CN110841263A - Training analysis system for racing boat - Google Patents

Abstract

The invention relates to the technical field of sensors, in particular to a training and analyzing system for a racing boat, which comprises: a training parameter acquisition unit and a physiological data acquisition unit; the training parameter acquisition unit is used for acquiring training state parameters of a single athlete and correspondingly sending the training state parameters of each athlete to the data transfer terminal; the physiological data acquisition unit is used for acquiring physiological state data of a single athlete and correspondingly sending the physiological state data of each athlete to the data transfer terminal; the data transfer terminal is used for receiving the training state parameters and the physiological state data of each athlete and sending the training state parameters and the physiological state data to the system server; the system server can generate corresponding training analysis reports based on the training state parameters and physiological state data of each athlete. The training analysis system can give consideration to pertinence and comprehensiveness of training analysis of the racing boat, so that the training effect of athletes can be improved in an auxiliary mode.

Description

Training analysis system for racing boat

Technical Field

The invention relates to the technical field of sensors, in particular to a training and analyzing system for a racing boat.

Background

Kayak and racing boat sports belong to speed and endurance projects, have high requirements on strength and technology, and need scientific basis and theoretical guidance for improvement of technical actions of athletes, reasonable tactics and personnel collocation of multi-person boats. Based on this, a training analysis system for a racing boat appears in the prior art, which can simultaneously measure each parameter in the training of the racing boat, and judge whether the matching condition of the athlete and the boat and the athletic data of the athlete meet the standard requirements through the analysis of the parameters, so as to optimize the configuration and improve the skill level of the athlete.

For example, chinese patent publication No. CN100506330C discloses a water training system for kayaks and racing boats, comprising: the portable shipborne measuring device is electrically connected with the shipborne real-time feedback device through an electric wire, the portable shipborne measuring device, the high-speed image synchronizing device and the remote controller are respectively provided with a wireless transmission module, and the wireless transmission modules are electrically connected through a radio frequency communication link through a receiving and transmitting antenna; the portable shipborne measuring device is arranged in a cabin of a kayak or a racing boat for training, the shipborne real-time feedback device is arranged on a deck facing a sportsman, the high-speed image synchronizing device is arranged on a deck facing the sportsman, and the remote controller is arranged on a coach ship.

The real boat water training system of kayak and racing boat in the prior art is also a training analysis system for racing boat, which can form scientific training report (evaluation index system) by measuring the relevant parameters of dynamics and kinematics in kayak and racing boat training.

However, in the above prior art, training and evaluating (generating a training report) are performed only by the motion state of the entire racing boat, and the following problems may occur in actual use: 1) the boat racing sports are multi-person sports, and the training state of a single athlete needs to be acquired and evaluated so that a coach can correspondingly guide the deficiency of each athlete; the system of the existing scheme is used for carrying out parameter acquisition and training evaluation on the overall motion state of the racing boat, so that a coach is difficult to guide the training problem of a single athlete, the training analysis pertinence of the racing boat is poor, and the training effect of the auxiliary athlete is poor; 2) in the existing scheme, only data related to ship motion and related to athlete training are collected, but physiological state data of the athlete are not collected, so that a coach is difficult to know the physiological state of the athlete in training, and the coach is difficult to comprehensively guide the athlete (for example: athletes have too fast a heart rate during training because of using wrong breathing rhythm; if the coach fails to analyze the heart rate data of the athlete, the skill of breathing rhythm can be ignored during guidance), which causes the integrity of the training and analysis of the racing boat to be poor and leads to poor effect of assisting the athlete in training.

Disclosure of Invention

Aiming at the defects of the prior art, the technical problems to be solved by the invention are as follows: how to provide a training analysis system that can generate training analysis report based on each sportsman's physiological state data and training state parameter to can compromise pertinence and comprehensiveness of racing boat training analysis, thereby can assist and promote sportsman's training effect.

In order to solve the technical problems, the invention adopts the following technical scheme:

a training analysis system for a racing boat, comprising: the system comprises a system server, a data transfer terminal connected with the system server through a network and a parameter acquisition terminal in signal connection with the data transfer terminal; the parameter acquisition terminal comprises a training parameter acquisition unit and a physiological data acquisition unit; the training parameter acquisition unit is used for acquiring training state parameters of a single athlete and correspondingly sending the training state parameters of each athlete to the data transfer terminal; the physiological data acquisition unit is used for acquiring physiological state data of a single athlete and correspondingly sending the physiological state data of each athlete to the data transfer terminal;

the data transfer terminal is used for receiving the training state parameters and the physiological state data of each athlete and sending the training state parameters and the physiological state data to the system server; the system server is capable of generating a corresponding training analysis report based on the training status parameters and physiological status data of each athlete.

