CN204423431U - One drives training system - Google Patents

Abstract

The utility model embodiment discloses one and drives training system, belong to the control field for teaching land vehicle, comprise kernel processing device, radio frequency reading device and student's card, described student Ka Nei is provided with close distance radio frequency transmitter module, described radio frequency reading device is arranged on the driver's seat place on learner-driven vehicle, and described kernel processing device is connected with described radio frequency reading device.The purpose of this utility model is to provide one to drive training system, effectively to improve existing statistical accuracy of driving the learning time of the student of training management system.

Description

One drives training system

Technical field

The utility model relates to the control field for teaching land vehicle, drives training system in particular to one.

Background technology

Existingly drive training management system, general realization flow is, identity information, the finger print information of trainer and student are all kept in IC-card; When registering, by swiping the card in office terminal and comparison fingerprint on site, confirm the identity of trainer and student; In training process, the detailed data, mileage information etc. of training are all saved in data storage cell; Time sign-out, by the process of again swiping the card, by the information updating in data storage cell to IC-card.

But inventor finds under study for action, there is following problem in existing training management system of driving: after student swipes the card, and drives training management system and cannot judge whether onboard student, cause the learning time of student really not statistical uncertainty.

Utility model content

The purpose of this utility model is to provide one to drive training system, effectively to improve existing statistical accuracy of driving the learning time of the student of training management system.

First aspect, the one that the utility model provides drives training system, comprise: kernel processing device, radio frequency reading device and student's card, described student Ka Nei is provided with close distance radio frequency transmitter module, described radio frequency reading device is arranged on the driver's seat place on learner-driven vehicle, and described kernel processing device is connected with described radio frequency reading device.

In conjunction with first aspect, the utility model embodiment still provides the first possibility embodiment of first aspect, and wherein, described student Ka Nei is also provided with long-range radio-frequency transmitter module.

In conjunction with the first possibility embodiment of first aspect, the utility model embodiment still provides the second possibility embodiment of first aspect, wherein, also comprises locating device, described locating device is arranged in learner-driven vehicle, and described locating device is connected with described kernel processing device.

In conjunction with the second possibility embodiment of first aspect, the utility model embodiment still provides the third possibility embodiment of first aspect, wherein, also comprise Controller Area Network BUS interface, described kernel processing device is connected with described Controller Area Network BUS interface, and described Controller Area Network BUS is connected with the car running computer in learner-driven vehicle.

In conjunction with the third possibility embodiment of first aspect, the utility model embodiment still provides the 4th kind of possibility embodiment of first aspect, and wherein, also comprise network equipment, described network equipment is connected with described kernel processing device.

In conjunction with the 4th kind of possibility embodiment of first aspect, the utility model embodiment still provides the 5th kind of possibility embodiment of first aspect, wherein, described radio frequency reading device comprises the first antenna for receiving the radiofrequency signal that described close distance radio frequency transmitter module sends, for receiving the second antenna of the radiofrequency signal that described long-range radio-frequency transmitter module sends, envelope detection circuit, demodulator circuit, digital circuit, described first antenna is all connected with described envelope detection circuit with described second antenna, described envelope detection circuit is connected with described demodulator circuit, described demodulator circuit is connected with described digital circuit, described digital circuit is connected with described kernel processing device.

In conjunction with the 5th kind of possibility embodiment of first aspect, the utility model embodiment still provides the 6th kind of possibility embodiment of first aspect, wherein, described radio frequency reading device also comprises reflection modulation circuit, described digital circuit is connected with described reflection modulation circuit, and described reflection modulation circuit is connected with described first antenna and described second antenna respectively.

In conjunction with the 6th kind of possibility embodiment of first aspect, the utility model embodiment still provides the 7th kind of possibility embodiment of first aspect, wherein, described radio frequency reading device also comprises taking turn control circuit and clock generation circuit, described clock generation circuit is connected with described digital circuit and described taking turn control circuit respectively, and described digital circuit is connected with described taking turn control circuit.

In conjunction with the 7th kind of possibility embodiment of first aspect, the utility model embodiment still provides the 8th kind of possibility embodiment of first aspect, and wherein, described radio frequency reading device also comprises wake-up circuit, and described wake-up circuit is connected with described digital circuit.

