JP2005020427A - Image data transfer system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image data transfer system capable of transferring image data obtained by applying marking, etc., to an image displayed on a prescribed terminal device to another terminal device at low cost. <P>SOLUTION: This image data transfer system has a teacher terminal device 30 connected to a network 20, n pieces of student terminal devices 40 and a controller 50 for controlling image data transfer. The teacher terminal device 30 and the student terminal devices 40 are provided with a communication means which performs communication in the network 20 on the basis of a TCP (transmission control protocol) and transmits and receives image data divided by multicast communication based on a UDP (user datagram protocol). Thus, the image data with marking, etc., applied thereto are transferred at low cost. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image data transfer system for transferring image data to a terminal device connected to a network.
[0002]
[Prior art]
A conventional image data transfer system has a plurality of student subsystems, a teacher subsystem, and a cable. Each student subsystem selects a personal computer, a CRT, and an image to be displayed on the CRT. The teacher subsystem includes a control panel for executing commands, a control unit for controlling the student screen control unit, a coordinate input device for marking images, and the like, and a CRT. Is a cable for transmitting image data from the teacher subsystem to the student subsystem, a cable for transmitting image data from the student subsystem to the teacher subsystem, and a cable for transmitting control signals output from the control unit. And.
[0003]
In the conventional image data transfer system, first, a command for processing student screen reception is executed by the operation panel. Then, the student screen control unit is operated by the control unit, the image data displayed on the CRT of the student subsystem is transferred to the teacher subsystem, and the image is displayed on the CRT of the teacher subsystem.
[0004]
Subsequently, marking or the like is performed on the image displayed on the CRT of the teacher subsystem by the coordinate input device. Next, a command for processing transmission of an image to the student is executed by the operation panel. Then, the student screen control unit is operated by the control unit, and the image data on which marking or the like has been performed is transferred to the student subsystem and displayed on the CRT.
[0005]
As described above, in the conventional image data transfer system, the student subsystem and the teacher subsystem are connected by three cables, and the image displayed on the CRT of the student subsystem is connected to the teacher subsystem. The teacher can mark and display on the CRT, and the image data that has been marked can be transferred to the student subsystem and displayed on the CRT, thereby supporting the instruction from the teacher to the student. (For example, refer to Patent Document 1).
[0006]
[Patent Document 1]
JP 2001-195045 A (page 6-9, FIG. 1)
[0007]
[Problems to be solved by the invention]
However, since such a conventional image data transfer system requires three cables for transmission of image data and control signals, the cable connection and maintenance become complicated as the number of student subsystems increases. There was a problem of becoming.
[0008]
Further, in the conventional image data transfer system, the marking or the like can be performed only in the teacher subsystem having the control unit, and the image data subjected to the marking or the like in any of the student subsystems is transferred to other students. In order to be able to transfer to the student subsystem or the teacher subsystem, it is necessary to add a control unit to each of the student subsystems.
[0009]
The present invention has been made to solve such a problem, and can be connected between terminal devices with a single cable, and an image obtained by marking or the like on an image displayed on a predetermined terminal device. It is an object of the present invention to provide an image data transfer system that can transfer data to other terminal devices at low cost.
[0010]
[Means for Solving the Problems]
The terminal device of the present invention captures image data including an image display means for displaying an image, a cursor on the image display means, an operation means for operating the cursor, and an image including the locus of the cursor. A second communication protocol that communicates with a network based on a first communication protocol including an error correction procedure in data communication, and that does not include the error correction procedure; And a communication means for transmitting and receiving the divided image data based on the above.
[0011]
With this configuration, the communication means communicates with the network by a communication control command based on the first communication protocol including the error correction procedure, and transmits and receives the divided image data by multicast communication based on the second communication protocol not including the error correction procedure. Therefore, terminal devices can be connected with a single cable, and image data in which an image displayed on a predetermined terminal device is marked by an operation means can be transferred to other terminal devices at low cost. Can do.
[0012]
The terminal device of the present invention captures image data including an image display means for displaying an image, an operation means for displaying the cursor on the image display means, operating the cursor, and a locus of the cursor. An image data capturing means for dividing the image data into a plurality of divided image data in a predetermined division unit, a second communication not communicating with the network based on a first communication protocol including an error correction procedure in data communication, And a communication unit that transmits and receives the divided image data based on a communication protocol and transmits and receives an operation signal of the operation unit based on a predetermined communication protocol.
[0013]
With this configuration, the communication means communicates with the network by a communication control command based on the first communication protocol including the error correction procedure, and transmits and receives the divided image data by multicast communication based on the second communication protocol not including the error correction procedure. In addition, since the data of the drawing trajectory is transmitted and received based on a predetermined communication protocol, the terminal devices can be connected with a single cable, and an image displayed on the predetermined terminal device can be remotely operated by an operating means. Image data that has undergone marking or the like can be transferred to another terminal device at low cost.
[0014]
An image data transfer system according to the present invention includes a terminal device connected to a network, and a control device that controls transfer of image data. The terminal device includes an image display unit that displays an image, and the image display unit. An operation means for operating the cursor, an image data capturing means for capturing image data including the locus of the cursor and dividing the image data into a plurality of divided image data in a predetermined division unit, and data communication Terminal-side communication means for communicating with the network based on a first communication protocol including an error correction procedure, and transmitting and receiving the divided image data based on a second communication protocol not including the error correction procedure, The control device controls a control-side communication unit that communicates with the terminal device based on the first communication protocol, and controls transfer of the divided image data It has a configuration which is characterized in that a transfer control unit that.