The training parameter acquisition unit and the physiological data acquisition unit in the scheme can respectively acquire training state parameters and physiological state data of a single athlete; the system server can generate corresponding training analysis reports based on the training state parameters and physiological state data of each athlete. Firstly, the training state data of each athlete is respectively collected in the scheme, so that a training analysis report aiming at the training state of each athlete can be generated, and the pertinence of the racing boat training analysis can be improved; secondly, the physiological state data of the athletes during training is collected in the scheme, so that training analysis reports corresponding to the physiological states of the athletes can be generated, and the comprehensiveness of training analysis can be improved. Therefore, the training analysis system for the racing boat in the scheme can generate a training analysis report based on physiological state data and training state parameters of each athlete, and can give consideration to pertinence and comprehensiveness of training analysis of the racing boat, so that the training effect of the athlete can be improved in an auxiliary mode.

Preferably, the training analysis system further comprises a mobile management terminal connected with the system server through a network; the system server can generate corresponding training analysis reports based on the training state parameters and the physiological state data of each athlete in real time, and send the training state parameters and the physiological state data of each athlete and the training analysis reports to the mobile management terminal in real time; the mobile management terminal is used for receiving training state parameters, physiological state data and training analysis reports of athletes in real time and generating training real-time information for a coach to check based on the training state parameters, the physiological state data and the training analysis reports of the athletes.

Therefore, a coach can monitor the training state parameters and physiological state data of the athlete in real time through the mobile management terminal, so that the training state of the athlete is monitored in real time, and when the athlete (physical condition) is dangerous or overloaded, the coach can timely stop training to protect the athlete; in addition, the coach can also learn and analyze the training result of sportsman through the training analysis report, carries out real time monitoring and analysis to sportsman's training state through two aspect of training process and training result, is favorable to promoting the comprehensiveness of racing boat training analysis to can assist promotion sportsman's training effect.

Preferably, the parameter acquisition terminal further comprises a hull parameter acquisition unit for acquiring hull state parameters of the racing boat; the ship body parameter acquisition unit can send the ship body state parameters to the data transfer terminal; the data transfer terminal is used for receiving the ship body state parameters and sending the ship body state parameters to the system server; the system server can generate corresponding training analysis reports based on the hull state parameters, and training state parameters and physiological state data of each athlete.

The hull parameter acquisition unit in this scheme can gather hull state parameter for system server can be on sportsman's training state parameter and physiological state data's basis, and the reunion hull state parameter generates training analysis report, and this is favorable to generating more comprehensive training analysis report from the aspect of racing boat overall movement and supplies the coach to refer to, is favorable to better supplementary sportsman to promote the racing boat skill, thereby can assist the training effect that promotes sportsman.

Preferably, the ship hull state parameters comprise ship hull position information and ship hull acceleration data; the hull parameter acquisition unit comprises a positioning assembly arranged on the racing boat hull and used for acquiring the position information of the hull, and an acceleration acquisition assembly arranged on the racing boat hull and used for acquiring the acceleration data of the hull.

Like this, through the hull positional information and the hull acceleration data of gathering the racing boat, can calculate and obtain the holistic motion state of racing boat, can generate more comprehensive training analysis report from the aspect of racing boat overall movement and supply the coach to refer to, be favorable to better supplementary sportsman to promote the racing boat skill to can assist the training effect that promotes the sportsman.

Preferably, the training status parameter comprises a rowing angle parameter of the athlete; the training parameter acquisition unit comprises a rowing angle acquisition assembly used for acquiring rowing angle parameters of athletes.

Thus, the rowing angle parameter is one of the important parameters in racing and training; through gathering sportsman's rowing angle parameter, can evaluate whether sportsman's rowing action targets in place, be favorable to the coach to guide to sportsman's rowing action, can promote the pertinence of training evaluation to can assist promotion sportsman's training effect.

Preferably, the rowing angle collecting assembly comprises hall element modules arranged on each paddle of the racing boat and permanent magnets fixedly arranged on the hull of the racing boat and positioned below the paddles; when the paddle is used, the data of the induction magnetic field of the Hall element module can be correspondingly changed under the influence of the permanent magnet.

