CN107622708B - Intelligent digital interactive experiment teaching system based on various mobile terminals - Google Patents

Abstract

The invention discloses an intelligent digital interactive experiment teaching system based on various mobile terminals, and relates to interactive teaching. The intelligent mobile device is used for solving the problems that the current student's own intelligent mobile device can not realize randomness of manual connection and disconnection as the student end of the intelligent digital interactive teaching system, and the privacy and the safety of a smart mobile phone of the student can not be fully protected. The system comprises one or more teaching terminals, a teaching terminal microscope matched with the teaching terminals, a router, a plurality of student terminal microscopes respectively connected with the router, wherein each student terminal microscope is respectively matched with a corresponding student mobile terminal, a microscopic imaging module and an image coding module are arranged in the student terminal microscope, and the student terminal microscope further comprises a built-in WIFI module.

Description

Intelligent digital interactive experiment teaching system based on various mobile terminals

Technical Field

The invention relates to interactive teaching, in particular to an intelligent digital interactive experimental teaching system based on various mobile terminals.

Background

By adopting the microscope digital interactive teaching system, a teacher can observe and control microscope images of all students at any time in a microscopic experiment classroom, and can carry out various digital teaching, so that effective and vivid interactive teaching of the teacher and the students is realized, and the microscope digital interactive teaching system has been widely applied and has good effects. The microscope digital interactive teaching system is updated by several generations of technology along with the development of technology, and the digital interactive teaching system is transmitted from initial analog image transmission to high-resolution digital image transmission; from student end without computer equipment to student end with desktop computer, notebook computer, tablet computer, to student self-contained mobile terminal such as smart phone and portable tablet, etc. The microscope digital interactive teaching system forms the main means of the current micro teaching experiment. Particularly, the existing students can carry the smart phone with hands, the smart phone has strong functions, the performance can be comparable to that of a general tablet personal computer, even stronger, the built-in smart camera is fully utilized, macroscopic images such as insects, plants, general and specimens are observed, macroscopic biological interaction experiments are carried out, the cost of a microscopic digital interaction teaching system is reduced, maintenance is reduced, the performance is improved, flexible teaching and the like can be achieved, and better effects are achieved.

Patent literature 200910308540.5 discloses a microscopic experiment interactive teaching system, which comprises teacher end equipment, a plurality of student end equipment and control equipment for controlling information transmission among the teacher end equipment and the plurality of student end equipment, wherein the teacher end equipment comprises a teacher end microscope, and the student end equipment comprises a student end microscope. The information can be transmitted between the teacher end device and the student end devices as well as among the plurality of student end devices, so that students can see not only video information of the teacher end microscope but also video information of other student end microscopes of other classmates.

However, there is a relatively large limitation in the application of the portable mobile terminals such as smartphones and tablets carried by students as the end of interactive classroom students at present, and the limitation is mainly reflected in that the mobile terminals of the students are private, such as the smartphones carried by the students, including personal privacy and mobile payment security of the students, and the like, and cannot be completely controlled by software like a computer fixedly configured by a conventional interactive system. Meanwhile, the student smart phone is completely mastered by the student, the student can join the interactive system independently, and the student can disconnect the interactive system independently, so that the connection of the interactive system adopting the student mobile equipment is loose, and the student cannot be forced to be always connected into the interactive system. Therefore, the current interaction system adopting the student self-contained mobile device is generally a simple information static transmission mode, such as a simple interaction method of receiving the homework requirement, submitting the classroom homework, transmitting the static image and the like. Meanwhile, the student mobile device generally has very strong functions and configurations, such as performance indexes of a built-in camera of a smart phone, such as pixel size and imaging quality of the mobile device are changed with the development of technology, and if the advantages are fully utilized in an interactive system, the mobile device is also a subject of deep research in the industry.