In conjunction with first aspect or first aspect the first may embodiment or the second may embodiment or the third may embodiment or the 4th kind may embodiment or the 5th kind may embodiment or the 6th kind may embodiment or the 7th kind may embodiment or the 8th kind may embodiment, the utility model embodiment still provides the 9th kind of possibility embodiment of first aspect, wherein, also comprise storer, Data Input Interface and data output interface, described storer, described Data Input Interface is all connected with described kernel processing device with described data output interface, described Data Input Interface comprises video signal input interface, audio input interface and USB (universal serial bus), described data output interface comprises video signal output interface and sound signal output interface.

The utility model embodiment, described radio frequency reading device is arranged on the driver's seat place on learner-driven vehicle, student is body-worn student card when Driving Instructor's car, the radiofrequency signal that the described close distance radio frequency transmitter module of described student Ka Nei sends is received by described radio frequency reading device, described kernel processing device parses the identity information of the student that described close distance radio frequency transmitter module records, the radiofrequency signal that close distance radio frequency transmitter module described in described radio frequency reading device continuous reception exports, when student leaves driver's seat, described radio frequency reading device cannot receive the radiofrequency signal that described close distance radio frequency transmitter module sends, described kernel processing device judges that the driving time of student terminates, count the time of the driving of this student.

Therefore, the utility model embodiment compared with prior art, the utility model embodiment, student is in the process of driving, the student that student carries with holds continuous emitting radio frequency signal to described radio frequency reading device, described kernel processing device continues the driving time adding up student, until student leaves driver's seat, what effectively prevent prior art drives in training management system, after student swipes the card, not steering vehicle but drive the driving time that training management system still adds up student, cause the learning time of student really not statistical uncertainty, effectively improve existing statistical accuracy of driving the learning time of the student of training management system.

Other feature and advantage of the present utility model are set forth at instructions subsequently, and, partly become apparent from instructions, or understand by implementing the utility model embodiment.The purpose of this utility model and other advantages realize by structure specifically noted in write instructions, claims and accompanying drawing and obtain.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.Shown in accompanying drawing, above-mentioned and other object of the present utility model, Characteristics and advantages will be more clear.Reference numeral identical in whole accompanying drawing indicates identical part.Deliberately do not draw accompanying drawing by physical size equal proportion convergent-divergent, focus on purport of the present utility model is shown.

Fig. 1 shows a kind of structured flowchart driving the embodiment of training system that the utility model embodiment provides;

The another kind that Fig. 2 shows the utility model embodiment to be provided drives the structured flowchart of the embodiment of training system;

Fig. 3 shows the structured flowchart of the embodiment of a kind of radio frequency recognition module of driving in training system that the utility model embodiment provides.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, carry out clear, complete description to the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Existingly drive training management system, general realization flow is, identity information, the finger print information of trainer and student are all kept in IC-card; When registering, by swiping the card in office terminal and comparison fingerprint on site, confirm the identity of trainer and student; In training process, the detailed data, mileage information etc. of training are all saved in data storage cell; Time sign-out, by the process of again swiping the card, by the information updating in data storage cell to IC-card.

But inventor finds under study for action, there is following problem in existing training management system of driving: after student swipes the card, and drives training management system and cannot judge whether onboard student, cause the learning time of student really not statistical uncertainty.

The one that the utility model embodiment as shown in Figure 1 provides drives training system, described training system of driving comprises kernel processing device 101, radio frequency reading device 102 and student's card, described student Ka Nei is provided with close distance radio frequency transmitter module 103, described radio frequency reading device 102 is arranged on the driver's seat place on learner-driven vehicle, and described kernel processing device 101 is connected with described radio frequency reading device 102.

Wherein, described radio frequency reading device 102 is arranged near the driver's seat on learner-driven vehicle, the panel board place of such as driver's seat, the radiofrequency signal distance that described close distance radio frequency transmitter module 103 is launched is less than 80cm, concrete transmitting range can regulate, when namely can ensure to only have described close distance radio frequency transmitter module 103 to be positioned at the driver's seat on learner-driven vehicle neighbouring, the radiofrequency signal that described close distance radio frequency transmitter module 103 is launched could be gathered by described radio frequency reading device 102.

