Disclosure of Invention
Aiming at the problems in the prior art, the invention provides an intelligent bomb-throwing assessment system, which comprises:
the first acquisition module is used for acquiring identity information of a thrower;
the second acquisition module is used for acquiring throwing data of a throwing person;
the storage module is respectively connected with the first acquisition module and the second acquisition module and is used for correspondingly storing the identity information and the throwing data;
the analysis module is connected with the storage module and used for reading and analyzing the throwing data so as to obtain a throwing score and correspondingly storing the throwing score and the throwing data into the storage module;
and the at least one terminal is connected with the storage module and used for reading and displaying the throwing score according to the identity information.
Preferably, the first collecting module comprises a face recognition device for collecting and recognizing identity information of the thrower.
Preferably, the face recognition apparatus includes:
an image acquisition device for acquiring the face image of the thrower;
an information base for storing the identity information and facial image feature data associated with the identity information;
and the identification unit is respectively connected with the image acquisition device and the information base and is used for acquiring the matched identity information in the information base after acquiring the corresponding image characteristic data according to the facial image.
Preferably, the second acquisition module comprises
The posture acquisition camera is used for acquiring the body posture of a throwing person during throwing;
a trajectory acquisition camera for acquiring a trajectory generated by a throw of the thrower.
Preferably, the analysis module comprises a computer system.
Preferably, the computer system is an embedded computer system.
Preferably, the storage module is implemented by a non-volatile memory device of the embedded computer system.
Preferably, the mobile terminal further comprises a communication module, wherein the first acquisition module, the second acquisition module, the storage module, the analysis module and the terminal are connected through the communication module.
Preferably, the communication module comprises a switch.
Preferably, the terminal includes:
a display device for displaying the throwing score;
the printing device is used for printing the throwing score;
a sound playing device for playing the throwing score;
an input device for inputting the identity information;
and the control unit is respectively connected with the storage module, the display device, the printing device, the sound playing device and the input device and is used for acquiring the throwing score according to the identity information.
The technical scheme has the following advantages or beneficial effects: the grenade throwing test device is convenient to use, can be suitable for various severe environments, can accurately measure the throwing data of the grenade by combining with the computer vision technology, thereby improving the measurement efficiency, does not need manual intervention in the test process, ensures the safety in the test process, and can specifically analyze the measured data, be beneficial to correcting the error correction of the posture of a thrower, further effectively improve the performance of the thrower and maximize the training effect.
Detailed Description
The invention is described in detail below with reference to the figures and specific embodiments. The present invention is not limited to the embodiment, and other embodiments may be included in the scope of the present invention as long as the gist of the present invention is satisfied.
In a preferred embodiment of the present invention, based on the above problems in the prior art, there is provided an intelligent bomb shooting assessment system, as shown in fig. 1, including:
a first collecting module 1 for collecting identity information of a throwing person;
a second collecting module 2 for collecting the throwing data of the throwing person;
the storage module 3 is respectively connected with the first acquisition module 1 and the second acquisition module and is used for correspondingly storing the identity information and the throwing data;
the analysis module 4 is connected with the storage module 3 and used for reading and analyzing the throwing data to obtain a throwing score and storing the throwing score and the throwing data into the storage module 3 correspondingly;
and the at least one terminal 5 is connected with the storage module 3 and used for reading and displaying the throwing score according to the identity information.
A specific embodiment is now provided to further explain and explain the present technical solution:
the grenade throwing test method is suitable for various test environments, before a thrower conducts grenade throwing evaluation, the identity information of all training members needs to be acquired through the first acquisition module 1 and stored, before a trainer conducts grenade throwing evaluation, each member needs to verify the identity information, the grenade throwing test can be started only when the face information of the current training member acquired by the first acquisition module 1 is matched with the stored identity information, and otherwise, the grenade throwing test cannot be conducted. After passing through authentication, training members come to training fields as shown in fig. 2 and shown in fig. 3 to respectively carry out grenade throwing distance test and accuracy test, and each training member needs to throw three rounds, in the throwing process, the second acquisition module 2 acquires throwing data of the training members in real time, the efficiency is higher compared with manual measurement, the accuracy is higher, the safety is higher, the throwing data corresponding to the training members are stored in the storage module, the analysis module 4 judges final scores by reading and analyzing the throwing data of each training member in the storage module 3, the judged scores are stored in the storage module 3, the final scores can be reported through the terminal 5, and the training members can inquire and playback own scores and test processes at any time, so that the training effect of the training members can be effectively improved.
