CN105629857A - System for monitoring environment of flight training device - Google Patents

Abstract

The invention provides a system for monitoring environment of a flight training device. The system comprises at least one detection end, which is used for obtaining at least one data of the environment of the flight training device; a data acquisition terminal, which is used for receiving the at least one data obtained by the at least one detection end; and a monitoring platform, which is used for receiving the at least one data from the data acquisition terminal and displaying the data to an operator, and determining whether to output an alarm signal to the operator based on the at least one data. The system can reduce labor cost and operating cost effectively, and meanwhile, and improves reliability and utilization rate of the flight training device.

Description

A kind of system for monitoring flight training equipment environment

Technical field

The present invention relates to a kind of system for monitoring flight training equipment environment.

Background technology

Flight training equipment is mainly used in flight, flight crew's training, the experiment of flight program, the flight PRODUCTION TRAITS such as accident reproduction and investigation. Mainly comprise flight simulation machine, flight training device, synthetic process training device, computer-aided instruction equipment etc. at present. Owing to flight training equipment is the flight simulation equipment being integrated with a large amount of hard-core technology such as Computer Simulation, graph image, aviation electronics, running environment is had strict, harsh requirement. If environment uses transfiniting, the normal use of equipment and life-span can be produced directly impact. And the training equipment that flies safe, stable, normally run, be directly connected to simulation quality and the training quality of training equipment, even can have influence on aircraft and normally can pay user and put into operation.

Current flight training equipment environmental management is based upon on manual patrol basis to carry out examination and maintenance. Owing to dispersion arranged by flight training equipment, the low inspection frequency that watchstander is limited and causes, low reliability, cannot the problem such as early warning fast, flight training equipment parts are easily damaged.

Summary of the invention

Considering based on above-mentioned, the object of the invention is to provide a kind of system for monitoring flight training equipment environment, effectively to reduce cost of labor and running cost, and improves reliability and the utilization ratio of flight training equipment simultaneously.

At this, it is proposed that a kind of system for monitoring flight training equipment environment, described system comprises: at least one detecting end, and it is for obtaining at least one data of described flight training equipment environment; Data acquisition terminal, its at least one data obtained for receiving at least one detecting end described; Monitor supervision platform, it is for receiving from described data acquisition terminal and shows at least one data described to operator, and determines whether to described operator's output alarm signal based at least one data described.

Preferably, described system also comprises at least one camera and middle control machine, wherein, at least one camera described is for monitoring the graphic information of described flight training equipment environment, and by described middle control machine, described graphic information is sent to described monitor supervision platform, and wherein said monitor supervision platform also determines whether to described operator's output alarm signal based on described graphic information.

Preferably, described system also comprises course/Plan Data Source on duty, and it is for being sent to described monitor supervision platform by course/plan on duty, so that described monitor supervision platform determines whether to described operator's output alarm signal based on described course/plan on duty.

Preferably, described system also comprises cloud database, wherein said monitor supervision platform also for mutual with described cloud database, with the information at least one data described, described graphic information and/or described course/plan on duty being uploaded to described cloud database and/or needed for downloading from described cloud database.

Preferably, described system also comprises cloud application platform and mobile-terminal platform, wherein, described mobile-terminal platform is for sending request to described cloud application platform, to inquire about at least one data described, described graphic information and/or described course/plan on duty, and wherein, described cloud application platform based on described request at least one data described in described cloud database request, described graphic information and/or described course/plan on duty, so that at least one data described, described graphic information and/or described course/plan on duty are sent to described mobile-terminal platform.

Preferably, described course/plan on duty is sent to described monitor supervision platform via VGA to USB converter by described course/Plan Data Source on duty.

Preferably, determine whether that based at least one data described exporting described guard signal to described operator comprises: by least one data described compared with corresponding threshold value, break down to determine whether, and when described fault occurs, export described guard signal to described operator.

Preferably, at least one item in below at least one data comprise described: the working order of temperature, humidity and flight training equipment.

Preferably, described flight training equipment comprise following at least one item: flight simulation machine, flight training device, synthetic process training device and computer-aided instruction equipment.

Preferably, at least one detecting end described communicates based on ZIGBEE agreement with described data acquisition terminal.

Preferably, described monitor supervision platform is configured based on LABVIEW development environment.

Preferably, described graphic information comprise following at least one item: the behavior of the operator in the current environment of described flight training equipment environment and described flight training equipment environment.

This system can meet the protection of the environment of all kinds of precise electronic equipment and the demand of monitoring management; and by building communication mode between the intelligent monitor system according to the present invention and cloud service; realize data corresponding and monitor in real time, inquiry and the early warning of high efficient and reliable, provide technical support for building flight training equipment protecting standard system and technological standard research. Also based on this system, flight training equipment prevention & protection Monitoring and Controlling system and application message platform can be built up simultaneously, provide support for improving the service efficiency of flight training equipment.