Therefore, the utility model embodiment, described radio frequency reading device is arranged on the driver's seat place on learner-driven vehicle, student is body-worn student card when Driving Instructor's car, the radiofrequency signal that the described close distance radio frequency transmitter module of described student Ka Nei sends is received by described radio frequency reading device, described kernel processing device parses the identity information of the student that described close distance radio frequency transmitter module records, the radiofrequency signal that close distance radio frequency transmitter module described in described radio frequency reading device continuous reception exports, when student leaves driver's seat, described radio frequency reading device cannot receive the radiofrequency signal that described close distance radio frequency transmitter module sends, described kernel processing device judges that the driving time of student terminates, count the time of the driving of this student.

Therefore, the utility model embodiment compared with prior art, the utility model embodiment, student is in the process of driving, the student that student carries with holds continuous emitting radio frequency signal to described radio frequency reading device, described kernel processing device continues the driving time adding up student, until student leaves driver's seat, what effectively prevent prior art drives in training management system, after student swipes the card, not steering vehicle but drive the driving time that training management system still adds up student, cause the learning time of student really not statistical uncertainty, effectively improve existing statistical accuracy of driving the learning time of the student of training management system.

The another kind that the utility model embodiment as shown in Figure 2 provides drives training system, comprise: kernel processing device 201, radio frequency reading device 202, student blocks, locating device 205, Controller Area Network BUS interface 206, storer 207, Data Input Interface 208 and data output interface 209, described radio frequency reading device 202, locating device 205, Controller Area Network BUS interface 206, storer 207, Data Input Interface 208 and data output interface 209 are all connected with described kernel processing device 201, described student Ka Nei is provided with close distance radio frequency transmitter module 203 and long-range radio-frequency transmitter module 204.

In the utility model embodiment, described radio frequency reading device 202 is arranged near the driver's seat on learner-driven vehicle, it can be such as panel board place, in the utility model embodiment, the radiofrequency signal distance that described close distance radio frequency transmitter module 203 is launched is less than 80cm, concrete transmitting range can regulate, when namely can ensure to only have described close distance radio frequency transmitter module 203 to be positioned at the driver's seat on learner-driven vehicle neighbouring, the radiofrequency signal that described close distance radio frequency transmitter module 203 is launched could be gathered by described radio frequency reading device 202.

The distance of the radiofrequency signal that described long-range radio-frequency transmitter module 204 is launched is for being greater than 0.5 meter, be less than 15 meters, namely 0.5 meter is greater than, maximum distance can reach 15 meters, as long as namely can ensure that student is positioned in learner-driven vehicle, the radiofrequency signal that described long-range radio-frequency transmitter module 204 is launched can be gathered by described radio frequency reading device 202.

In the utility model embodiment, student is when practice, carrying with student's card is sitting in learner-driven vehicle, the radiofrequency signal that the long-range radio-frequency transmitter module 204 of the student Ka Nei of each student is launched is gathered by described radio frequency reading device 202, described kernel processing device 201 can detect the quantity of the student in learner-driven vehicle, and the student's quantity namely with car is how many.

The utility model embodiment, described radio frequency reading device is arranged on the driver's seat place on learner-driven vehicle, student is body-worn student card when Driving Instructor's car, the radiofrequency signal that the described close distance radio frequency transmitter module of described student Ka Nei sends is received by described radio frequency reading device, described kernel processing device parses the identity information of the student that described close distance radio frequency transmitter module records, the radiofrequency signal that close distance radio frequency transmitter module described in described radio frequency reading device continuous reception exports, when student leaves driver's seat, described radio frequency reading device cannot receive the radiofrequency signal that described close distance radio frequency transmitter module sends, described kernel processing device judges that the driving time of student terminates, count the time of the driving of this student.

Therefore, the utility model embodiment compared with prior art, the utility model embodiment, student is in the process of driving, the student that student carries with holds continuous emitting radio frequency signal to described radio frequency reading device, described kernel processing device continues the driving time adding up student, until student leaves driver's seat, what effectively prevent prior art drives in training management system, after student swipes the card, not steering vehicle but drive the driving time that training management system still adds up student, cause the learning time of student really not statistical uncertainty, effectively improve existing statistical accuracy of driving the learning time of the student of training management system.