[0015]
With this configuration, the terminal side communication means communicates with the network by a communication control command based on the first communication protocol including an error correction procedure, and the divided image data by multicast communication based on the second communication protocol not including the error correction procedure. The terminal device can be connected with a single cable, and image data that has been marked on the image displayed on the specified terminal device by operating means is transferred to other terminal devices at low cost. can do.
[0016]
The image data transfer system of the present invention includes a terminal device connected to a network, and a control device that controls transfer of image data. The terminal device includes an image display unit that displays an image, and the image An operation means for displaying a cursor on the display means and operating the cursor, an image data capturing means for capturing image data including the locus of the cursor and dividing the data into a plurality of divided image data in a predetermined division unit, and data Communication with the network based on a first communication protocol including an error correction procedure in communication, transmission / reception of the divided image data based on a second communication protocol not including the error correction procedure, and a predetermined communication protocol Terminal-side communication means for transmitting and receiving an operation signal of the operation means based on the first communication protocol. And a control side communication means for communicating with the terminal device based, has a structure which is characterized in that a transfer control means for controlling the transfer of the divided image data.
[0017]
With this configuration, the terminal side communication means communicates with the network by a communication control command based on the first communication protocol including an error correction procedure, and the divided image data by multicast communication based on the second communication protocol not including the error correction procedure. Since the operation signal of the operation means is transmitted and received based on a predetermined communication protocol, the terminal devices can be connected with a single cable, and the image displayed on the predetermined terminal device is displayed by the operation means. Image data subjected to marking or the like by remote operation can be transferred to another terminal device at low cost.
[0018]
Furthermore, in the image data transfer system according to the present invention, the terminal device includes an image compression unit that compresses the divided image data for each of the division units, and the image compression for the divided image data for each of the division units. And an image expansion means.
[0019]
With this configuration, the terminal-side communication means transmits / receives the image-compressed divided image data by multicast communication based on the second communication protocol that does not include an error correction procedure, so that the load on the network can be reduced.
[0020]
Furthermore, in the image data transfer system of the present invention, the control device controls priority of a process related to processing of the divided image data in the terminal device to which the divided image data has been transferred according to a predetermined condition. It has a configuration characterized by including priority control means.
[0021]
With this configuration, the priority control means changes the priority of the process related to the processing of the transferred divided image data according to the operation status of the terminal device, and executes the processing of the transferred divided image data with priority. Therefore, it is possible to reduce reception errors of the divided image data when receiving the divided image data, and to efficiently process the divided image data after receiving the divided image data.
[0022]
Furthermore, the image data transfer system of the present invention includes a terminal device connected to a network and a control device that controls transfer of image data, and the terminal device includes a terminal-side image display means for displaying an image, A terminal that displays a cursor on the terminal-side image display means and operates the cursor, and a terminal that captures image data including the locus of the cursor and divides the data into a plurality of divided image data in a predetermined division unit Side image data capturing means, communicates with the network based on a first communication protocol including an error correction procedure in data communication, and transmits / receives the divided image data based on a second communication protocol not including the error correction procedure A terminal-side communication means for controlling the control-side image display means for displaying an image and a cursor on the control-side image display means. A control-side operation unit that operates the cursor, a control-side image data capturing unit that captures image data including the locus of the cursor and divides the data into a plurality of divided image data in the division unit, and the first Control side communication means for communicating with the network based on a communication protocol and transmitting / receiving the divided image data based on the second communication protocol, and transfer control means for controlling transfer of the divided image data It has the structure characterized by these.
[0023]
With this configuration, the terminal-side communication unit and the control-side communication unit communicate with the network by a communication control command based on the first communication protocol including the error correction procedure, and are based on the second communication protocol that does not include the error correction procedure. Since the divided image data is transmitted and received by communication, the terminal devices can be connected by a single cable, and the image data obtained by marking the image displayed on the predetermined terminal device with the operating means is transmitted to the other terminal device. Can be transferred at low cost.
[0024]
Furthermore, the image data transfer system of the present invention includes a terminal device connected to a network and a control device that controls transfer of image data, and the terminal device includes a terminal-side image display means for displaying an image, A terminal that displays a cursor on the terminal-side image display means and operates the cursor, and a terminal that captures image data including the locus of the cursor and divides the data into a plurality of divided image data in a predetermined division unit Side image data capturing means, communicates with the network based on a first communication protocol including an error correction procedure in data communication, and transmits / receives the divided image data based on a second communication protocol not including the error correction procedure And a terminal side communication means for transmitting and receiving an operation signal of the terminal side operation means based on a predetermined communication protocol, and the control The control side image display means for displaying an image, the control side image display means displays a cursor, the control side operation means for operating the cursor, and the image data including the locus of the cursor is captured. Control-side image data capturing means for dividing the divided image data into a plurality of divided image data, communicates with a network based on the first communication protocol, and transmits / receives the divided image data based on the second communication protocol. And a control side communication means for transmitting / receiving an operation signal of the control side operation means based on a predetermined communication protocol, and a transfer control means for controlling the transfer of the divided image data. is doing.
[0025]
With this configuration, the terminal-side communication unit and the control-side communication unit communicate with the network by a communication control command based on the first communication protocol including the error correction procedure, and are based on the second communication protocol that does not include the error correction procedure. Since the divided image data is transmitted / received by communication and the operation signal of the operation means is transmitted / received based on a predetermined communication protocol, the terminal devices can be connected with one cable and displayed on the predetermined terminal device. Image data in which an image is marked by remote control by an operation means can be transferred to another terminal device at low cost.