Disclosure of Invention

The invention aims to provide an intelligent digital interactive experiment teaching system based on a plurality of mobile terminals, which solves the problem of randomness of human connection and disconnection possibly existing at the student end of an intelligent digital interactive teaching system by adopting intelligent mobile equipment carried by students, protects the privacy of smart mobile phones and the safety of mobile phones of the students, fully plays the configuration function of the intelligent equipment, and is not based on the existing mapping function. In order to achieve the technical purpose, the invention adopts the following technical scheme:

An intelligent digital interactive experiment teaching system based on multiple mobile terminals comprises one or more teaching terminals, a teaching end microscope matched with the teaching terminals, one or more routers, a plurality of student end microscopes respectively connected with the routers, each student end microscope is respectively matched with a corresponding student mobile terminal, a microscopic imaging module and an image coding module are arranged in the student end microscope,

The microscopic imaging module is used for generating microscopic images under the mirror,

The image coding module is used for receiving microscopic images under the mirror or receiving images transmitted from the teaching terminal from the outside;

the student end microscope also comprises a built-in WIFI module,

The WIFI module can transmit the dynamic of microscopic images under the microscope of the student end microscope to the router through a wired or wireless network, or receive images sent by the teaching terminal through the router;

The teaching terminal is connected to the router through a wire or a wireless to acquire and monitor microscopic images and experiments of each student microscope,

When the teaching terminal broadcast screen carries out teaching demonstration, teaching images are sent to an image coding module arranged in each student terminal microscope through a router so as to replace images obtained from the image coding module, and students still obtain teaching contents broadcast by a teacher by accessing dynamic images of the digital microscope;

The second path is that the student mobile terminal is connected to the router through wireless, and forms an intelligent digital interactive teaching system together with the teaching terminal;

the student mobile terminal is connected to the router through wireless, then connected to each student end microscope, and can receive dynamic images of microscopic images under the microscope of the student end microscope;

The built-in macroscopic imaging equipment of student mobile terminal is used for the formation of image of macroscopic image, and macroscopic image can transmit to teaching terminal, makes mr can acquire and monitor every student mobile terminal's macroscopic image and experiment.

The invention adopting the technical scheme comprises a teaching terminal, a student terminal microscope, one teaching terminal microscope matched with the teaching terminal, one or more routers, a plurality of student terminal microscopes respectively connected with the routers, and each student terminal microscope is respectively matched with a corresponding student mobile terminal.

According to the technical scheme, one or more teaching terminals, one teaching terminal microscope, one or more routers, a plurality of student terminal microscopes, a microscope system formed by a plurality of student mobile terminals are used as communication nodes for image data transmission of teachers and students, a microscopic imaging module is arranged in the microscope system at the student terminal so as to acquire images under the microscope, and a WIFI module is arranged in the microscope system so as to be connected with imaging equipment of the microscope and connected with the teaching terminal and the student mobile terminals through a network.

It should be noted that, the communication scheme related to the present technical solution may refer to a patent (application number 200510043852. X) of this company, which is a completely interactive microscope teaching system, including: the system comprises a plurality of automatically controlled digital microscopes, a plurality of control boxes respectively connected with the digital microscopes, a plurality of control rods respectively connected with the control boxes, a microscope control console and a microscope bus for connecting the digital microscopes into a microscope network. The microscope control console comprises a microscope selection module and an action selection module, wherein the microscope selection module is used for selecting a digital microscope to be controlled, and the action selection module is used for controlling the execution action of the selected digital microscope. Meanwhile, the microscope network can be connected with a computer network through a network protocol conversion module, and any microscope can be controlled through a computer. The WIFI module arranged in the student end microscope has a simple programming function, and can control various image data stream transmission directions and switching.

Further defined, the picture switching between the under-mirror micro image and the macro image is achieved through a router, wherein the under-mirror micro image is generated by a micro imaging device and the macro image is generated by a macro imaging device.

The system is characterized in that the student mobile terminal is provided with a matched app, and the student mobile terminal is connected to the router in a wireless manner and forms an intelligent digital interactive teaching system together with the teaching terminal through the app on the student mobile terminal;

the student mobile terminal is connected to the router through wireless connection, and then is connected to each student end microscope, and can receive dynamic images imaged by microscopic images under the microscope of the student end microscope.

Further defined, the built-in macro imaging device of the student mobile terminal is used for imaging macro images, and the macro images can be transmitted to the teaching terminal through the app via the router, so that a teacher can acquire and monitor the macro images and experiments of each student mobile terminal.