Thus, the Hall element module can generate induced magnetic field data based on the permanent magnet; when the athlete moves the paddle, the Hall element module moves relative to the hull along with the paddle, and the permanent magnet is fixed on the hull, so that the data of the induced magnetic field in the Hall element module can change during the paddle-moving process, the angle of the paddle deviating from the permanent magnet can be calculated according to the data change of the induced magnetic field in the Hall element module, and the paddle angle parameter can be obtained.

Preferably, the training status parameter comprises a parameter of the rowing frequency of the athlete; the training parameter acquisition unit comprises a rowing frequency acquisition component for acquiring rowing frequency parameters of athletes; the rowing frequency acquisition assembly comprises gyroscope modules arranged on each paddle of the racing boat.

Thus, the rowing frequency parameter is one of the important parameters in racing and training; by collecting the paddle-stroke frequency parameters of the athletes, the muscle contraction rate of the athletes can be evaluated, a coach can guide the muscle contraction of the athletes by combining the physiological state parameters of the athletes, the pertinence and comprehensiveness of training evaluation can be improved, and the training effect of the athletes can be assisted to be improved; in addition, the gyroscope module can detect the inclination and the deviation of the paddle, and in the scheme, the paddle frequency parameters are collected by recording the deviation or the inclination frequency of the paddle relative to the ship body.

Preferably, the training status parameters comprise a rowing strength parameter of the athlete; the training parameter acquisition unit comprises a rowing force acquisition assembly for acquiring rowing force parameters of athletes; the rowing force collection assembly comprises a moment measurement module arranged on each oar of the racing boat.

Thus, the rowing strength parameter is one of the important parameters in racing and training; the muscle explosive force of the athlete can be evaluated by collecting the rowing strength parameters of the athlete, and a coach can guide the muscle explosive force mode of the athlete by combining the physiological state parameters of the athlete, so that the pertinence and comprehensiveness of the training evaluation can be improved, and the training effect of the athlete can be assisted to be improved; in addition, moment measurement module can direct detection sportsman to the effort size that the quant was applyed to can realize gathering sportsman's rowing strength parameter.

Preferably, the physiological state data comprises athlete's heart rate data; the physiological data acquisition unit comprises a heart rate acquisition assembly which is carried by the athlete and is used for acquiring the heart rate of the athlete.

The racing boat is a racing sport, has high requirements on explosive force and endurance of athletes, and is very important for monitoring the heart rate of the athletes in quick and lasting sports; in this scheme, through the collection to sportsman's rhythm of the heart data, can enough monitor the health status when sportsman trains (the rhythm of the heart appears suddenly fast easily and waits health problem), can also be to the training data report that corresponds based on sportsman's rhythm of the heart data generation for coach can carry out corresponding guidance based on sportsman's rhythm of the heart data, can provide the comprehensiveness that rises the training analysis, thereby can assist promotion sportsman's training effect.

Drawings

For purposes of promoting a better understanding of the objects, aspects and advantages of the invention, reference will now be made in detail to the present invention as illustrated in the accompanying drawings, in which:

FIG. 1 is a logic block diagram of a training analysis system in an embodiment;

fig. 2 is a schematic structural view of the installation of the rowing angle collecting assembly in the embodiment.

Reference numerals in the drawings of the specification include: the boat comprises a racing boat body 1, a paddle 2, a Hall element module 3 and a permanent magnet 4.

Detailed Description

The following is further detailed by the specific embodiments:

example (b):

the embodiment discloses a training and analyzing system for a racing boat.

As shown in fig. 1: a training analysis system for a racing boat, comprising: the system comprises a system server, a data transfer terminal connected with the system server through a network and a parameter acquisition terminal in signal connection with the data transfer terminal; the parameter acquisition terminal comprises a training parameter acquisition unit and a physiological data acquisition unit; the training parameter acquisition unit is used for acquiring training state parameters of a single athlete and correspondingly sending the training state parameters of each athlete to the data transfer terminal; the physiological data acquisition unit is used for acquiring physiological state data of a single athlete and correspondingly sending the physiological state data of each athlete to the data transfer terminal; the data transfer terminal is used for receiving the training state parameters and the physiological state data of each athlete and sending the training state parameters and the physiological state data to the system server; the system server can generate corresponding training analysis reports based on the training state parameters and physiological state data of each athlete. Specifically, the system service in this embodiment is connected with a PC terminal, the PC terminal is installed with existing racing boat training analysis software, training state parameters and physiological state data of athletes are input into the racing boat training analysis software, and training analysis reports can be generated by calculation through existing mature means; the data transfer terminal comprises a data transceiver module and a remote communication module, wherein the data transceiver module is mature in the prior art and is used for receiving training state parameters and physiological state data of athletes, and the remote communication module can adopt a 4G network to be in network communication with the system server, so that the data transceiver module can send the training state parameters and the physiological state data of the athletes to the system server.