[0026]
Further, in the image data transfer system according to the present invention, the terminal device and the control device include an image compression unit that compresses the divided image data for each of the division units, and the divided image data that has been image-compressed. And a terminal-side image decompressing means for decompressing each image.
[0027]
With this configuration, the terminal-side communication unit and the control-side communication unit transmit and receive the image-compressed divided image data by multicast communication based on the second communication protocol that does not include an error correction procedure, thereby reducing the load on the network. be able to.
[0028]
Furthermore, in the image data transfer system according to the present invention, the control device is configured such that a priority of a process related to processing of the divided image data in the terminal device and the control device to which the divided image data has been transferred is predetermined. And a priority control means for performing control according to the above.
[0029]
With this configuration, the priority control means changes the priority of the process related to the processing of the transferred divided image data according to the operation status of the terminal device, and executes the processing of the transferred divided image data with priority. Therefore, it is possible to reduce reception errors of the divided image data when receiving the divided image data, and to efficiently process the divided image data after receiving the divided image data.
[0030]
Furthermore, the image data transfer system of the present invention has a configuration characterized in that the image display means displays user information of the terminal device that is the transfer source of the image data transferred by the transfer control means. ing.
[0031]
With this configuration, the user of the transfer destination terminal device can easily grasp the name of the user of the transfer source terminal device.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. The image data transfer system of the present embodiment will be described by taking as an example the case of transferring image data in a class support system using a personal computer.
[0033]
First, the configuration of the image data transfer system of this embodiment will be described.
[0034]
As shown in FIG. 1, an image data transfer system 10 according to the present embodiment includes a teacher terminal device 30 connected to a network 20, n learner terminal devices 40 (40a to 40n), and image data. And a control device 50 for controlling the transfer of data. Each of the teacher terminal device 30, the learner terminal device 40, and the control device 50 is operated by a predetermined operating system (hereinafter, simply referred to as an OS) having a multitask function that simultaneously executes a plurality of processes. It has become. The teacher terminal device 30 and the learner terminal device 40 constitute a terminal device.
[0035]
The network 20 transmits a control command and image data through a single cable based on a predetermined packet based on a first communication protocol including an error correction procedure in data communication and a second communication protocol not including an error correction procedure. It has become.
[0036]
Here, the error correction procedure is, for example, when a packet is transmitted from the teacher terminal device 30 to the learner terminal device 40 via the network 20, a packet different from the packet transmitted from the teacher terminal device 30, that is, When the learner's terminal device 40 receives a packet including an error, the teacher terminal device 30 retransmits the same packet to the learner's terminal device 40 in order to correct the error.
[0037]
In the following description, TCP (Transmission Control Protocol) and UDP (User Datagram Protocol) are taken as examples of the first communication protocol and the second communication protocol, respectively. TCP includes a procedure for starting and ending communication in data communication and a packet error correction procedure. On the other hand, UDP omits the packet error correction procedure, specifies multiple terminal devices in the network and sends the same data all at once, specifies a single address and sends data to a specific terminal device. Unicast communication to be transmitted and broadcast communication to transmit data to an unspecified number of terminal devices can be performed.
[0038]
As shown in FIG. 2, the teacher terminal device 30 communicates with the network 20 based on TCP and transmits / receives image data based on UDP, and image data displayed on the image display unit 37. Is captured and divided into a plurality of divided image data in a predetermined division unit, an operation input unit 33 for inputting an operation signal, and an event process for processing an operation signal output from the operation input unit 33 A transfer operation GUI (Graphical User Interface) unit that displays a predetermined image on the image display unit 37 and causes the operation input unit 33 to transfer image data. 36 and an image display unit 37 for displaying an image.
[0039]
The transmission / reception processing unit 31 includes a data transmission / reception circuit, a microprocessor, a memory, and the like, and has a unique address on the network 20. The transmission / reception processing unit 31 communicates with a device connected to the network 20 by a communication control command based on TCP, and transmits / receives divided image data by multicast communication based on UDP. Note that the transmission / reception processing unit 31 divides the communication control command and the divided image data into packets having a predetermined data size and communicates with other devices.
[0040]
The image capture processing unit 32 includes a microprocessor, a memory, and the like, and captures image data for one screen displayed on the image display unit 37 from the OS that operates the teacher terminal device 30. Further, the image capture processing unit 32 divides image data for one screen by a predetermined division unit, compresses the image for each division unit, adds display position information, and, for example, 1 per second via the transmission / reception processing unit 31. Image data for up to two screens is transmitted to the network 20.
[0041]
The operation input unit 33 includes a keyboard and a pointing device such as a mouse, a trackball, and a pen. The operation input unit 33 performs operations such as key input and image drawing, and a cursor displayed on the image display unit 37. ing. In addition, the operation input unit 33 operates the cursor to transfer drawing trajectories (hereinafter simply referred to as markings) such as arrows, circles, and underlines to the image transferred from the learner's terminal device 40 and displayed on the image display unit 37. Can be applied).
[0042]
The event processing unit 34 includes a microprocessor, a memory, and the like, acquires a signal operated by the operation input unit 33, and outputs the acquired operation signal to the transmission / reception processing unit 31 and the transfer operation GUI unit 36. ing. In addition, the event processing unit 34 receives an operation signal operated for remote operation in another terminal device via the transmission / reception processing unit 31 by TCP communication based on the first communication protocol, and the transfer operation GUI unit 36. To output.
