CN112891884A

CN112891884A - Light guide training system for runway

Info

Publication number: CN112891884A
Application number: CN202110063859.7A
Authority: CN
Inventors: 孙红标
Original assignee: Beijing Ruidigang Technology Co ltd
Current assignee: Beijing Ruidigang Technology Co ltd
Priority date: 2021-01-18
Filing date: 2021-01-18
Publication date: 2021-06-04

Abstract

The application provides a light guide training system for runway, includes: a plurality of removable runway light guide training equipment units; the light-emitting devices are arranged in the light guide training equipment units for the runways; a fixing device for fixing the plurality of runway light guide training equipment units; the receiving device is used for receiving a light source control signal of the light-emitting device; and the display device is used for displaying the real-time light-emitting state of the light-emitting device according to the light source control signal. Therefore, the difference between the training object and the runway light guide training device can be displayed in real time, and the real-time speed of the training object can be displayed. In addition, the training result of the training subject can be displayed. The training object and the coach can visually find the defects in the training process, the training analysis and the summarization are convenient to carry out, and a scientific and digital training mode is further provided.

Description

Light guide training system for runway

Technical Field

The application relates to the technical field of physical training, in particular to a light guide training system for a runway.

Background

At present, when relevant training such as running and walking race is carried out on a runway, coaches generally adopt modes such as manual timing, visual observation, video auxiliary and the like for training. However, each link has an error. Based on the runway light guide training device, although the speed of the training object can be intuitively obtained by the training object and a coach, the speed of the training object cannot be obtained in real time, and training analysis is not facilitated. In addition, by adopting the traditional training mode, the training object cannot acquire the real-time speed of the training object in the training process, and the speed allocation is not facilitated.

Therefore, it is desirable to provide a light guide training system for a runway. The distance between the training object and the runway light guide training device can be displayed in real time, and the real-time speed of the training object can be displayed. In addition, the training result of the training subject can be displayed. The training object and the coach can visually find the defects in the training process, the training analysis and the summarization are convenient to carry out, and a scientific and digital training mode is further provided.

Disclosure of Invention

The embodiment of the application provides a light guide training system for a runway.

Specifically, a light guide training system for a runway includes:

a plurality of removable runway light guide training equipment units;

the light-emitting devices are arranged in the light guide training equipment units for the runways;

a fixing device for fixing the plurality of runway light guide training equipment units;

the receiving device is used for receiving a light source control signal of the light-emitting device;

and the display device is used for displaying the real-time light-emitting state of the light-emitting device according to the light source control signal.

Further, the runway light guide training system further includes:

the training monitoring device is used for monitoring the training of the training object in the runway;

the receiving device is also used for receiving training monitoring information of the training objects in the runway;

the display device is also used for displaying the training monitoring information of the training objects in the runway according to the training monitoring information.

Further, the runway light guide training system further includes:

the detection device is used for detecting the training monitoring information which exceeds the allowable fluctuation range;

and the display device is also used for displaying warning information according to the training monitoring information exceeding the allowable fluctuation range.

Furthermore, the display device can be used for synchronously displaying the real-time light-emitting state of the light-emitting device and training monitoring information of the training objects in the runway.

Furthermore, the real-time light-emitting state of the light-emitting device and the training monitoring information of the training objects in the runway are synchronously displayed in at least one display mode of regional display or image contract-making regional display in the display region.

The embodiment of the application also provides another light guide training system for the runway.

Specifically, a light guide training system for a runway includes:

the receiving device is used for receiving a light source control signal of the light guide training equipment for the runway in the training process;

and the display device is used for displaying the real-time light-emitting state of the light guide training equipment for the runway according to the light source control signal.

Further, the runway light guide training system further includes:

Furthermore, the display device can be used for synchronously displaying the real-time light-emitting state of the runway light guide training equipment and the training monitoring information of the training objects in the runway.

Further, the real-time light emitting state of the runway light guide training equipment and the training monitoring information of the training objects in the runway are synchronously displayed through at least one display mode of regional display or image contract-fitting regional display in the display region.

The technical scheme provided by the embodiment of the application at least has the following beneficial effects:

by the runway light guide training system, the difference between the training object and the runway light guide training equipment can be displayed in real time, and the real-time speed of the training object can be displayed. In addition, the training result of the training subject can be displayed. The training object and the coach can visually find the defects in the training process, the training analysis and the summarization are convenient to carry out, and a scientific and digital training mode is further provided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic structural diagram of a runway light guide training system according to an embodiment of the present disclosure.