The training parameter acquisition unit and the physiological data acquisition unit in the embodiment can respectively acquire training state parameters and physiological state data of a single athlete; the system server can generate corresponding training analysis reports based on the training state parameters and physiological state data of each athlete. Firstly, the training state data of each athlete is respectively collected in the embodiment, so that a training analysis report aiming at the training state of each athlete can be generated, and the pertinence of the racing boat training analysis can be improved; secondly, the embodiment also collects the physiological state data of the athletes during training, so that training analysis reports corresponding to the physiological states of the athletes can be generated, and the comprehensiveness of the training analysis can be improved. Therefore, the training analysis system for the racing boat in the embodiment can generate the training analysis report based on the physiological state data and the training state parameters of each athlete, and can give consideration to the pertinence and comprehensiveness of the training analysis of the racing boat, so that the training effect of the athlete can be improved in an auxiliary manner.

In the specific implementation process, the parameter acquisition terminal also comprises a hull parameter acquisition unit for acquiring the hull state parameters of the racing boat; the ship body parameter acquisition unit can send the ship body state parameters to the data transfer terminal; the data transfer terminal is used for receiving the ship state parameters and sending the ship state parameters to the system server; the system server can generate corresponding training analysis reports based on the hull state parameters, and the training state parameters and physiological state data of each athlete. Specifically, a training analysis report is generated by adopting a mature training analysis method in the existing racing boat training, the system service in the embodiment is connected with a PC, the existing racing boat training analysis software is installed on the PC, the state parameters of the hull, the training state parameters of athletes and physiological state data are input into the racing boat training analysis software, and the training analysis report can be generated by calculation through the existing mature means.

The hull parameter acquisition unit in this embodiment can gather hull state parameter for system server can be on sportsman's training state parameter and physiological state data's basis, and the recombination hull state parameter generates training analysis report, and this is favorable to generating more comprehensive training analysis report from the aspect of racing boat overall movement and supplies the coach to refer to, is favorable to better supplementary sportsman to promote the racing boat skill, thereby can assist the training effect that promotes the sportsman.

In the specific implementation process, the ship state parameters comprise ship position information and ship acceleration data; the hull parameter acquisition unit comprises a positioning component which is arranged on the racing boat hull and used for acquiring the position information of the hull, and an acceleration acquisition component which is arranged on the racing boat hull and used for acquiring the acceleration data of the hull. Specifically, the positioning component is an existing mature GPS positioning module; the acceleration acquisition component is an existing mature acceleration acquisition module; and the positioning assembly and the acceleration acquisition assembly also comprise wireless transceiving modules which are respectively used for sending the ship body position information and the ship body acceleration data of the GPS positioning module and the acceleration acquisition module to the data transfer terminal.

Like this, through the hull positional information and the hull acceleration data of gathering the racing boat, can calculate and obtain the holistic motion state of racing boat, can generate more comprehensive training analysis report from the aspect of racing boat overall movement and supply the coach to refer to, be favorable to better supplementary sportsman to promote the racing boat skill to can assist the training effect that promotes the sportsman.

In the specific implementation process, the training state parameters comprise the parameters of the rowing angle of the athlete; the training parameter acquisition unit comprises a rowing angle acquisition assembly used for acquiring the rowing angle parameters of the athletes.

Thus, the rowing angle parameter is one of the important parameters in racing and training; through gathering sportsman's rowing angle parameter, can evaluate whether sportsman's rowing action targets in place, be favorable to the coach to guide to sportsman's rowing action, can promote the pertinence of training evaluation to can assist promotion sportsman's training effect.

In the specific implementation process, as shown in fig. 2: the rowing angle acquisition assembly comprises Hall element modules 3 arranged on each paddle 2 of the racing boat and permanent magnets 4 fixedly arranged on the hull 1 of the racing boat and positioned below the paddles 2; the induced magnetic field data of the hall element module 3 can be correspondingly changed under the influence of the permanent magnet 4 when the paddle is stroked. Specifically, the hall element module is the existing mature hall element, and the rowing angle collecting assembly further comprises a wireless transceiving module for sending the hall element induction magnetic field data to the data transfer terminal.