The all respects of the present invention are more clear by the explanation by specific embodiment hereinafter.

Accompanying drawing explanation

By reading with reference to detailed description non-limiting example done that the following drawings is done, the other features, objects and advantages of the present invention will become more apparent:

Fig. 1 shows the schematic diagram of the system for monitoring flight training equipment environment according to one embodiment of present invention.

In the drawings, running through different diagrams, same or similar Reference numeral represents identical or corresponding parts or feature.

Embodiment

Fig. 1 shows the schematic diagram of the system for monitoring flight training equipment environment according to one embodiment of present invention.

As shown in Figure 1, at least one detecting end is comprised according to the system of the present invention. These detecting ends are distributed in different geographical position, to obtain at least one data of corresponding multiple flight training equipment environment. These detecting ends can be implemented with the form of sensor.

In one embodiment of the invention, these data at least comprise: the working order of the flight temperature of training equipment environment, humidity and/or flight training equipment. At this, flight training equipment environment can be the computer house of flight residing for training equipment.

Preferably, the training equipment that flies at least comprises: flight simulation machine (FFS), flight training device (FTD), synthetic process training device (IPT) and/or computer-aided instruction equipment (CBT).

Further, at least one data that they obtain are sent to data acquisition terminal by least one detecting end and data acquisition terminal communication. In one embodiment of the invention, at least one detecting end and data acquisition terminal are arranged in the wireless Working environment of ZIGBEE. Thus the low power local area networks agreement based on IEEE802.15.4 standard is built flight training equipment wireless environment monitoring Internet of things hardware platform, thus realizes the transfer of multi-usage monitoring sensor on a large scale and communicate.

These data summarization, after receiving the data that different detecting ends sends, are sent to monitor supervision platform by this data acquisition terminal.

, as shown in Figure 1, in addition this system also comprises at least one camera. The different geographical position that these cameras can be distributed in flight training equipment environment, to monitor the graphic information of flight training equipment environment. Preferably, these graphic informations can comprise the current environment of flight training equipment environment and the behavior of the operator in flight training equipment environment. Thus, it is possible to whether monitoring flight training equipment environment emergency case occurs, such as whether presence of fire. And such as can monitor which operator and enter in flight training equipment environment, and whether the operation behavior monitoring them is applicable to. Due to, flight training equipment environment is all restrictive, thus can also be avoided the intrusion of idler by monitoring.

Afterwards, graphic information is sent to middle control machine by these cameras, and these graphic informations are then gathered by middle control machine, and are sent to monitor supervision platform.

Further, this system also can also comprise course/Plan Data Source on duty, and it is for being sent to monitor supervision platform by course/plan on duty. In one embodiment of the invention, course/Plan Data Source on duty can be stored in the in-house network of enterprise. These courses/Plan Data Source on duty such as can indicate the applicable cases of the training equipment that flies every day. Such as, which personnel take part in course and/or on duty, and which course flight training equipment is used for every day.

Preferably, above-mentioned course/plan on duty can be sent to monitor supervision platform by the transmodulator of VGA to USB by course/Plan Data Source on duty.

Therefore, monitor supervision platform can receive from detecting end and the flight relevant data of training equipment environment, from camera flight training equipment environment graphic information and from the course/plan on duty of course/Plan Data Source on duty. These information can be presented to operator by display interface by monitoring terminal, so that its inquiry in real time and monitoring.

In addition, flight training equipment environment can also be carried out monitoring and early warning in conjunction with above-mentioned information by monitor supervision platform. Preferably, when there is fault, to operator's output alarm signal.

Such as, monitor supervision platform by data compared with corresponding threshold value, can break down to determine whether, and when a failure occurs, to operator's output alarm signal. Such as, it is possible to when temperature and/or humidity are too high, to operator's output alarm signal.

Such as, monitor supervision platform can also should carry out any course by the clear and definite current flight training equipment of course/plan on duty, implements which function, and which personnel has the right to carry out above-mentioned course. Thus, monitor supervision platform can such as stop entering of idler in conjunction with the graphic information from camera. Such as, when finding idler, to operator's output alarm signal.

In addition, whether monitor supervision platform normally can also be implemented in conjunction with the function that the data relevant with flight training equipment environment from detecting end judge in above-mentioned course/plan on duty. When normally not implementing, to operator's output alarm signal.

Certainly, by means of only camera, monitor supervision platform can also analyze whether flight training equipment environment emergency situation (such as fire) occurs, thus the very first time is to operator's output alarm signal.

It will be understood and appreciated by those or skill in the art that above-mentioned example is only schematically, but not restrictive. Monitor supervision platform can in conjunction with above-mentioned three kinds of information, or judge whether fault based on wherein any one or any two, whether to be produced guard signal.

On the other hand, the operator of monitor supervision platform can also call at any time, inquire about corresponding data, graphic information and/or course/plan on duty, thus understand current flight training equipment environment in real time.