Light guide training system for 100 runways

11 light guide training equipment unit for runway

12 light emitting device

13 fixing device

14 receiving device

15 display device

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, the present application discloses a runway light guide training system 100, comprising:

a plurality of removable runway light guide training device units 11;

a light emitting device 12 internally provided in the plurality of runway light guide training device units 11;

a fixing device 13 for fixing the plurality of runway light guide training equipment units 11;

a receiving device 14 for receiving a light source control signal of the light emitting device 12;

and the display device 15 is used for displaying the real-time light-emitting state of the light-emitting device 12 according to the light source control signal.

The detachable light guide training equipment units 11 for the runway are assembled into light guide training equipment for the short-distance runway and light guide training equipment for the full-distance runway according to specific use scenes. The international standard runway is 400 meters in the circumference of the inner ring. The light guide training equipment for the short-distance runway can be installed in an interval mode along the inner circle of the runway, and is suitable for short-distance running training, such as 50-meter running training, 60-meter running training, 100-meter running training and 200-meter running training. The light guide training equipment for the full-distance runway is installed in a full-interval mode along the inner circle of the runway, and is suitable for various running training modes, such as short-distance running training, middle-distance running training, hurdling running training, relay running training and obstacle running training. The light guide training equipment for the runway has the functions of providing target speed in running training, performing light following training and improving the speed matching capability of players. The training efficiency can be improved while the training is strengthened. The light guide training equipment for the runway can provide a novel scientific training method. It is understood that the specific usage scenario of the removable runway light guide training device units 11 is not limited to the specific scope of the present application. Specifically, the runway light guide training device unit 11 is a hollow tubular structure. The runway light guide training device unit 11 may be designed to be arched or square in appearance. The runway light guide training equipment unit 11 is made of any one of aluminum alloy, rigid plastic, glass fiber reinforced plastic and stainless steel. It is understood that the specific shape and material of the runway light guide training device unit 11 is not intended to limit the scope of the present invention.

And the light-emitting device 12 is arranged in the plurality of runway light guide training equipment units 11 and is used for providing light-emitting targets in training. By controlling the time interval at which adjacent light emitting devices 12 are lit, a target speed can be provided, thereby performing various exercises.

And the fixing device 13 is used for fixing the light guide training equipment units 11 for the runways and is used for realizing the combined connection and installation of the light guide training equipment units 11 for the runways so as to meet the training requirements of different distances. The runway light guide training device unit 11 is of tubular construction, so that the fixing device 13 should be correspondingly designed as tubular construction. And the size of the inner cavity of the fixing device 13 is matched with the size of the outer cavity of the light guide training equipment unit 11 for the runway. Otherwise, the connection of the light guide training equipment unit 11 for the runway is easy to loosen and damage easily.

And a receiving device 14 for receiving a light source control signal of the light emitting device 12. By controlling the time interval at which adjacent light emitting devices 12 are lit, a target speed may be provided. Different target speeds correspond to different light source control signals. The light source control signal includes information such as the lighting color, lighting speed, and lighting position of the light emitting device 12, in addition to the lighting time interval of the light emitting device 12. It is understood that the specific information contained in the light source control signal of the light-emitting device 12 is not limited to the specific protection scope of the present application.

And the display device 15 is used for displaying the real-time light-emitting state of the light-emitting device 12 according to the light source control signal. Since the light source control signal includes information such as the lighting color, lighting speed, and lighting position of the light emitting device 12 in addition to the lighting time interval of the light emitting device 12, the display device 15 can display the real-time lighting state of the light emitting device 12 according to the light source control signal. For example, each light emitting unit in the light emitting device 12 is numbered correspondingly. When the received light source control signal includes the light source control signal of the light emitting unit No. 28, the display device 15 correspondingly lights the light emitting unit No. 28. The condition that the light-emitting device 12 in the runway is lightened can be clearly known to coaches and training subjects.

Further, in a preferred embodiment provided herein, the runway light guide training system further includes:

the receiving device 14 is further configured to receive training monitoring information of a training object in the runway;

the display device 15 is further configured to display training monitoring information of the training objects in the runway according to the training monitoring information.