In the preferred embodiment of the present invention, the first collecting module 1 includes a face recognition device 11 for collecting and recognizing identity information of the thrower.
Specifically, in the present embodiment, the face recognition device 11 is used to collect and store the front face information of the test for the thrower, and the identity information is verified by the face recognition device 11 when preparing the test, so as to determine whether the thrower qualifies for the test.
In a preferred embodiment of the present invention, the face recognition apparatus 11 includes:
an image capturing device 101 for capturing the face image of the thrower;
an information base 102 for storing identity information and facial image feature data associated with the identity information;
an identification unit 103, respectively connected to the image acquisition device 101 and the information base 102, is used for acquiring corresponding image feature data according to the facial image and then acquiring the matched identity information from the information base 102.
Specifically, in the present embodiment, the identification unit 103 of the face recognition device 11 may perform the verification of the qualification of the thrower by matching the face information of the thrower acquired by the image acquisition device 101 with the identity information of the thrower registered in the information base 102.
In a preferred embodiment of the invention, the second acquisition module 2 comprises
A posture collecting camera 21 for collecting the body posture of the throwing person;
a trajectory acquisition camera 22 for acquiring the trajectory of the throw of the thrower.
Specifically, in the throwing test of the grenade, the throwing posture is a part of the final performance, so that the posture collection camera 21 is adopted to collect the image information of the action posture of the throwing person in real time, and the image information is stored in the storage module 3 according to the identity information of the corresponding throwing person; the trajectory collection camera 22 can perform overall process collection on the running trajectory of the thrown grenade in real time, and store the collected data in the storage module according to the identity information of the corresponding thrower. The second acquisition module 2 is used for realizing the accurate measurement of the grenade thrown by the thrower, and the manpower consumption is not needed, so that the measurement safety is ensured.
In the preferred embodiment of the present invention, the analysis module 4 comprises a computer system.
In the preferred embodiment of the present invention, the computer system is an embedded computer system.
Specifically, in this embodiment, the embedded computer system can carry out the quick response to the throw data that storage module transmitted, and its powerful embedded microprocessor can be rapidly to throwing gesture image information of the thrower and the motion trail of grenade carry out the analysis to judge whether the throw gesture is standard, and obtain the distance and the accuracy of grenade, and then synthesize throw data, judge the final score of thrower, and save in storage module.
In a preferred embodiment of the invention, the storage module 3 is implemented by a non-volatile memory device of an embedded computer system.
Specifically, in this embodiment, the nonvolatile memory device can ensure that the identity information, the throwing data, and the throwing score of the thrower can be completely stored when the power failure occurs in the memory module.
In a preferred embodiment of the present invention, the system further comprises a communication module 6, the first acquisition module 1, the second acquisition module 2, the storage module 3, the analysis module 4 and the terminal 5 connected through the communication module 6.
Specifically, in this embodiment, the communication module 6 is used as a connection hub of the first acquisition module 1, the second acquisition module 2, the storage module 3, the analysis module 4 and the terminal 5, and can be used for performing data interaction with the modules in real time.
In the preferred embodiment of the present invention, the communication module 6 includes a switch 61.
Specifically, in this embodiment, the switch 61 can improve data transmission, reduce resource consumption, and ensure real-time performance and stability of data transmission.
In a preferred embodiment of the present invention, the terminal 5 comprises:
a display device 51 for displaying the throwing score;
a printing device 52 for printing the throwing score;
a sound playing device 53 for playing the throwing score;
an input device 54 for inputting identity information;
a control unit 55, connected to the storage module 3, the display device 51, the printing device 52, the audio playing device 53, and the input device 54, respectively, for obtaining the throwing performance according to the identity information.
Specifically, in this embodiment, the terminal 5 receives the score information from the storage module, presents the score information in multiple ways, and can input the identity information of the thrower to perform score query, and the thrower can adjust training prevention of the thrower according to the assessment records and comparative analysis of the scores, thereby realizing improvement of the throwing skill.
In conclusion, the grenade throwing device is convenient to use, can be suitable for various severe environments, can accurately measure the throwing data of the grenade by combining with the computer vision technology, thereby improving the measuring efficiency, does not need manual intervention in the testing process, ensures the safety in the testing process, can specifically analyze the measured data, is beneficial to correcting the posture of a thrower, further effectively improves the performance of the thrower, and maximizes the training effect.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.