[0043]
The image drawing processing unit 35 is configured by a microprocessor, a memory, and the like. After the divided image data received by the transmission / reception processing unit 31 by multicast communication based on UDP is expanded for each division unit, the image data is processed based on the display position information. It is to be stored in the memory.
[0044]
The transfer operation GUI unit 36 includes a microprocessor, a memory, and the like, displays images such as predetermined windows and icons on the image display unit 37, and causes the operation input unit 33 to process the images. The transfer operation GUI unit 36 displays characters, symbols, cursors, and the like on the image display unit 37 based on the operation signal output from the event processing unit 34.
[0045]
The image display unit 37 is configured by a liquid crystal display, for example, and displays an image drawn by the image drawing processing unit 35 and images such as windows and icons displayed by the transfer operation GUI unit 36. In addition, you may comprise the image display part 37 with the liquid crystal display provided with the touch panel.
[0046]
As shown in FIG. 3, the learner's terminal device 40 is displayed on the image display unit 47 and the transmission / reception processing unit 41 that communicates with the network 20 based on TCP and transmits / receives image data based on UDP, respectively. An image capture processing unit 42 that captures image data and divides it into a plurality of divided image data in a predetermined division unit, an operation input unit 43 that inputs an operation signal, and an operation signal output from the operation input unit 43 An event processing unit 44 that performs image drawing processing, a transfer operation GUI unit 46 that displays a predetermined image on the image display unit 47, and causes the operation input unit 43 to perform image data transfer operations. And an image display unit 47 for displaying an image.
[0047]
The transmission / reception processing unit 41 includes a data transmission / reception circuit, a microprocessor, a memory, and the like, and has a unique address on the network 20. The transmission / reception processing unit 41 communicates with a device connected to the network 20 by a communication control command based on TCP, and transmits / receives divided image data by multicast communication based on UDP. Note that the transmission / reception processing unit 41 divides the communication control command and the divided image data into packets of a predetermined data size and communicates with other devices.
[0048]
The image capture processing unit 42 includes a microprocessor, a memory, and the like, and captures image data for one screen displayed on the image display unit 47 from an OS that operates the learner's terminal device 40. The image capture processing unit 42 divides image data for one screen in a predetermined division unit, compresses the image for each division unit, adds display position information, and, for example, 1 per second via the transmission / reception processing unit 41. Image data for up to two screens is transmitted to the network 20.
[0049]
The operation input unit 43 includes a keyboard and a pointing device such as a mouse, a trackball, and a pen. The operation input unit 43 performs operations such as key input and image drawing, and a cursor displayed on the image display unit 47. ing. Further, the operation input unit 43 can mark the image transferred from the teacher terminal device 30 or the other learner terminal device 40 and displayed on the image display unit 47 by operating the cursor. It has become.
[0050]
The event processing unit 44 is configured by a microprocessor, a memory, and the like, acquires a signal operated by the operation input unit 43, and outputs the acquired operation signal to the transmission / reception processing unit 41 and the transfer operation GUI unit 46. ing. Also, the event processing unit 44 receives an operation signal operated for remote operation in another terminal device via the transmission / reception processing unit 41 by TCP communication based on the first communication protocol, and performs a transfer operation GUI unit 46. To output.
[0051]
The image drawing processing unit 45 includes a microprocessor, a memory, and the like. After the divided image data received by the transmission / reception processing unit 41 by multicast communication based on UDP is expanded for each division unit, the image data is processed based on the display position information. It is to be stored in the memory.
[0052]
The transfer operation GUI unit 46 includes a microprocessor, a memory, and the like, and displays images such as predetermined windows and icons on the image display unit 47 and causes the operation input unit 43 to process them. The transfer operation GUI unit 46 displays characters, symbols, cursors, and the like on the image display unit 47 based on the operation signal output from the event processing unit 44.
[0053]
The image display unit 47 is configured by a liquid crystal display, for example, and displays an image drawn by the image drawing processing unit 45 and images such as windows and icons displayed by the transfer operation GUI unit 46. In addition, you may comprise the image display part 47 with the liquid crystal display provided with the touch panel.
[0054]
As shown in FIG. 4, the control device 50 includes a transmission / reception processing unit 51 that communicates with the network 20 based on TCP, a data storage unit 52 that stores data, an operation input unit 53 that inputs an operation signal, and an operation input. An event processing unit 54 that processes an operation signal output from the unit 53, a system control GUI unit 55 that displays a predetermined image on the image display unit 56 and controls the system on the operation input unit 53, and an image And an image display unit 56.
[0055]
The transmission / reception processing unit 51 includes a data transmission / reception circuit, a microprocessor, a memory, and the like, and has a unique address on the network 20. The transmission / reception processing unit 51 communicates with a device connected to the network 20 by a communication control command based on TCP. The transmission / reception processing unit 51 divides the communication control command into packets having a predetermined data size and communicates with other devices.
[0056]
The data storage unit 52 includes a hard disk drive, a magneto-optical disk drive, and the like, and stores learner information, process priority setting data, class image data, and the like.
[0057]
Here, the learner information refers to information such as a user ID, a password, a name, and face photo data of a learner who uses the learner's terminal device 40. The process priority setting data refers to data for setting a predetermined process priority. The class image data refers to image data used by teachers in class. The data storage unit 52 includes a database that recognizes the user of the learner's terminal device 40 based on the user ID and password input by the learner and can acquire information such as the user's name and face photo data. ing.