And the training monitoring device is used for monitoring the training of the training object in the runway. When the training monitoring device monitors the training object in the runway, at least one of the actual position information and the actual training index value information of the training object can be monitored. The training monitoring device realizes the monitoring of the actual position information or the actual training index value information of a training object in the training process through wearable monitoring equipment. The device can be used for collecting index value information such as step length, step frequency, speed, real-time motion trail, heart rate and the like generated in real time in the training process of a training object. And after the index value information is acquired, real-time transmission can be carried out through a communication system. When the position of the training object moves in the runway, the actual position information of the training object can be updated in real time. Wherein, wearable monitoring equipment installs the gyroscope, angular rate sensor promptly. Therefore, the rotation angular speed generated in real time by the action of deflection, inclination and the like in the training process of the training object can be measured, so that the real-time index value in the training process of the training object can be more accurately acquired, and the actual action of the training object can be accurately analyzed and judged. The communication system may use Radio Frequency Identification (RFID), also called Radio Frequency Identification (RFID). It should be understood that the specific representation, specific monitoring information and communication method adopted in the training and monitoring device are not limited to the specific protection scope of the present application.

The receiving device 14 for receiving the light source control signal of the light emitting device 12 is also used for receiving training monitoring information of the training object in the runway when the training monitoring device monitors training of the training object in the runway. The training monitoring information of the training object in the runway comprises at least one of actual position information and actual training index value information of the training object. The receiving device 14 can obtain the information of each index value generated in real time during the training process of the training object by receiving the radio signal with the information of each index value sent by the training monitoring device, such as wearable monitoring equipment. The index value information is information of various index values such as step length, step frequency, speed, real-time motion trail, heart rate and the like generated in real time in the training process of the training object. It should be understood that the content of the information of each index value received by the receiving device 14 is not limited to the specific protection scope of the present application.

After the receiving device 14 receives the training monitoring information of the training object in the runway, the display device 15 for displaying the real-time light emitting state of the light emitting device 12 according to the light source control signal is also used for displaying the training monitoring information of the training object in the runway. Therefore, at least one of the actual position of the training object in the runway and the index values of the actual training items is displayed. And displaying the actual position of the training object in the runway and various index values of actual training, so that a coach and the training object can know the training state of the training object in real time. For example, according to the actual position information of the training object, it is convenient to observe whether the training object is trained across a runway or not, or whether the training object runs quickly or not. And according to numerical information corresponding to various indexes such as speed, step length, step frequency, heartbeat and the like generated in real time in the motion process of the training object, the training state of the training object can be known in real time. For example, the physical strength state of the training subject at the moment can be obtained through the speed value information monitored by the training monitoring device in real time. When the speed value is gradually reduced in the middle of training, the physical strength of the training object is large at the moment. When the speed value tends to be stable in the middle of training, the training object enters a stable period at the moment. And analyzing the detection data, and analyzing the time length required by the training subject to enter the state or the time length for keeping the physical strength of the training subject. And further, the method can perform reinforced training aiming at each index so as to improve the comprehensive quality of the training object. Further provides a scientific and digital training mode. It is to be understood that the manner of analyzing the monitoring information and the specific information analyzed herein are not to be construed as limiting the specific scope of the present application.

the display device 15 is further configured to display warning information according to the training monitoring information exceeding the allowable fluctuation range.

It will be appreciated that after the receiving device 14 receives the training monitor information of the training subjects in the runway, there will be a difference between the actual training monitor information and the training information monitored under the standard training condition. Therefore, in the actual training process, the actual training monitoring information is allowed to be different from the training monitoring information in the standard training state. The allowable fluctuation range between the actual training monitoring information and the training monitoring information in the standard training state can be set according to the actual situation. When the allowable fluctuation range is exceeded, the difference between the actual training monitoring information and the training monitoring information in the standard training state is determined to be too large. For example, the speed value monitored during actual training is too different from the speed in the standard training state. If the speed difference is too large, the coach and the training subject need to know in time and solve the problem of the too large difference. When the training object notices that the speed difference is too large, the state adjustment can be carried out in time. For example, when the training subject notices an excessive difference, adjustments in stride frequency, stride length, respiration, etc. may be made to reduce the difference in velocity. When the coach notices the speed difference is too large, the train can analyze the too large difference and notice the state of the training object in the runway in time. If the difference caused by the reasons of discomfort of the training object or injury in the training is too large, the training can be stopped in time. It is understood that the difference between the actual training monitoring information and the training information monitored in the standard training state and the difference analysis are not limited to the specific protection scope of the present application. Therefore, the detection means is required to detect the received actual training index value, so as to detect the specific index value monitoring information exceeding the allowable fluctuation range in the received actual training index value.