Further defined, the student end microscope is connected with the designated student mobile terminal through the router, and the dynamic image of the microscopic image under the microscope generated by the microscopic imaging equipment of the student end microscope is sent to the student mobile terminal.

Further limiting, the student end microscope is connected with the teaching terminal through the router, and receives a teacher screen image transmitted by the digital module of the microscope from the teaching terminal so as to realize teacher teaching;

further limiting, the student end microscope transmits the macro image of the built-in macro imaging device of the student mobile terminal or the dynamic image of the microscopic image generated by the microscopic imaging device of the student end microscope to a teacher, so that the teacher can monitor the macro experiment and teaching performed by the student mobile terminal.

Further defined, the student mobile terminal comprises a tablet computer or a mobile phone. Student mobile terminals include, but are not limited to, cell phones, tablet computers.

Further defined, the router employs a wireless router.

Compared with the prior art, each student end microscope is respectively connected with the student mobile terminal and the teaching terminal through the network, the teaching terminal is not directly connected with the student mobile terminal, and image transmission is not performed between the teaching terminal and the student mobile terminal, all images from the student mobile terminal are firstly transmitted to the WIFI module (namely the network module) of the student end microscope through the network, and the WIFI module of the microscope is transmitted to the teaching terminal. The images of all teaching terminals are firstly sent to the WIFI module of each student end microscope through the network, and the WIFI module of the corresponding student end microscope is forwarded to the student mobile terminal.

The student mobile terminal is provided with an interactive teaching system app, and performs operation and image transmission of corresponding interactive teaching functions. The student mobile terminal is connected to the student end microscope system of the student through the wireless WIFI network, and can watch microscopic images under the microscope transmitted by the image coding module under the student end microscope to conduct microscopic teaching experiments. The student mobile terminal can also watch teaching images from a teaching terminal screen through the connected WIFI module of the corresponding student end microscope so as to conduct teaching explanation of a teacher. The student mobile terminal can also utilize the intelligent camera to watch macroscopic images, conduct macroscopic teaching experiments, and can transmit the macroscopic images or screens to teachers through the connected WIFI modules of the corresponding student end microscopes, so that the teachers can monitor the macroscopic image experiments conducted by students. And the interaction network is connected and disconnected, macroscopic images or screen images of the student mobile terminal are transmitted to perform macroscopic experiment interaction, the student can completely control the interaction by himself, and the student can start the interaction between the function and a teacher when needed, so that the privacy of the student and the safety of the smart phone are fully protected.

The teaching terminal is connected to the system of the student end microscope of each student through a network, receives the transmitted image through the WIFI module in the system of each student end microscope in a monitoring mode of a teacher, and if the student is carrying out a microscopic experiment, receives microscopic images under the microscope of the microscopic imaging module in each student end microscope, and observes and monitors the microscopic image experiment process of the student. If the student is carrying out the macroscopic experiment, the student also starts the macroscopic image transmission mode, and then the camera image or the screen image of the student mobile terminal transmitted by the WIFI module in the student terminal microscope is received, and the macroscopic image experiment process of the student is observed and monitored. Under the teaching mode of a teacher, the screen image of the teacher end is broadcast to the WIFI module of the student end microscope of each student, the WIFI module receives the broadcast image of the teacher end, replaces microscopic images under the microscope of the microscopic imaging module, and transmits the images to each student mobile terminal, so that the images watched by each student are the teacher screen images, and the teaching effect of the teacher is played.

Finally, for example, fig. 1 shows that although the conventional technology uses a wireless lan environment, a display is mounted, and the mobile phone terminal can display, but only projects, so that the interaction between the teacher and the students cannot be realized through the mobile phone. According to the technical scheme, the interactive interaction mode of the two-way transmission of the teaching terminal (namely, the teacher end) -student end microscope (similarly, the teaching end microscope) -student mobile terminal (namely, the student end) is also achieved, the interactive interaction of the teacher information data and the student information data is also achieved, the current interactive teaching system is used for the teacher to play the business, and the teacher is transmitted to the student mobile terminal through the WIFI module of the student end microscope as well as the screen broadcast teaching. And the students submit homework, and the homework of the student mobile terminal is transmitted to the teacher through the corresponding WIFI module of the student end microscope as well as the teacher observes the macroscopic experiment of the students. Other interactive communication between the teaching terminal and the student mobile terminal, such as picture communication, voice communication, text communication, short message communication and the like, is realized through the same communication mode and communication channel.