Preferably, this monitor supervision platform is based on the development environment of LABVIEW. LABVIEW development environment is utilized to build flight training equipment wireless intelligent monitoring software application platform, it is possible to realize in 60 seconds, automatically identifying that warning is abnormal, the flight monitoring of training equipment state of health, the monitoring of real-time photography picture, course display function etc.

With continued reference to Fig. 1, system also comprises cloud database, and wherein monitor supervision platform is also for mutual with cloud database, with the information at least one data aforesaid, graphic information and/or course/plan on duty being uploaded to cloud database and/or needed for downloading from cloud database.

Further, system also comprises cloud application platform and mobile-terminal platform. In operation, operator can also use mobile-terminal platform to send request to cloud application platform, to inquire about required information, and such as data, graphic information and/or course/plan on duty.

At this, cloud application platform by based on request to the required accordingly information of cloud database request, so that information needed is sent to mobile-terminal platform.

At this, mobile terminal may be embodied as intelligent terminal, such as mobile phone, PC etc. Preferably, mobile-terminal platform can realize in the way of micro-letter public number, thus the real-time inquiry of convenient operation personnel and monitoring. Thus, establish flight training equipment wireless intelligent monitoring software application platform (monitor supervision platform) and internet cloud serve between communication pattern, it is achieved that the portable access of mobile terminal, monitoring, inquiry and early warning.

By the system according to the present invention, can Timeliness coverage such as humiture abnormal, close down equipment, thus effectively prevent the flight training equipment damage that environmental factors causes, the hardware damage that any environmental factors causes, also reduce equipment use cost and relevant spare part inventory cost pressure, avoid economic above-mentioned loss. In addition, also checking without the need to watchstander scene, reduces a large amount of energy consumption of staff.

Therefore, after decreasing the structure deteriorate that environmental factors causes, it is possible to ensure the normal use of flight training equipment further.

It should be noted that, above-described embodiment is only exemplary, but not limitation of the present invention. Any technical scheme not deviating from spirit of the present invention all should fall within protection scope of the present invention, and this comprises the different technologies feature using and occurring in different embodiments, and method can combine, to obtain useful effect.

Claims (12)

1., for monitoring a system for flight training equipment environment, described system comprises:

At least one detecting end, it is for obtaining at least one data of described flight training equipment environment;

Data acquisition terminal, its at least one data obtained for receiving at least one detecting end described;

Monitor supervision platform, it is for receiving from described data acquisition terminal and shows at least one data described to operator, and determines whether to described operator's output alarm signal based at least one data described.

2. system according to claim 1, it is characterized in that, described system also comprises at least one camera and middle control machine, wherein, at least one camera described is for monitoring the graphic information of described flight training equipment environment, and by described middle control machine, described graphic information is sent to described monitor supervision platform, and wherein said monitor supervision platform also determines whether to described operator's output alarm signal based on described graphic information.

3. system according to claim 1 and 2, it is characterized in that, described system also comprises course/Plan Data Source on duty, it is for being sent to described monitor supervision platform by course/plan on duty, so that described monitor supervision platform determines whether to described operator's output alarm signal based on described course/plan on duty.

4. system according to claim 3, it is characterized in that, described system also comprises cloud database, wherein said monitor supervision platform also for mutual with described cloud database, with the information at least one data described, described graphic information and/or described course/plan on duty being uploaded to described cloud database and/or needed for downloading from described cloud database.

5. system according to claim 2, it is characterized in that, described system also comprises cloud application platform and mobile-terminal platform, wherein, described mobile-terminal platform is for sending request to described cloud application platform, to inquire about at least one data described, described graphic information and/or described course/plan on duty, and wherein, described cloud application platform based on described request at least one data described in described cloud database request, described graphic information and/or described course/plan on duty, with by least one data described, described graphic information and/or described course/plan on duty are sent to described mobile-terminal platform.

6. system according to claim 3, it is characterised in that, described course/plan on duty is sent to described monitor supervision platform via VGA to USB converter by described course/Plan Data Source on duty.

7. system according to claim 1, it is characterised in that, determine whether that based at least one data described exporting described guard signal to described operator comprises:

By at least one data described compared with corresponding threshold value, break down to determine whether, and when described fault occurs, export described guard signal to described operator.

8. system according to claim 1, it is characterised in that, at least one item in below at least one data comprise described: the working order of temperature, humidity and flight training equipment.

9. system according to claim 1, it is characterised in that, described flight training equipment comprise following at least one item: flight simulation machine, flight training device, synthetic process training device and computer-aided instruction equipment.

10. system according to claim 1, it is characterised in that, at least one detecting end described communicates based on ZIGBEE agreement with described data acquisition terminal.

11. systems according to claim 1, it is characterised in that, configure described monitor supervision platform based on LABVIEW development environment.

12. systems according to claim 2, it is characterised in that, described graphic information comprise following at least one item: the behavior of the operator in the current environment of described flight training equipment environment and described flight training equipment environment.