The detection device detects the received actual training monitoring information, and if the actual training monitoring information is detected, an index value exceeding an allowable fluctuation range is found in the actual training monitoring information. At this time, when the training monitoring information of the training target in the runway is displayed based on the training monitoring information, the display device 15 displays warning information on the index value exceeding the allowable fluctuation range. For example, when the detected step size index has a too large difference in the corresponding numerical value, the display device 15 displays the step size index value with warning such as thickening, coloring, and individual frame selection. Thereby reminding the coach and the training subject to attach. It is understood that the specific display manner of the warning information and the specific detection index with too large difference of the display device 15 should not be construed as limiting the specific protection scope of the present application.

Further, in a preferred embodiment provided by the present application, the display device 15 may be configured to simultaneously display the real-time light-emitting state of the light-emitting device 12 and the training monitoring information of the training subjects in the runway.

It is understood that the display device 15 displays the real-time lighting state of the lighting device 12 according to the light source control signal of the lighting device 12. Further, the display device 15 displays training monitoring information of the training target in the runway based on the training monitoring information. The information received by the receiving device 14 may include both the light source control signal of the light emitting device 12 and the training monitoring information of the training monitoring device. The light source control signal of the light emitting device 12 includes information of the lighting time interval, lighting color, lighting speed, lighting position, etc. of the light emitting device 12. The training monitoring information of the training monitoring device comprises at least one of actual position information and actual training index value information of a training object. At this time, the display device 15 can synchronously display the real-time light-emitting state of the light-emitting device 12 and the training monitoring information of the training target in the runway. When the training monitoring information is detected by the detection device and includes the training index value exceeding the allowable fluctuation range, the training index value exceeding the allowable fluctuation range is warned and displayed. In this way, the display device 15 is enabled to display more various information. The coaches and the training subjects can obtain a more intuitive training situation through the display device 15. For example, among the information simultaneously received by the receiving device 14, the light source control signal of the light emitting device 12 is the light source control signal of the 25 th light emitting unit, and the training monitoring information of the training monitoring device is the real-time position information of the training target. Through the training monitoring information display, the position of the training object can be intuitively known. By displaying in synchronization with the light source control signal of the No. 25 light-emitting unit of the light-emitting device 12, the distance difference between the training subject and the No. 25 light-emitting unit of the light-emitting device 12 at this time can be directly observed. It is thus possible to know whether the pace of the training subject satisfies the requirement of the current stage when the No. 25 light-emitting unit of the light-emitting device 12 is lit. The light source control signal of the light-emitting device 12 provides a target speed for training the training object in the runway, so that the speed of the training object can be intuitively known. If the position of the training object is displayed to be ahead of the specific position of the light-emitting unit which is lighted by the light-emitting device 12 at the same time, the training object pace at the moment is satisfied with the training plan. At the same time, the position of the training subject is shown to be behind the specific position of the lighting unit of the lighting device 12, which means that the training subject has a certain space for speeding up. In addition, if the distance of the training subject behind the light emitting unit on which the light emitting device 12 is turned on is too large, the allowable fluctuation range is exceeded, and the display device 15 performs warning display. Such as enlarged display, different color marking, frame selection, etc. When the coach finds the warning information, the coach can timely know that the training state of the training object is not good enough, and can timely analyze the reason and adjust the training plan. By synchronously displaying the storage and the playback of the images, the training object can visually recognize the place needing to be adjusted in the training. Therefore, the real-time light-emitting state of the light-emitting device 12 and the training monitoring information of the training object in the runway are synchronously displayed, so that the training object can more intuitively and comprehensively know the training state at the moment. It is understood that the real-time light emitting state of the light emitting devices 12, the training monitoring information of the training monitoring device, and the analysis of the synchronous display information of the display device 15 displayed by the display device 15 are not limited to the specific protection scope of the present application.