Drawings

The invention can be further illustrated by means of non-limiting examples given in the accompanying drawings;

FIG. 1 is a prior art flow chart of an interactive teaching system;

FIG. 2 is an overall diagram of an intelligent digital interactive experiment teaching system based on various mobile terminals;

FIG. 3 is a connection topology of the teaching terminal, student mobile terminal, student end microscope of the present invention;

FIG. 4 is a representation of the transmission of microscopic experimental images of students in accordance with the present invention;

FIG. 5 is a diagram of the macro experimental image transmission of a student of the present invention;

FIG. 6 is a teacher broadcast teaching image transmission of the present invention;

FIG. 7 is a modular distribution diagram of a student end microscope built-in module of the present invention;

FIG. 8 is an app login interface of the present invention;

FIG. 9 is a graphical interface of an app microscopic experiment of the present invention;

Fig. 10 is an image of a microscopic image under the mirror of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, the following technical scheme of the present invention will be further described with reference to the accompanying drawings and examples.

As shown in fig. 2, 3, 4, 5, 6 and 7, the invention comprises a teaching terminal, a teaching terminal microscope matched with the teaching terminal, a router, a plurality of student terminal microscopes respectively connected with the router, each student terminal microscope is respectively matched with a corresponding student mobile terminal, a microscopic imaging module is arranged in the student terminal microscope, an image coding module is arranged in the student terminal microscope, and the student terminal microscope also comprises a built-in WIFI module.

As shown in fig. 2, the microscopic imaging module of the student microscope is composed of a digital camera, and is used for imaging microscopic images under the student microscope, and dynamic images of the microscopic images are sent out in a wired or wireless mode through the WIFI module. The student mobile terminal is always connected to the router through wireless WIFI, and the teaching terminal and the student terminal microscope are connected to the router through wired LAN or wireless WIFI, so that network connection of the student mobile terminal, the student terminal microscope and the teaching terminal is formed. The WIFI module respectively sends microscopic images under the microscope of the student terminal microscope to the student mobile terminal for observation and the teaching terminal for monitoring under the microscopic experiment state; shielding the receiving and transmitting of microscopic images of the student end microscope in the state of macroscopic experiments, and forwarding the received screen or macroscopic images transmitted from the student mobile terminal to a teacher end for monitoring; the method comprises the steps of shielding the receiving and transmitting of microscopic images under the microscope of a student end microscope in a state taught by a teacher, and forwarding the screen images transmitted from the teaching terminal to the student mobile terminal for teaching demonstration activities.