[0058]
The operation input unit 53 includes a keyboard and a pointing device such as a mouse, a trackball, and a pen, and performs key input and image drawing.
[0059]
The event processing unit 54 includes a microprocessor, a memory, and the like, acquires a signal operated by the operation input unit 53, and outputs the signal to the system control GUI unit 55. In addition, the event processing unit 54 outputs the operation signal received by the transmission / reception processing unit 51 to the system control GUI unit 55.
[0060]
The system control GUI unit 55 is configured by a microprocessor, a memory, and the like, and displays images such as predetermined windows and icons on the image display unit 56 and causes the operation input unit 53 to process them. In addition, the system control GUI unit 55 displays characters, symbols, cursors, and the like on the image display unit 56 based on the operation signal output from the event processing unit 54. Further, the system control GUI unit 55 acquires the operation information of the OS in the terminal device to which the divided image data is transferred or transferred, and processes the divided image data transferred or transferred based on the OS operation information. The priority of the process related to is set.
[0061]
Here, the process related to the processing of the transferred or transferred divided image data means that the terminal device to which the divided image data is transferred or transferred displays an image based on the divided image data after receiving the divided image data. This is a process that is executed at the same time from when the image data for one screen is captured to when it is sent to the network (hereinafter simply referred to as a reception display process or an image data transmission process). The reception display process includes an image data reception process, an image data expansion process, and an image data display process. The image data transmission process includes an image data capture process, an image data division process, an image data compression process, and an image data transmission process.
[0062]
The OS that operates the teacher terminal device 30 and the learner terminal device 40 has a scheduler that processes a process having a high priority first. The system control GUI unit 55 changes the priority of the reception display process with reference to the scheduler so that the divided image data to be transferred is received without fail, and the processing of the received divided image data is efficient. The teacher terminal device 30 and the learner terminal device 40 are controlled to be executed.
[0063]
The image display unit 56 is configured by a liquid crystal display, for example, and displays images such as windows and icons drawn by the system control GUI unit 55. In addition, you may comprise the image display part 56 with the liquid crystal display provided with the touch panel.
[0064]
Next, the operation of the image data transfer system 10 of the present embodiment will be described based on the two marking processing procedures shown in FIGS. 5 (a) and 5 (b).
[0065]
FIG. 5A shows an outline of the first marking processing procedure. The image displayed on the learner's terminal device 40a is transferred to the teacher's terminal device 30, and the teacher's terminal device 30 performs the marking process. After the application, it is transferred to all the terminal devices 40 for learners.
[0066]
On the other hand, FIG. 5B shows an outline of the second marking processing procedure. The image displayed on the learner's terminal device 40a is transferred to the teacher's terminal device 30, and the marking in the teacher's terminal device 30 is performed. An operation signal is transmitted to the learner's terminal device 40a, the marking process is performed in the learner's terminal device 40a, and image data including the marking is transferred to the teacher's terminal device 30 and all the learner's terminal devices 40. It is.
[0067]
First, the first marking processing procedure will be described.
[0068]
6, first, a selection image for selecting a terminal device is drawn by the system control GUI unit 55 and displayed on the image display unit 56 (step S11). Next, the operation input unit 53 designates a transfer source and transfer destination terminal device to which the image data is transferred (step S12).
[0069]
Here, the learner's terminal device 40a is designated as the transfer source terminal device, and the target image data to be marked is the image data of the image displayed on the learner's terminal device 40a. Also, the teacher terminal device 30 is designated as the transfer destination terminal device.
[0070]
Subsequently, the learner whose image data transfer instruction command is the transfer source terminal device by TCP based on the designation signal designating the transfer source terminal device received by the system control GUI unit 55 via the event processing unit 54 The image data reception instruction command is transmitted to the teacher terminal device 30 which is the transfer destination terminal device by TCP (step S13). Here, multicast IP (Internet Protocol) address information of the teacher terminal device 30 is transmitted to the learner terminal device 40a by a communication control command based on TCP.
[0071]
Then, the image data transfer process (step S14) in FIG. 6 is executed by the process shown in FIG.
[0072]
In FIG. 7, first, image data displayed on the image display unit 47 is captured from the OS by the image capture processing unit 42 of the learner's terminal device 40a (step S21). Subsequently, the image capture processing unit 42 divides the image data into predetermined division units, for example, every 16 kilobytes (step S22). Further, the divided image data divided by the image capture processing unit 42 is compressed for each division unit by, for example, JPEG (Joint Photographic Coding Experts Group) method (step S23). Thereafter, display position information is added for each division unit (step S24).
[0073]
Then, the transmission / reception processing unit 41 transfers the divided image data image-compressed for each division unit by multicast communication based on UDP to the teacher terminal device 30 designated by the multicast IP address (step S25). At this time, information on the user of the learner terminal device 40 a is transmitted to the teacher terminal device 30 by the system control GUI unit 55.
[0074]
Subsequently, the image data reception process (step S15) of FIG. 6 is executed by the process shown in FIG.
[0075]
In FIG. 8, first, the transmission / reception processing unit 31 of the teacher terminal device 30 receives the divided image data transferred by multicast communication (step S31). Next, the image drawing processing unit 35 decompresses the divided image data for each division unit (step S32), acquires image display position information, and determines the image display position (step S33). Further, the image drawing processing unit 35 stores the image data in the memory (step S34).