Further, in a preferred embodiment provided by the present application, the real-time light-emitting state of the light-emitting device 12 and the training monitoring information of the training target in the runway are synchronously displayed by performing at least one of the display modes of the divisional display or the image contract-making area display in the display area.

It can be understood that the display device 15 can synchronously display the real-time light-emitting state of the light-emitting device 12 and the training monitoring information of the training object in the runway. The display device 15 may perform at least one of the divisional display and the image contract-fitting area display according to the actual training scene. The regional display can display the real-time light-emitting state of the light-emitting device 12 and the training monitoring information of the training objects in the runway in different regions. For example, the real-time light-emitting state of the display light-emitting device 12 and the training monitoring information of the training subjects in the runway may be displayed synchronously on the left and right sides or the upper and lower sides of the display area. The image contract-fitting region display can fit the real-time light-emitting state of the light-emitting device 12 and the training monitoring information of the training object in the runway, and the same region display is carried out. For example, when the training monitoring information of the training target in the course is the position information of the training target, the information may be fitted to the real-time light emission state of the light-emitting device 12 at that time. In this way, the difference in the positions of the light emitting units on which the training subject and the light emitting device 12 are lit within the runway at the same time can be more intuitively understood. When a plurality of training objects exist in the runway at the same time, the specific position information of different training objects is fitted with the real-time light-emitting state of the light-emitting device 12, and the specific distance difference between each training object and the lighted light-emitting unit can be visually seen. In addition, when the training subject correspondingly finishes training, the display device 15 can also display the corresponding training result, so that the trainer and the training subject can conveniently and visually know the training result. It should be understood that the specific display manner of the sub-area display or the image fitting area display of the display device 15, and the specific analysis of the real-time light-emitting state of the light-emitting device 12 and the training monitoring information of the training objects in the runway obviously do not constitute a limitation to the specific protection scope of the present application.

Further, in another preferred embodiment provided herein, a runway light guide training system 100 includes:

a receiving device 14 for receiving a light source control signal of the optical guide training device for the runway in the training process;

and the display device 15 is used for displaying the real-time light-emitting state of the runway light guide training equipment according to the light source control signal.

And the receiving device 14 is used for receiving a light source control signal of the runway light guide training equipment. The light source control signal includes information such as lighting color, lighting speed, and lighting position of the runway light guide training device, in addition to the lighting time interval of the runway light guide training device. The target speed may be provided by controlling the time interval between the lighting of the light guide training devices for adjacent runways. Different target speeds correspond to different light source control signals. It is to be understood that the specific information contained in the light source control signal of the runway light guide training device is not to be construed as limiting the specific scope of the present application.

And the display device 15 is used for displaying the real-time light-emitting state of the runway light guide training equipment according to the light source control signal. Since the light source control signal includes information such as the lighting color, lighting speed, and lighting position of the runway light guide training device in addition to the lighting time interval of the runway light guide training device, the display device 15 can display the real-time lighting state of the runway light guide training device according to the light source control signal. The condition that the light guide training equipment for the runway in the runway is lightened can be clearly known by coaches and training subjects.

Further, in another preferred embodiment provided herein, the runway light guide training system further includes:

The receiving means 14 for receiving the light source control signal of the runway light guide training device is also adapted to receive training monitoring information of the training subjects in the runway, when the training monitoring means monitor the training of the training subjects in the runway. The training monitoring information of the training object in the runway comprises at least one of actual position information and actual training index value information of the training object. The receiving device 14 can obtain the information of each index value generated in real time during the training process of the training object by receiving the radio signal with the information of each index value sent by the training monitoring device, such as wearable monitoring equipment. The index value information is information of various index values such as step length, step frequency, speed, real-time motion trail, heart rate and the like generated in real time in the training process of the training object. It should be understood that the content of the information of each index value received by the receiving device 14 is not limited to the specific protection scope of the present application.