Fig. 3 clearly identifies the topological structure and the physical connection relation of the connection of the teaching terminal, the student mobile terminal and the student microscope, whether the teacher and the student watch the microscope image in a microscopic experiment or the teacher obtains the dynamic macroscopic image of the screen of the student mobile terminal or the built-in camera of the mobile device in a macroscopic experiment, or the teacher transmits the ppt of the teacher screen or the teaching image to the student mobile terminal in teaching demonstration, the connection is carried out through the WIFI module (i.e. the network module) of the student microscope, and the teaching terminal and the student mobile terminal are not directly connected. With this connection design, it is mainly considered that the student mobile terminal is a student's own mobile device, such as a mobile phone. The student microscopic experiments watch microscopic images under the microscope of the student end microscope, or the student macroscopic experiments need to transmit macroscopic images to teachers, or watch teaching demonstration of the teachers, are all performed autonomously by students, and are very different from the conventional network interaction teaching system. The conventional network interactive teaching system is controlled by a teacher in absolute terms, whether students watch images under the mirror or not is controlled, whether student screens are monitored or not is controlled, whether the student screens forcedly display teaching contents of the teacher or not is determined, and the like. In the case of using a smart phone as a student end device, the owner-student as the smart phone has complete control over his own phone, which cannot be forcefully changed. Therefore, aiming at the characteristics of the student self-holding mobile equipment, the teacher does not control the student mobile terminal completely, but adopts the WIFI module of the student end microscope as an intermediate carrier, and transmits the teaching screen image of the teacher and the image content of the student self-macroscopic experiment when the student needs, namely the screen content of the self-smart phone or the image content of the built-in camera of the smart phone. The design also ensures that if students can connect into the interactive network or disconnect from the interactive network at any time without affecting the stability and normal operation of the interactive network. For example, if a student needs to display a macro experiment image of the student, the student only needs to click on the macro experiment, then the macro image is transferred to a WIFI module of a student end microscope, and the teacher can see the macro experiment of the student when the network transmission is first-stage replacing the transmission of the image under the microscope, if the student breaks the interactive network connection, the microscope network module can automatically recover the transmission end of the image under the microscope, so that the teacher can recover the conventional monitoring of the image under the student microscope without operation. For another example, when a teacher is in demonstration teaching, the mobile terminal of the student sees a screen image broadcast by the teacher terminal, if the student breaks the interaction network at the moment, the teacher is transmitted to the WIFI module of the microscope at the student terminal for forwarding instead of being directly connected with the student, so that the student cannot be affected, if the student is connected into the interaction software again, the WIFI module of the microscope at the student terminal is transmitted to the broadcasting image at the teacher terminal, and the mobile terminal of the student is directly connected with the microscope at the student terminal, so that the received and displayed content is the same, and the teaching mode of the teacher is automatically restored.

Fig. 4, 5, and 6 illustrate modular distribution diagrams of student microscopic experiment image transmission, student macroscopic experiment image transmission, and teacher broadcast teaching image transmission, respectively, of a student-side microscope built-in module.

As shown in fig. 4, in the student microscopic experiment mode, microscopic images under the student microscope are divided into two paths by the WIFI module of the student microscope, and one path of images is transmitted to the student mobile terminal by wireless WIFI, so that the student can observe and complete microscopic experiment courses; one path is transmitted to the teaching terminal through wires or wirelessly, so that a teacher can observe, know and necessarily control and adjust the image under the mirror, and the student is helped to complete a microscopic experiment class.

As shown in fig. 5, in the student macroscopic experiment mode, the screen of the student mobile terminal or the high-definition camera embedded in the mobile device will be unidirectionally transferred to the WIFI module of the student end microscope, and the WIFI module will also unidirectionally send the same image to the teaching terminal, so that the teacher can know and guide the student to complete the macroscopic experiment.

As shown in fig. 6, in the teacher broadcasting teaching mode, the teacher screen teaching image will be unidirectionally transmitted to the WIFI module of the student end microscope, and the WIFI module also unidirectionally transmits the same image to the student mobile terminal, so as to realize teaching of the teacher.

As shown in fig. 7, the modules of the built-in module of the student microscope consist of three parts, namely a microscopic imaging module, an image coding module and a WIFI module.

In addition, as shown in fig. 8, 9 and 10, the app of the technical scheme has macro experiments, micro images, information exchange, system setting, clicking on the micro images, entering the state of the micro experiments, and the WIFI module will send the microscopic images under the microscope of the student end microscope corresponding to each classmate to the student mobile terminal for observation and monitoring of the teaching terminal respectively in the state of the micro experiments. In this embodiment, 32-bit classmates are selected, the system is connected successfully in 2-3 s and transmits the image, and meanwhile, it is pointed out that the microscopic image under the mirror of the whole system can be kept undistorted under 50-100 um.

While the foregoing description illustrates and describes the preferred embodiments of the present invention, as noted above, it is to be understood that the invention is not limited to the forms disclosed herein but is not to be construed as excluding other embodiments, and that various other combinations, modifications and environments are possible and may be made within the scope of the inventive concepts described herein, either by way of the foregoing teachings or by those of skill or knowledge of the relevant art. And that modifications and variations which do not depart from the spirit and scope of the invention are intended to be within the scope of the appended claims.