In addition, in the utility model embodiment, described training system of driving also comprises network equipment 210, described network 210 comprises 4G or 3G network card of surfing Internet and wifi module, therefore, the utility model embodiment, student go to school on learner-driven vehicle car time, shared verification can be carried out by network equipment, make student no longer boring in the process of waiting for bus.Further, described kernel processing device 201 can be pushed information on coach and the mobile terminal of student or remote server by network equipment 210, enables remote server or train student to share situation in learner-driven vehicle.

In addition, in the utility model embodiment, utilize Controller Area Network BUS (ControllerArea Network bus, CANBUS) interface, be connected with the car running computer on learner-driven vehicle, the multidate information of the vehicle stored in the car running computer on learner-driven vehicle can be obtained, the speed of such as vehicle, in conjunction with the multidate information of vehicle, what the utility model embodiment can be made to provide drives the more accurate of the statistics of the learning time of the student of training system.Such as, first the radiofrequency signal that close distance radio frequency transmitter module described in described radio frequency reading device continuous reception exports, judge that this student is sitting on driver's seat, then described kernel processing device reads the speed of vehicle in car running computer by described CANBUS interface, if the speed of vehicle is greater than certain threshold value, such as 8,000 ms/h, then think that car two is to start, then now the timer of kernel processing device starts timing, when the speed of a motor vehicle is less than threshold value, timer times, until vehicle starts again.

Described remote server obtains the running status of vehicle by described network equipment, appliance crew manages, and controls in real time vehicle, such as parking, oil-break etc.

In addition, the positional information of vehicle can be pushed to the mobile phone terminal of student by the locating device 205 in the utility model embodiment by described network equipment, so that student can know the position on learner-driven vehicle easily in learner-driven vehicle is picked waiting for, in addition, describedly drive training system can obtain the mobile phone terminal of described student geographic position by network equipment, when learner-driven vehicle is near meeting voice reminder in time picking the position of student, avoid missing student.

In addition, the positional information of vehicle can be pushed to remote server by described network equipment by the locating device in the utility model embodiment, remote server judges by the positional information of vehicle the project that this learner-driven vehicle is being trained, because, the training program that different places is corresponding different, is convenient to the Information Statistics to the training program on learner-driven vehicle and management.

In the utility model embodiment, described locating device is triones navigation system.

Therefore, after the training system of driving of the utility model embodiment is connected with car running computer, can with car running computer real-time Communication for Power, thus grasp the learning time of each student, the project of training and study schedule, coach comprehensively can understand the study situation of student.

Moreover, described storer, described Data Input Interface are all connected with described kernel processing device with described data output interface, described Data Input Interface comprises video signal input interface, audio input interface and USB (universal serial bus), and described data output interface comprises video signal output interface and sound signal output interface.The storage space of described kernel processing device is expanded by described storer.

The described radio frequency reading device that the utility model embodiment as shown in Figure 3 provides comprises the first antenna 307 for receiving the radiofrequency signal that described close distance radio frequency transmitter module sends, for receiving the second antenna 308 of the radiofrequency signal that described long-range radio-frequency transmitter module sends, envelope detection circuit 301, demodulator circuit 302, digital circuit 309, described first antenna 307 is all connected with described envelope detection circuit 301 with described second antenna 308, described envelope detection circuit 301 is connected with described demodulator circuit 302, described demodulator circuit 302 is connected with described digital circuit 309, described digital circuit 309 is connected with described kernel processing device.Described radio frequency reading device also comprises wake-up circuit 303, and described wake-up circuit 303 is connected with described digital circuit.

Described radio frequency reading device also comprises reflection modulation circuit 306, and described digital circuit 309 is connected with described reflection modulation circuit 306, and described reflection modulation circuit 306 is connected with described first antenna 307 and described second antenna 308 respectively.In the utility model embodiment, described close distance radio frequency transmitter module and described long-range radio-frequency transmitter module all adopt the mode of reflection modulation, outside emitting radio frequency signal, its principle is that RFID reader will transmit and is modulated on carrier wave, send to RFID label tag, maintain continuous five modulated carriers of a period of time subsequently; Label transmitting and obtaining energy continuous carrier from reader, demodulation transmits, and is modulated to by return message on the contact carrier wave from reader, reflects to reader.