After the receiving device 14 receives the training monitoring information of the training object in the runway, the display device 15 for displaying the real-time light emitting state of the light guide training device for the runway according to the light source control signal is also used for displaying the training monitoring information of the training object in the runway. Therefore, at least one of the actual position of the training object in the runway and the index values of the actual training items is displayed. The actual position of the training object in the runway and the index values of the actual training are displayed, so that a coach and the training object can know the training state of the training object in real time conveniently. For example, according to the actual position information of the training object, it is convenient to observe whether the training object is trained across a runway or not, or whether the training object runs quickly or not. And according to numerical information corresponding to various indexes such as speed, step length, step frequency, heartbeat and the like generated in real time in the motion process of the training object, the training state of the training object can be known in real time. For example, the physical strength state of the training subject at the moment can be obtained through the speed value information monitored by the training monitoring device in real time. When the speed value is gradually reduced in the middle of training, the physical strength of the training object is large at the moment. When the speed value tends to be stable in the middle of training, the training object enters a stable period at the moment. And analyzing the detection data, and analyzing the time length required by the training subject to enter the state or the time length for keeping the physical strength of the training subject. And further, the method can perform reinforced training aiming at each index so as to improve the comprehensive quality of the training object. Further provides a scientific and digital training mode. It is to be understood that the specific information in the monitoring information and the specific analysis manner should not be construed as limiting the specific protection scope of the present application.

It will be appreciated that after the receiving device 14 receives the training monitor information of the training subjects in the runway, there will be a difference between the actual training monitor information and the training information monitored under the standard training condition. Therefore, in the actual training process, the difference between the actual training monitor and the training monitor information in the standard training state is allowed. The allowable fluctuation range between the actual training monitoring information and the training monitoring information in the standard training state can be set according to the actual situation. When the allowable fluctuation range is exceeded, the difference between the actual training monitoring information and the training monitoring information in the standard training state is determined to be too large. For example, the speed value monitored during actual training is too different from the speed in the standard training state. If the speed difference is too large, the coach and the training subject need to know in time and solve the problem of the too large difference. When the training object notices that the speed difference is too large, the state adjustment can be carried out in time. For example, when the training subject notices an excessive difference, adjustments in stride frequency, stride length, respiration, etc. may be made to reduce the difference in velocity. When the coach notices the speed difference is too large, the train can analyze the too large difference and notice the state of the training object in the runway in time. If the difference caused by the reasons of discomfort of the training object or injury in the training is too large, the training can be stopped in time. It is understood that the difference between the actual training monitoring information and the training information monitored in the standard training state and the difference analysis are not limited to the specific protection scope of the present application. Therefore, the detection means is required to detect the received actual training index value, so as to detect the specific index value monitoring information exceeding the allowable fluctuation range in the received actual training index value.

Further, in another preferred embodiment provided in the present application, the display device 15 may be used to synchronously display the real-time lighting status of the runway light guide training device and the training monitoring information of the training objects in the runway.

It is understood that the display device 15 displays the real-time lighting status of the runway light guide training device according to the light source control signal of the runway light guide training device. Further, the display device 15 displays training monitoring information of the training target in the runway based on the training monitoring information. The information received by the receiving device 14 may include both the light source control signal of the runway light guide training apparatus and the training monitoring information of the training monitoring device. The light source control signal of the runway light guide training device comprises information such as lighting time interval, lighting color, lighting speed and lighting position of the runway light guide training device. The training monitoring information of the training monitoring device comprises at least one of actual position information and actual training index value information of a training object. At this time, the display device 15 may synchronously display the real-time light-emitting state of the runway light guide training apparatus and the training monitoring information of the training object in the runway. When the training monitoring information is detected by the detection device and includes the training index value exceeding the allowable fluctuation range, the training index value exceeding the allowable fluctuation range is warned and displayed. In this way, the display device 15 is enabled to display more various information. The coaches and the training subjects can obtain a more intuitive training situation through the display device 15. For example, the information received by the receiving device 14 includes not only the light source control signal of the specific light emitting unit of the runway light guide training device, but also the real-time position monitoring information of the training object. The distance difference between the training object and the specific light-emitting unit of the light guide training equipment for the runway can be directly observed by synchronously displaying the light source control signal of the specific light-emitting unit of the light guide training equipment for the runway and the real-time position monitoring information of the training object. Therefore, whether the matching speed of the training object meets the requirement of the current stage or not can be known when the specific light-emitting unit of the light guide training equipment for the runway is lightened. If the position of the training object is displayed to be ahead of the specific position of the lighting unit lighted by the runway light guide training equipment at the same time, the speed matching of the training object at the moment is satisfied with the training plan. At the same time, the position of the training object is displayed to be behind the specific position of the luminous unit which is lighted by the light guide training equipment for the runway, so that the speed matching of the training object is improved to a certain extent. The light source control signal of the runway light guide training equipment provides target speed for training of the training object in the runway, so that the speed of the training object can be intuitively known. In addition, if the distance between the training subject and the light-emitting unit that is lit by the runway light guide training device is too long, the allowable fluctuation range is exceeded, and the display device 15 performs warning display. Such as enlarged display, different color marking, frame selection, etc. When the coach finds the warning information, the coach can timely know that the training state of the training object is not good enough, and can timely analyze the reason and adjust the training plan. By synchronously displaying the storage and the playback of the images, the training object can visually recognize the place needing to be adjusted in the training. Therefore, the real-time light-emitting state of the runway light guide training equipment and the training monitoring information of the training objects in the runway are synchronously displayed, so that the training objects can more intuitively and comprehensively know the training state at the moment. It should be understood that the real-time lighting status of the runway light guide training device displayed by the display device 15, the training monitoring information of the training monitoring device, and the analysis of the synchronous display information of the display device 15 are not limited to the specific protection scope of the present application.