[0076]
Then, the image data stored in the memory is read out by the image display unit 37, and an image displayed on the learner's terminal device 40 a and a window showing the name of the user, a face photograph, etc. are displayed on the image display unit 37. Displayed (step S35), the process proceeds to step S16 shown in FIG. Note that the teacher can move the window representing the user's name, face photograph, and the like to an arbitrary position by operating the operation input unit 33.
[0077]
Subsequently, the operation input unit 33 marks the image displayed on the image display unit 37 (step S16). Next, the operation input unit 53 designates a transfer source and transfer destination terminal device to which image data is transferred (step S17). Further, the system control GUI unit 55 transmits an image data transfer instruction command to the teacher terminal device 30 which is a transfer source terminal device by TCP, and the image data reception instruction command is transferred to the transfer destination terminal device by TCP. It is transmitted to a certain learner's terminal device 40a-40n (step S18). Here, the multicast IP address information of the learner terminal devices 40a to 40n is transmitted to the teacher terminal device 30 by a communication control command based on TCP.
[0078]
Further, the above-described image data transfer process is executed with the teacher terminal device 30 as the transfer source terminal device and all the learner terminal devices 40 as the transfer destination terminal devices (step S19). Then, the above-described image data reception process is executed with all the learner's terminal devices 40 as transfer destination terminal devices (step S20).
[0079]
As described above, the divided image data including the marking transmitted from the teacher terminal device 30 is simultaneously transferred to all the learner terminal devices 40 by multicast communication based on UDP, and the image display of the teacher terminal device 30 is performed. An image synchronized with the image displayed on the unit 37 is displayed on the image display unit 47 of all the learner terminal devices 40.
[0080]
Next, the second marking processing procedure will be described.
[0081]
In FIG. 9, first, a selection image for selecting a terminal device is drawn by the system control GUI unit 55 and displayed on the image display unit 56 (step S41). Next, the operation input unit 53 designates the transfer source and transfer destination terminal devices to which the image data is transferred (step S42).
[0082]
Here, the learner's terminal device 40a is designated as the transfer source terminal device, and the target image data to be marked by the remote operation of the teacher's terminal device 30 is the image displayed on the learner's terminal device 40a. Image data. In addition, the teacher terminal device 30 and the learner terminal devices 40b to 40n are designated as transfer destination terminal devices.
[0083]
Subsequently, the learner whose image data transfer instruction command is the transfer source terminal device by TCP based on the designation signal designating the transfer source terminal device received by the system control GUI unit 55 via the event processing unit 54 The image data reception instruction command is transmitted to the teacher terminal device 30 which is the transfer destination terminal device by TCP (step S43). Here, the multicast IP address information of the teacher terminal device 30 is transmitted to the learner terminal device 40a by a communication control command based on TCP.
[0084]
Subsequently, the image data transfer process described above is executed with the learner terminal device 40a as the transfer source terminal device and the teacher terminal device 30 as the transfer destination terminal device (step S44). Further, the above-described image data receiving process is executed using the teacher terminal device 30 as the transfer destination terminal device (step S45).
[0085]
Then, the marking process (step S46) of FIG. 9 is executed by the process shown in FIG.
[0086]
In FIG. 10, first, the operation input unit 33 marks the image displayed on the image display unit 37 (step S51). Next, the transmission / reception processing unit 31 transmits the marking operation signal acquired by the event processing unit 34 to the event processing unit 44 of the learner's terminal device 40a based on, for example, TCP (step S52). Then, the event processing unit 44 displays the marking on the image display unit 47 based on the received operation signal (step S53).
[0087]
Next, the operation input unit 53 designates a transfer source and transfer destination terminal device to which the image data is transferred (step S54). Further, the learner whose image data transfer instruction command is the transfer source terminal device by TCP based on the designation signal designating the transfer source terminal device received by the system control GUI unit 55 via the event processing unit 54. The image data reception instruction command is transmitted to the learner terminal devices 40b to 40n, which are the transfer destination terminal devices (step S55). Here, the multicast IP address information of the learner terminal devices 40b to 40n is transmitted to the learner terminal device 40a by a communication control command based on TCP.
[0088]
Subsequently, the above-described image data transfer processing is executed with the learner terminal device 40a as the transfer source terminal device and the teacher terminal device 30 and the learner terminal devices 40b to 40n as the transfer destination terminal devices (steps). S56). Further, the above-described image data reception process is executed using the teacher terminal device 30 and the learner terminal devices 40b to 40n as the transfer destination terminal devices (step S57).
[0089]
Then, the transfer operation GUI unit 36 determines whether or not the marking is finished (step S58). When it is judged that the marking is finished, the process is finished, and when the marking is not judged to be finished. Returns to step S51.
[0090]
Next, the priority control processing of the reception display process executed by the system control GUI unit 55 by the communication control command based on TCP will be described with reference to FIG. In the first marking processing procedure described above, a case where all the learner terminal devices 40 receive the image data after the marking processing will be described. The priority control process of the reception display process is executed at the start of the image data reception process in step S20 described above in all the learner terminal devices 40 that are the transfer destinations of the image data.
[0091]
In FIG. 11, first, the initial value of the priority of the reception display process is set based on the process priority setting data read in advance from the data storage unit 52 (step S61). When the process priority is set in 32 stages from 0 to 31 in which the priority increases as the numerical value increases, the priority of each process included in the reception display process is initially set to 16, for example. Note that a priority setting window may be displayed on the system control GUI unit 55, and the priority of the reception display process may be initially set by the operation of the operation input unit 53.
[0092]
Subsequently, OS operation information is acquired for each learner's terminal device 40 by referring to the OS scheduler (step S62).