Described radio frequency reading device also comprises taking turn control circuit 304 and clock generation circuit 305, described clock generation circuit 305 is connected with described digital circuit 309 and described taking turn control circuit 304 respectively, and described digital circuit 309 is connected with described taking turn control circuit 304.The radiofrequency signal that described taking turn control circuit 304 obtains for gathering the first antenna and the second antenna according to certain sampling rate, described clock generation circuit is used for for described taking turn control circuit produces sampling rate.

Described digital circuit 309 mainly realizes EPC communication protocol, identify that the order that sends of read write line also performs, as realized anti-collision method when many labels are read, perform read write command, the communication process realizing read write line and label that read write line sends and output data are encoded etc.

The purposes of described first antenna realizes distinguishing the identity information electronic tag of driver, and the purposes of described second antenna realizes distinguishing the electronic tag of all personnel's identity information in vehicle.Between both antennas, adopt the mode of timesharing to carry out the realization of taking turn mode, specifically realized by taking turn control circuit.

Be understandable that, the utility model can be used in numerous general or special purpose computing system environment or configuration.Such as: personal computer, server computer, handheld device or portable set, laptop device, multicomputer system, system, set top box, programmable consumer-elcetronics devices, network PC, small-size computer, mainframe computer, the distributed computing environment comprising above any system or equipment etc. based on microprocessor.

The utility model can describe in the general context of computer executable instructions, such as program module.Usually, program module comprises the routine, program, object, assembly, data structure etc. that perform particular task or realize particular abstract data type.Also can put into practice the utility model in a distributed computing environment, in these distributed computing environment, be executed the task by the remote processing devices be connected by communication network.In a distributed computing environment, program module can be arranged in the local and remote computer-readable storage medium comprising memory device.

It should be noted that, in this article, the such as relational terms of first and second grades and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. drive training system for one kind, it is characterized in that, comprise: kernel processing device, radio frequency reading device and student's card, described student Ka Nei is provided with close distance radio frequency transmitter module, described radio frequency reading device is arranged on the driver's seat place on learner-driven vehicle, and described kernel processing device is connected with described radio frequency reading device.

2. according to claim 1ly drive training system, it is characterized in that, described student Ka Nei is also provided with long-range radio-frequency transmitter module.

3. according to claim 2ly drive training system, it is characterized in that, also comprise network equipment, described network equipment is connected with described kernel processing device.

4. according to claim 3ly drive training system, it is characterized in that, also comprise Controller Area Network BUS interface, described kernel processing device is connected with described Controller Area Network BUS interface, and described Controller Area Network BUS is connected with the car running computer in learner-driven vehicle.

5. according to claim 4ly drive training system, it is characterized in that, also comprise locating device, described locating device is arranged in learner-driven vehicle, and described locating device is connected with described kernel processing device.

6. according to claim 5ly drive training system, it is characterized in that, described radio frequency reading device comprises the first antenna for receiving the radiofrequency signal that described close distance radio frequency transmitter module sends, for receiving the second antenna of the radiofrequency signal that described long-range radio-frequency transmitter module sends, envelope detection circuit, demodulator circuit, digital circuit, described first antenna is all connected with described envelope detection circuit with described second antenna, described envelope detection circuit is connected with described demodulator circuit, described demodulator circuit is connected with described digital circuit, described digital circuit is connected with described kernel processing device.

7. according to claim 6ly drive training system, it is characterized in that, described radio frequency reading device also comprises reflection modulation circuit, and described digital circuit is connected with described reflection modulation circuit, and described reflection modulation circuit is connected with described first antenna and described second antenna respectively.

8. according to claim 7ly drive training system, it is characterized in that, described radio frequency reading device also comprises taking turn control circuit and clock generation circuit, described clock generation circuit is connected with described digital circuit and described taking turn control circuit respectively, and described digital circuit is connected with described taking turn control circuit.

9. according to claim 8ly drive training system, it is characterized in that, described radio frequency reading device also comprises wake-up circuit, and described wake-up circuit is connected with described digital circuit.

10. drive training system according to the arbitrary described of claim 1-9, it is characterized in that, also comprise storer, Data Input Interface and data output interface, described storer, described Data Input Interface are all connected with described kernel processing device with described data output interface, described Data Input Interface comprises video signal input interface, audio input interface and USB (universal serial bus), and described data output interface comprises video signal output interface and sound signal output interface.