JP5569046B2 - Screen transfer type thin client system, server, image transfer control method and program - Google Patents

Description

  The present invention relates to a screen transfer type thin client system, and more particularly to a screen transfer type thin client system, a server, an image transfer control method and a program capable of efficiently transferring color image data.

  In recent years, a thin client system in which a client environment is integrated on a server has attracted attention from the viewpoint of security. A thin client system is a system that does not place data or applications on the terminal side, connects to a server, and performs necessary data processing on the server side.

  There are various thin client system implementation methods. Among them, as shown in Patent Document 1, an image transfer type thin client system in which an application is executed on a server and only an application screen is exchanged with a client terminal is widely known. It is being done. The implementation method refers to a system architecture method.

  In the screen transfer type thin client system, obtaining the optimum quality and drawing performance according to the network load is an important issue. To solve this issue, the server sends a transmission time measurement packet to the client. Japanese Patent Application Laid-Open No. 2004-133867 discloses a technique for measuring a delay by sending, determining the number of display colors according to the delay, and notifying a client for switching.

  However, the related technique described in Patent Document 1 has a problem that the number of display colors cannot be dynamically changed according to the load state of the network.

  In order to solve this problem, a color image data transfer system as disclosed in Patent Document 2 has been proposed as a related technique. According to the color image transfer system described in Patent Document 2, a survey packet for measuring a transmission time is transferred from a server to a client terminal, and a packet transfer required period necessary for the transfer of the survey packet is calculated at regular intervals. Thus, since the network load status is investigated, the number of colors of the color image data (data transfer amount) can be dynamically changed according to the network load status.

Japanese Patent No. 3132482 JP 2008-234389 A JP 2007-312089 A

  However, the related technology described in Patent Document 2 determines the number of colors of color image data only based on the network load state, and the amount of transfer data to be transferred to the client terminal even when the network load is low When (the amount of data waiting for transfer) is large, there is a problem that it takes time to transfer color image data.

(Object of invention)
The present invention solves the above-described problems and efficiently changes color image data by dynamically changing the number of colors of color image data to be transferred based on both the network load state and the amount of data waiting to be transferred. To provide a transferable screen transfer type thin client system, a server, an image transfer control method, and a program.

  A first image transfer type thin client system according to the present invention includes a server that transmits color image data, and a client terminal that is connected to the server via a network and receives color image data. And the total load determination means for determining the total load based on the amount of data waiting to be transferred to the client terminal, and the number of colors of the color image data to be transferred is changed based on the determination by the total load determination means A color number changing unit that transmits a change notification to the client terminal, and the client terminal changes the display color number on the display based on the color number change notification receiving unit that receives the color number change notification and the color number change notification. Display color number control means.

  A first server of the present invention is a server of an image transfer type thin client system including a server that transmits color image data, and a client terminal that is connected to the server via a network and receives color image data. A total load determining means for determining a total load based on the load of the client and the amount of data waiting to be transferred to the client terminal, and based on the determination by the total load determining means, changing the number of colors of the color image data to be transferred, Color number changing means for transmitting a color number change notification to the client terminal.

  The first image transfer control method of the present invention is an image transfer control by an image transfer type thin client system including a server that transmits color image data and a client terminal that is connected to the server via a network and receives color image data. A method in which a server determines a total load based on a network load and a data amount waiting to be transferred to a client terminal, and a color to be transferred based on the determination in the total load determination step. A color number change step of changing the number of colors of the image data and transmitting a color number change notification to the client terminal, and the client terminal receiving the color number change notification receiving step of receiving the color number change notification; There is a display color number control step of changing the display color number of the display based on the notification.

  A first program of the present invention is a program that operates on a server that transmits color image data and a client terminal that is connected to the server via a network and receives color image data. And the total load determination process for determining the total load based on the amount of data waiting to be transferred to the client terminal, and the number of colors of the color image data to be transferred is changed based on the determination by the total load determination process. The color number change process for transmitting the change notification to the client terminal is executed, and the color number change notification receiving process for receiving the color number change notification to the client terminal and the display color number on the display based on the color number change notification The display color number control process for changing is executed.

  A second program of the present invention is a computer that constitutes a server of an image transfer type thin client system that includes a server that transmits color image data and a client terminal that is connected to the server via a network and receives color image data. Comprehensive load determination processing for determining the total load based on the network load and the amount of transfer data indicating the amount of data waiting to be transferred to the client terminal, and the total load determination processing A program for executing a color number change process for changing the number of colors of color image data to be transferred and transmitting a color number change notification to the client terminal based on the determination by the user.

  According to the present invention, since the number of colors of color image data to be transferred is dynamically changed based on both the network load state and the amount of data waiting to be transferred, the color image data can be efficiently transferred. Become.

It is a block diagram which shows the structure of the image transfer type | mold thin client system by the 1st Embodiment of this invention. It is a flowchart which shows the operation | movement of calculation of the packet transfer required time T by 1st Embodiment. It is a flowchart which shows the operation | movement of the image color number control by 1st Embodiment. It is a flowchart which shows the operation | movement of the determination process of the network load by 1st Embodiment. 6 is a flowchart illustrating an operation of processing for determining a transfer data amount according to the first embodiment. It is a flowchart which shows the operation | movement of the determination of the comprehensive load by the 1st Embodiment, and the number change notification process. It is a block diagram which shows the hardware structural example of the server of this invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. In all the drawings, similar constituent elements are denoted by the same reference numerals, and description thereof will be omitted as appropriate.