[0093]
Subsequently, it is determined whether or not to change the priority of the reception display process based on the operation information of the OS (step S63). If it is determined that the priority of the reception display process is to be changed, the priority of the reception display process is changed to a value higher or lower than the current priority (step S64). For example, when giving priority to the image data reception process, the priority of the image data reception process is changed to a value higher than the current value.
[0094]
When changing the priority of the reception display process, the priority of each process included in the reception display process may be changed for each process, or the priority of all the processes included in the reception display process may be changed at once. May be set to the same priority.
[0095]
On the other hand, if it is not determined in step S63 that the priority of the reception display process is to be changed, the process returns to step S62.
[0096]
Then, it is determined whether or not the reception of the image data has ended (step S65). If it is determined that the reception of the image data has ended, the priority control process of the reception display process is ended and the reception of the image data is completed. If it is not determined that has ended, the process returns to step S62.
[0097]
In addition, as shown in FIG. 12, it is good also as a structure provided with the control apparatus 60 comprised by integrating the above-mentioned teacher terminal device 30 and the control apparatus 50, and comprised with one personal computer. With this configuration, the teacher can perform lessons and transfer control of image data with a single computer.
[0098]
The above-described TCP and UDP are examples for explaining the present embodiment, and the first communication protocol and the second communication protocol are not limited to TCP and UDP, respectively. Further, the divided image data may be transferred to a specific terminal device by unicast communication instead of multicast communication.
[0099]
The operation input unit 33 or the operation input unit 43 constitutes an operation unit. The image drawing processing unit 35 or the image drawing processing unit 45 constitutes an image expansion unit. The image display unit 37 or the image display unit 47 constitutes an image display unit. The image capture processing unit 32 or the image capture processing unit 42 constitutes an image data capturing unit, a terminal side image data capturing unit, a control side image data capturing unit, and an image compression unit. The system control GUI unit 55 constitutes transfer control means and priority control means. The transmission / reception processing unit 31 or the transmission / reception processing unit 41 constitutes communication means and terminal-side communication means, and the transmission / reception processing unit 51 constitutes control-side communication means.
[0100]
As described above, according to the image data transfer system 10 of the present embodiment, the transmission / reception processing unit 31 and the transmission / reception processing unit 41 communicate with each terminal device connected to the network 20 by a communication control command based on TCP, Since the divided image data is transmitted and received by multicast communication based on UDP, the terminal devices can be connected by a single cable, and the image data obtained by marking the image displayed on the predetermined terminal device It can be transferred to other terminal devices at a low cost.
[0101]
Further, according to the image data transfer system 10 of the present embodiment, the image capture processing unit 32 and the image capture processing unit 42 are configured to divide the image data for each predetermined division unit. It is possible to make the image data packet 37 less likely to be affected by the loss of the image data packet, and to reduce the disturbance of the images displayed on the image display unit 37 and the image display unit 47.
[0102]
Furthermore, according to the image data transfer system 10 of the present embodiment, the image capture processing unit 32 and the image capture processing unit 42 transmit the image-compressed divided image data to the network 20, thereby reducing the load on the network 20. can do.
[0103]
Furthermore, according to the image data transfer system 10 of the present embodiment, the teacher terminal device 30 and the control device 50 can be configured by one or two personal computers, so the system configuration is determined flexibly. be able to.
[0104]
Note that the present invention is not limited to the combination of the transfer source and transfer destination terminal devices in the description of the operation of the image data transfer system 10 of the present embodiment. For example, when the transfer source terminal device is one of the learner terminal devices 40 and the transfer destination terminal device is another one of the learner terminal devices 40 or a plurality of learner terminal devices 40, the above-described effects can be obtained. Similar effects can be obtained.
[0105]
【The invention's effect】
As described above, according to the present invention, terminal devices can be connected by a single cable, and image data obtained by marking an image displayed on a predetermined terminal device can be reduced to other terminal devices. An image data transfer system that can be transferred at a cost can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram of an image data transfer system according to an embodiment of the present invention.
FIG. 2 is a block diagram of the teacher terminal device according to the embodiment of the present invention.
FIG. 3 is a block diagram of the learner's terminal device according to the embodiment of the present invention.
FIG. 4 is a block diagram of a control device according to the embodiment of the present invention.
FIG. 5A is an explanatory diagram of a first marking processing procedure.
(B) Explanatory drawing of the second marking processing procedure
FIG. 6 is a flowchart of a first marking processing procedure.
FIG. 7 is a flowchart of image data transfer processing.
FIG. 8 is a flowchart of image data reception processing.
FIG. 9 is a flowchart of a second marking processing procedure.
FIG. 10 is a flowchart of marking processing.
FIG. 11 is a flowchart of process priority control processing;
FIG. 12 is a block diagram showing an example in which the teacher terminal device 30 and the control device 50 are configured by a single personal computer.