Thus, the Hall element module can generate induced magnetic field data based on the permanent magnet; when the athlete moves the paddle, the Hall element module moves relative to the hull along with the paddle, and the permanent magnet is fixed on the hull, so that the data of the induced magnetic field in the Hall element module can change during the paddle-moving process, the angle of the paddle deviating from the permanent magnet can be calculated according to the data change of the induced magnetic field in the Hall element module, and the paddle angle parameter can be obtained.

In the specific implementation process, the training state parameters comprise the rowing frequency parameters of the athletes; the training parameter acquisition unit comprises a rowing frequency acquisition component for acquiring rowing frequency parameters of athletes; the rowing frequency acquisition assembly comprises gyroscope modules arranged on each paddle of the racing boat. Specifically, the gyroscope module is a mature gyroscope in the prior art, and the rowing frequency acquisition assembly further comprises a wireless transceiver module for transmitting data measured by the gyroscope to the data transfer terminal.

Thus, the rowing frequency parameter is one of the important parameters in racing and training; by collecting the paddle-stroke frequency parameters of the athletes, the muscle contraction rate of the athletes can be evaluated, a coach can guide the muscle contraction of the athletes by combining the physiological state parameters of the athletes, the pertinence and comprehensiveness of training evaluation can be improved, and the training effect of the athletes can be assisted to be improved; in addition, the gyroscope module can detect the inclination and the deviation of the paddle, and in the embodiment, the paddle frequency parameter is acquired by recording the deviation or the inclination frequency of the paddle relative to the ship body.

In the specific implementation process, the training state parameters comprise the parameters of the rowing strength of the athletes; the training parameter acquisition unit comprises a rowing force acquisition assembly for acquiring rowing force parameters of athletes; the rowing force collection assembly comprises a moment measurement module arranged on each oar of the racing boat. Specifically, the moment measuring module is a mature moment measuring module in the prior art, and the rowing force collecting assembly further comprises a wireless transceiver module for transmitting data measured by the moment measuring module to the data transfer terminal.

Thus, the rowing strength parameter is one of the important parameters in racing and training; the muscle explosive force of the athlete can be evaluated by collecting the rowing strength parameters of the athlete, and a coach can guide the muscle explosive force mode of the athlete by combining the physiological state parameters of the athlete, so that the pertinence and comprehensiveness of the training evaluation can be improved, and the training effect of the athlete can be assisted to be improved; in addition, moment measurement module can direct detection sportsman to the effort size that the quant was applyed to can realize gathering sportsman's rowing strength parameter.

In a specific implementation, the physiological state data comprises heart rate data of the athlete; the physiological data acquisition unit comprises a heart rate acquisition assembly which is carried by the athlete and is used for acquiring the heart rate of the athlete. Specifically, the heart rate acquisition subassembly includes ripe cardiotachometer and wireless transceiver module among the prior art, changes the training rate data of wearing the cardiotachometer in order to gather the sportsman by the motion when the training, then sends heart rate data to data transfer terminal by wireless transceiver module.

The racing boat is a racing sport, has high requirements on explosive force and endurance of athletes, and is very important for monitoring the heart rate of the athletes in quick and lasting sports; in this embodiment, through the collection to sportsman's heart rate data, can enough monitor the health status when sportsman trains (the sudden death etc. health problem appears in the heart rate too fast easily), can also be to the training data report that corresponds based on sportsman's heart rate data generation for coach can carry out corresponding guidance based on sportsman's heart rate data, can provide the comprehensiveness that rises the training analysis, thereby can assist promotion sportsman's training effect.

In a specific implementation process, the training analysis system in this embodiment further includes a mobile management terminal connected to the system server through a network; the system server can generate corresponding training analysis reports based on the training state parameters and the physiological state data of each athlete in real time, and send the training state parameters and the physiological state data of each athlete and the training analysis reports to the mobile management terminal in real time; the mobile management terminal is used for receiving training state parameters, physiological state data and training analysis reports of athletes in real time and generating training real-time information for a coach to check based on the training state parameters, the physiological state data and the training analysis reports of the athletes. Specifically, the mobile management terminal can be an existing smart phone, and the training real-time information is displayed through the smart phone; and generating training real-time information means: the training state parameters, the physiological state data and the training analysis report are integrated and arranged, so that the training state parameters, the physiological state data and the training analysis report can be simultaneously trained by a smart phone and can be checked by a coach; when the athlete is dangerous or overloaded, the mobile management terminal can send out an alarm prompt signal.

