, then generates a digital signal, identifies the digital signal, then carries out start-stop information calibration on the identified digital signal, stores the calibrated signal in a database at the same time, compares the signal received by an information receiving layer with the signal stored in the database, and then carries out positioning and tracking on the information according to the compared data;
the beneficial effects of the technical scheme are as follows: and the received and fed back start-stop information is positioned and tracked, so that the positioned start-stop information can be monitored in real time in the background information data record of the remote control platform, and whether the start-stop information is normally transmitted and received or not can be judged.
Example 9:
in one embodiment, further comprising: the wireless control switch module is used for controlling the starting and stopping of the using equipment through a wireless control signal;
the wireless control switch module includes:
start-stop signal receiving unit: the device is used for receiving a start-stop signal request transmitted by using equipment and preprocessing the start-stop signal;
start-stop signal judging unit: the device is used for receiving the preprocessed start-stop signal and making a judgment of equipment start-stop or equipment stop according to the start-stop signal request;
start-stop signal processing unit: the device is used for controlling and processing a device start signal or a device stop signal;
start-stop signal transmitting unit: the device starting signal or the device stopping signal after the control processing is transmitted to a receiving end of the using device through a transmitting end of the remote start-stop control platform;
the working principle of the technical scheme is as follows: in the wireless control switch module, the start-stop signal receiving unit, the start-stop signal judging unit, the start-stop signal processing unit and the start-stop signal transmitting unit are used for respectively receiving, judging, processing and transmitting signals for controlling the start-stop of the using equipment, so that the using equipment can be subjected to switch control through remote wireless signals;
the beneficial effects of the technical scheme are as follows: the wireless switch module is used for directly carrying out equipment connection or equipment disconnection operation on the using equipment, so that the manual switch on the using equipment is avoided, and the manpower consumption can be saved.
Example 10:
in one embodiment, as shown in fig. 2, the specific implementation steps of the wireless control switch module for switching on or off the using device are as follows:
step one: the start-stop signal receiving unit receives a start-stop signal request transmitted by using equipment, pre-processes the start-stop signal and transmits the pre-processed start-stop signal to the start-stop signal judging unit;
step two: the start-stop signal judging unit receives the start-stop signal, starts or stops judging the start-stop signal, and sends the divided equipment start signal or equipment stop signal to the start-stop signal processing unit according to the equipment request by dividing the judged signal into the equipment start signal and the equipment stop signal;
step three: the start-stop signal processing unit receives a device start signal or a device stop signal, monitors and controls the signals, can execute a remote wireless control command through controlling and processing the signals, and sends the signals subjected to the monitoring and control to the start-stop signal transmitting unit;
step four: the start-stop signal transmitting unit receives the control processing signal and transmits the device start signal or the device stop signal after the control processing to the receiving end of the using device through the transmitting end of the remote start-stop control platform;
the working principle of the technical scheme is as follows: the wireless control switch module is used for preprocessing the start-stop signal after receiving a request signal transmitted by the using equipment, classifying the signal by judging, dividing the signal into an equipment start signal or an equipment stop signal, monitoring and controlling the judged signal, respectively transmitting the processed signal to the control module 2 and the control module 3, and transmitting information for controlling the start-stop of the using equipment switch to a receiving end of the using equipment through a wireless signal;
the beneficial effects of the technical scheme are as follows: the more accurate classification control of start-stop information can save time and improve the accuracy of disconnecting or connecting control equipment.
It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.