[Explanation of symbols]
10 Image data transfer system
20 network
30 Teacher terminal device (terminal device)
31, 41 Transmission / reception processing unit (communication means, terminal side communication means)
51 Transmission / reception processor (control-side communication means)
32, 42 Image capture processing unit (image data capturing means, terminal-side image data capturing means, control-side image data capturing means, image compression means)
33, 43 Operation input unit (operation means)
53 Operation input section
34, 44, 54 Event processing section
35, 45 Image drawing processing unit (image expansion means)
36, 46 Transfer operation GUI section
37, 47 Image display unit (image display means, terminal-side image display means)
56 Image display section (control-side image display means)
40 Terminal device for learner (terminal device)
50, 60 control device
52 Data storage
55 System control GUI section (transfer control means, priority control means)

Claims (11)

An image display means for displaying an image, an operation means for displaying a cursor on the image display means, and operating the cursor, and capturing a plurality of divided images in a predetermined division unit by capturing image data including the locus of the cursor Image data capturing means for dividing the data into data, communication with a network based on a first communication protocol including an error correction procedure in data communication, and the divided image data based on a second communication protocol not including the error correction procedure And a communication means for transmitting and receiving the terminal device. An image display means for displaying an image, an operation means for displaying a cursor on the image display means, and operating the cursor, and capturing a plurality of divided images in a predetermined division unit by capturing image data including the locus of the cursor Image data capturing means for dividing the data into data, communication with a network based on a first communication protocol including an error correction procedure in data communication, and the divided image data based on a second communication protocol not including the error correction procedure And a communication unit that transmits and receives an operation signal of the operation unit based on a predetermined communication protocol. A terminal device connected to the network and a control device for controlling the transfer of image data;
The terminal device includes an image display unit that displays an image, a cursor displayed on the image display unit, an operation unit that operates the cursor, and data of an image that includes the locus of the cursor to capture a predetermined division unit. And a second communication protocol that does not include the error correction procedure, communicating with the network based on a first communication protocol that includes an error correction procedure in data communication, and an image data capturing unit that divides the image data into a plurality of divided image data. Terminal side communication means for transmitting and receiving the divided image data based on,
The image data transfer characterized in that the control device comprises a control side communication means for communicating with the terminal device based on the first communication protocol, and a transfer control means for controlling the transfer of the divided image data. system. A terminal device connected to the network and a control device for controlling the transfer of image data;
The terminal device includes an image display unit that displays an image, a cursor displayed on the image display unit, an operation unit that operates the cursor, and data of an image that includes the locus of the cursor to capture a predetermined division unit. And a second communication protocol that does not include the error correction procedure, communicating with the network based on a first communication protocol that includes an error correction procedure in data communication, and an image data capturing unit that divides the image data into a plurality of divided image data. And the terminal side communication means for transmitting and receiving the operation signal of the operation means based on a predetermined communication protocol, while transmitting and receiving the divided image data based on,
The image data transfer characterized in that the control device comprises a control side communication means for communicating with the terminal device based on the first communication protocol, and a transfer control means for controlling the transfer of the divided image data. system. The terminal device includes image compression means for compressing the divided image data for each division unit, and image expansion means for expanding the image-compressed divided image data for each division unit. The image data transfer system according to claim 3 or 4. The control device includes priority control means for controlling priority of a process related to processing of the divided image data in the terminal device to which the divided image data has been transferred according to a predetermined condition. The image data transfer system according to any one of claims 3 to 5. A terminal device connected to the network and a control device for controlling the transfer of image data;
The terminal device captures image data including a terminal-side image display means for displaying an image, a cursor on the terminal-side image display means, a terminal-side operation means for operating the cursor, and a locus of the cursor. A terminal-side image data capturing unit that divides the image data into a plurality of divided image data in a predetermined division unit, and communicates with the network based on a first communication protocol including an error correction procedure in data communication. Terminal-side communication means for transmitting and receiving the divided image data based on a second communication protocol not included,
The control device captures image data including a control-side image display unit that displays an image, a cursor on the control-side image display unit, a control-side operation unit that operates the cursor, and a locus of the cursor And a control-side image data capturing unit that divides the image data into a plurality of divided image data in the division unit, and communicates with the network based on the first communication protocol, and the divided image data based on the second communication protocol. An image data transfer system comprising: a control-side communication unit that transmits and receives the image data; and a transfer control unit that controls transfer of the divided image data. A terminal device connected to the network and a control device for controlling the transfer of image data;
The terminal device captures image data including a terminal-side image display means for displaying an image, a cursor on the terminal-side image display means, a terminal-side operation means for operating the cursor, and a locus of the cursor. A terminal-side image data capturing unit that divides the image data into a plurality of divided image data in a predetermined division unit, and communicates with the network based on a first communication protocol including an error correction procedure in data communication. A terminal-side communication unit that transmits and receives the divided image data based on a second communication protocol not included, and transmits and receives an operation signal of the terminal-side operation unit based on a predetermined communication protocol,
The control device captures image data including a control-side image display unit that displays an image, a cursor on the control-side image display unit, a control-side operation unit that operates the cursor, and a locus of the cursor Then, control-side image data capturing means for dividing the divided image data into a plurality of divided image data, communicates with a network based on the first communication protocol, and converts the divided image data based on the second communication protocol. An image comprising: a control-side communication unit that transmits and receives and transmits / receives an operation signal of the control-side operation unit based on a predetermined communication protocol; and a transfer control unit that controls transfer of the divided image data Data transfer system. The terminal device and the control device include: an image compression unit that compresses the divided image data for each division unit; and a terminal-side image expansion unit that decompresses the image-compressed divided image data for each division unit. The image data transfer system according to claim 7 or 8, further comprising: The control device includes priority control means for controlling priority of a process related to processing of the divided image data in the terminal device to which the divided image data is transferred and the control device in accordance with a predetermined condition. 10. The image data transfer system according to claim 7, wherein the image data transfer system is any one of claims 7 to 9. The image according to any one of claims 3 to 10, wherein the image display means displays user information of a terminal device that is a transfer source of the image data transferred by the transfer control means. Data transfer system.

Images