Claims (5)

1. The utility model provides an intelligent digital interactive experiment teaching system based on multiple mobile terminal, includes one or more teaching terminal, and a teaching end microscope that matches with the teaching terminal, one or more router, a plurality of student end microscope that are connected with the router respectively, every student end microscope matches with a corresponding student mobile terminal, its characterized in that respectively: the student end microscope is internally provided with a microscopic imaging module, an image coding module,

The microscopic imaging module is used for generating microscopic images under the mirror,

The image coding module is used for receiving microscopic images under the mirror or receiving images transmitted from the teaching terminal from the outside;

the student microscope further comprises a built-in WIFI module, and the WIFI module can transmit dynamic images of microscopic images under the student microscope through a wired or wireless network

Outputting the images to a router or receiving the images sent by the teaching terminal through the router;

the method comprises the steps that a first path is formed, a teaching terminal is connected to a router in a wired or wireless mode, microscopic images and experiments of each student-side microscope are obtained and monitored, when a teaching terminal broadcast screen carries out teaching demonstration, the teaching images are sent to an image coding module arranged in each student-side microscope through the router to replace images obtained from the image coding module, a WIFI module of the student-side microscope sends the teaching images to the student mobile terminal, and students still obtain teaching contents broadcasted by teachers by accessing dynamic images of a digital microscope;

The second path is that the student mobile terminal is connected to the router through wireless, and forms an intelligent digital interactive teaching system together with the teaching terminal;

The student mobile terminal is connected to the router through wireless, then connected to each student end microscope, and can receive dynamic images of microscopic images under the microscope of the student end microscope; the built-in macroscopic imaging equipment of the student mobile terminal is used for imaging macroscopic images, and the macroscopic images can be transmitted to the teaching terminal, so that a teacher can acquire and monitor the macroscopic images and experiments of each student mobile terminal;

The picture switching between the microscopic image and the macroscopic image under the mirror is realized through a router, wherein the microscopic image under the mirror is generated by utilizing microscopic imaging equipment, and the macroscopic image is generated by utilizing macroscopic imaging equipment;

The student mobile terminal is connected to the router in a wireless way, and forms an intelligent digital interactive teaching system together with the teaching terminal through the app on the student mobile terminal;

the student mobile terminal is connected to the router in a wireless way, then connected to each student end microscope and can receive dynamic images imaged by microscopic images under the microscope of the student end microscope;

The built-in macro imaging equipment of the student mobile terminal is used for imaging macro images, and the macro images can be transmitted to the teaching terminal through the router through the app, so that a teacher can acquire and monitor the macro images and experiments of each student mobile terminal;

The student terminal microscope transmits the macroscopic image of the built-in macroscopic imaging equipment of the student mobile terminal or the dynamic image of the microscopic image under the microscope generated by the microscopic imaging equipment of the student terminal microscope to the teaching terminal, so that a teacher can monitor macroscopic experiments and teaching performed by the student mobile terminal.

2. The intelligent digital interactive experiment teaching system based on the multiple mobile terminals according to claim 1, wherein the intelligent digital interactive experiment teaching system is characterized in that: the student terminal microscope is connected with the designated student mobile terminal through the router, and the dynamic image of the microscopic image under the microscope generated by the microscopic imaging equipment of the student terminal microscope is sent to the student mobile terminal.

3. The intelligent digital interactive experiment teaching system based on the multiple mobile terminals according to claim 1, wherein the intelligent digital interactive experiment teaching system is characterized in that: the student end microscope is connected with the teaching terminal through the router, and receives teacher screen images transmitted by the WIFI module of the microscope from the teaching terminal to realize teacher teaching.

4. The intelligent digital interactive experiment teaching system based on multiple mobile terminals according to claim 1,2 or 3, wherein: the student mobile terminal comprises a tablet personal computer or a mobile phone.

5. The intelligent digital interactive experiment teaching system based on the multiple mobile terminals according to claim 4, wherein the intelligent digital interactive experiment teaching system is characterized in that: the router adopts a wireless router.