Further, in another preferred embodiment provided by the present application, the real-time light emitting state of the runway light guide training device and the training monitoring information of the training objects in the runway are synchronously displayed by at least one of a display mode of regional display or image contract-fitting region display in the display region.

It can be understood that the display device 15 can synchronously display the real-time light-emitting state of the runway light guide training device and the training monitoring information of the training objects in the runway. The display device 15 may perform at least one of the divisional display and the image contract-fitting area display according to the actual training scene. The regional display can display the real-time light-emitting state of the light guide training equipment for displaying the runway and the training monitoring information of the training objects in the runway in different regions. For example, the light guide training device for displaying the runway can display the real-time light emitting state of the training device and the training monitoring information of the training objects in the runway synchronously on the left side and the right side or on the upper side and the lower side of the display area respectively. The image fitting contract area display can fit the real-time light-emitting state of the light guide training equipment for the runway and the training monitoring information of the training objects in the runway, and the same area display is carried out. For example, when the training monitoring information of the training object in the runway is the position information of the training object, the information may be fitted to the real-time light-emitting state of the light-guide training device for the runway at that time. Thus, the position difference between the training object in the runway and the lighting unit lighted by the runway light guide training device at the same time can be more intuitively understood. When a plurality of training objects are in the runway at the same time, the specific position information of different training objects is fitted with the real-time light-emitting state of the light guide training equipment for the runway, and the specific distance difference between each training object and the lighted light-emitting unit can be visually seen. In addition, when the training subject correspondingly finishes training, the display device 15 can also display the corresponding training result, so that the trainer and the training subject can conveniently and visually know the training result. It should be understood that the specific display manner of the display device 15 for displaying the areas by areas or displaying the image fitting areas, and the specific analysis of the real-time light-emitting state of the light-guide training device for the runway and the training monitoring information of the training objects in the runway obviously do not limit the specific protection scope of the present application.

It is to be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the statement that there is an element defined as "comprising" … … does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims

1. A light guide training system for a runway, comprising:

a plurality of removable runway light guide training equipment units;

2. A runway light training system as defined in claim 1, further comprising:

3. A runway light training system as defined in claim 2, further comprising:

4. The light guide training system for a runway according to claim 2, wherein the display device is configured to simultaneously display the real-time lighting status of the lighting device and the training monitoring information of the training subjects in the runway.

5. The light guide training system for a runway according to claim 4, wherein a real-time light emitting state of the light emitting device and training monitoring information of a training object in the runway are synchronously displayed by at least one of a display mode of a regional display or an image contract-making region display in the display region.

6. A light guide training system for a runway, comprising:

7. A runway light training system as defined in claim 6, further comprising:

8. A runway light training system as defined in claim 7, further comprising:

9. The runway light guide training system of claim 7, wherein the display device is configured to simultaneously display the real-time lighting status of the runway light guide training device and the training monitoring information of the training objects in the runway.

10. The light guide training system for a runway according to claim 9, wherein a real-time lighting state of the light guide training device for the runway and training monitoring information of the training objects in the runway are synchronously displayed by at least one of a divisional display or an image contract-making area display in the display area.