Therefore, a coach can monitor the training state parameters and physiological state data of the athlete in real time through the mobile management terminal, so that the training state of the athlete is monitored in real time, and when the athlete (physical condition) is dangerous or overloaded, the coach can timely stop training to protect the athlete; in addition, the coach can also learn and analyze the training result of sportsman through the training analysis report, carries out real time monitoring and analysis to sportsman's training state through two aspect of training process and training result, is favorable to promoting the comprehensiveness of racing boat training analysis to can assist promotion sportsman's training effect.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (9)

1. A training analysis system for a racing boat, comprising: the system comprises a system server, a data transfer terminal connected with the system server through a network and a parameter acquisition terminal in signal connection with the data transfer terminal; the parameter acquisition terminal comprises a training parameter acquisition unit and a physiological data acquisition unit; the training parameter acquisition unit is used for acquiring training state parameters of a single athlete and correspondingly sending the training state parameters of each athlete to the data transfer terminal; the physiological data acquisition unit is used for acquiring physiological state data of a single athlete and correspondingly sending the physiological state data of each athlete to the data transfer terminal;

the data transfer terminal is used for receiving the training state parameters and the physiological state data of each athlete and sending the training state parameters and the physiological state data to the system server; the system server is capable of generating a corresponding training analysis report based on the training status parameters and physiological status data of each athlete.

2. A training analysis system for a racing boat as claimed in claim 1, wherein: the system also comprises a mobile management terminal connected with the system server through a network; the system server can generate corresponding training analysis reports based on the training state parameters and the physiological state data of each athlete in real time, and send the training state parameters and the physiological state data of each athlete and the training analysis reports to the mobile management terminal in real time; the mobile management terminal is used for receiving training state parameters, physiological state data and training analysis reports of athletes in real time and generating training real-time information for a coach to check based on the training state parameters, the physiological state data and the training analysis reports of the athletes.

3. A training analysis system for a racing boat as claimed in claim 1, wherein: the parameter acquisition terminal also comprises a hull parameter acquisition unit for acquiring the hull state parameters of the racing boat; the ship body parameter acquisition unit can send the ship body state parameters to the data transfer terminal; the data transfer terminal is used for receiving the ship body state parameters and sending the ship body state parameters to the system server; the system server can generate corresponding training analysis reports based on the hull state parameters, and training state parameters and physiological state data of each athlete.

4. A training analysis system for a racing boat as claimed in claim 3, wherein: the ship state parameters comprise ship position information and ship acceleration data; the hull parameter acquisition unit comprises a positioning assembly arranged on the racing boat hull and used for acquiring the position information of the hull, and an acceleration acquisition assembly arranged on the racing boat hull and used for acquiring the acceleration data of the hull.

5. A training analysis system for a racing boat as claimed in claim 1, wherein: the training state parameters comprise a rowing angle parameter of the athlete; the training parameter acquisition unit comprises a rowing angle acquisition assembly used for acquiring rowing angle parameters of athletes.

6. A training analysis system for a racing boat as claimed in claim 5, wherein: the rowing angle acquisition assembly comprises Hall element modules arranged on each paddle of the racing boat and permanent magnets fixedly arranged on the hull of the racing boat and positioned below the paddles; when the paddle is used, the data of the induction magnetic field of the Hall element module can be correspondingly changed under the influence of the permanent magnet.

7. A training analysis system for a racing boat as claimed in claim 1, wherein: the training state parameters comprise the rowing frequency parameters of the athletes; the training parameter acquisition unit comprises a rowing frequency acquisition component for acquiring rowing frequency parameters of athletes; the rowing frequency acquisition assembly comprises gyroscope modules arranged on each paddle of the racing boat.

8. A training analysis system for a racing boat as claimed in claim 1, wherein: the training state parameters comprise a rowing strength parameter of the athlete; the training parameter acquisition unit comprises a rowing force acquisition assembly for acquiring rowing force parameters of athletes; the rowing force collection assembly comprises a moment measurement module arranged on each oar of the racing boat.

9. A training analysis system for a racing boat as claimed in claim 1, wherein: the physiological state data comprises athlete's heart rate data; the physiological data acquisition unit comprises a heart rate acquisition assembly which is carried by the athlete and is used for acquiring the heart rate of the athlete.

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