(First embodiment)
First, a first embodiment of the present invention will be described in detail with reference to the drawings. In the following drawings, the configuration of parts not related to the essence of the present invention is omitted and is not shown.

  FIG. 1 is a block diagram showing a configuration of a screen transfer type thin client system 100 according to this embodiment. Referring to FIG. 1, an image transfer method thin client system 100 according to the present embodiment includes a client terminal 10 and a server 20. A display 30 is connected to the client terminal 10. In addition, the server 20 and the client terminal 10 are bidirectionally connected by a network, and can exchange data.

  The server 20 includes a network load investigation unit 21 that investigates the network load, and a terminal service 22 that controls the number of colors of color image data by calculating the transfer data amount and performing a comprehensive load determination.

  The network load examining unit 21 includes a survey packet transmitting unit 210 that transmits a survey packet for examining a network load, a response packet receiving unit 211 that receives a response packet to the survey packet, and a time required for transferring the survey packet. Transfer time calculating means 212 for calculating and transmission time storing means 213 for recording the transmission time of the investigation packet are provided.

  The survey packet transmission unit 210 has a function of transmitting a survey packet for measuring the transmission time to the client terminal 10 in order to investigate the network load.

  Further, the packet transmission unit 210 has a function of recording the transmission time in the transmission time storage unit 213 when the survey packet is transmitted.

  The response packet receiving unit 211 has a function of receiving a response packet from the client terminal 10 for the survey packet.

  The transfer time calculation unit 212 required transfer of the survey packet from the survey packet transmission time recorded in the transmission time storage unit 213 and the survey packet reception time written in the response packet received from the client terminal 10. It has a function of calculating the required packet transfer time T.

  The transfer time calculation unit 212 has a function of notifying the terminal service 22 of the calculated packet transfer required time T.

  The survey transmission time storage unit 213 has a function of recording the time when the survey packet is transmitted.

  The terminal service 22 performs communication load 220, network load determination means 221 for determining network load, transfer data amount determination means 222 for determining transfer data amount, and comprehensive load determination based on network load and transfer data amount. Comprehensive load determination means 223 for performing, and color number changing means 224 for changing the number of colors of the color image data and transmitting a notification to that effect (hereinafter referred to as color number change notification). The terminal service 22 has a remote desktop function.

  The communication buffer 220 is a buffer area for transmitting and receiving data.

  The network load determination unit 221 has a function of determining the network load from the packet transfer required time T received from the network investigation unit 21.

  The network load determining unit 221 determines that the network load is low when the packet transfer required time T is less than a preset lower threshold.

  The network load determination unit 221 determines that the network load is high when the packet transfer required time T is larger than a preset upper limit threshold.

  Further, the network load determination unit 221 determines that the network load is medium when the packet transfer required time T is equal to or greater than the lower limit threshold and equal to or less than the upper limit threshold.

  The network load determination unit 221 has a function of adding a predetermined value to the total load determination parameter for determining the total load state according to the determined network load state. Details will be described in the description of the operation.

  The transfer data amount determination unit 222 has a function of calculating the transfer data amount D of the communication buffer 220 and determining the transfer data amount.

  The transfer data amount determination unit 222 determines that the transfer data amount is small when the transfer waiting data amount D is less than a preset lower limit threshold.

  Further, the transfer data amount determination unit 222 determines that the transfer data amount is large when the transfer waiting data amount D is larger than a preset upper limit threshold.

  Further, the transfer data amount determination unit 222 determines that the transfer data amount is medium when the transfer waiting data amount D is equal to or greater than the lower limit threshold and equal to or less than the upper limit threshold.

  The transfer data amount determination unit 222 has a function of adding a predetermined value to the above-described total load determination parameter according to the transfer data amount. Details will be described in the description of the operation.

  The total load determination unit 223 has a function of performing a total load determination based on the value of the total load determination parameter.

  The total load determination unit 223 determines that the total load is low when the value of the total load determination parameter is less than a preset lower limit threshold.

  The total load determination unit 223 determines that the total load is high when the value of the total load determination parameter is larger than a preset upper limit threshold.

  The total load determination unit 223 determines that the total load is medium when the value of the total load determination parameter is equal to or higher than the lower limit threshold and equal to or lower than the upper limit threshold.

  The color number changing unit 224 has a function of changing the number of colors of color image data to a predetermined number of colors based on the total load determined by the total load determining unit 223.

  In addition, the color number changing unit 224 has a function of transmitting the change to the client terminal 10 as a color number change notification together with the change in the number of colors.

  The client terminal 10 includes a packet transmission / reception unit 11 that transmits and receives a packet for network load investigation with the server 20, a terminal service client 12 that performs processing for a color number change notification from the server 20, an OS (Operating System) 13, And a display driver 14.

  The packet transmitting / receiving unit 11 includes a survey packet receiving unit 110 that receives a survey packet from the server 20, a response packet transmitting unit 111 that transmits a response packet to the survey packet, and a reception time storage unit that stores the reception time of the survey packet. 112.

  The survey packet receiving unit 110 has a function of recording the reception time in the reception time storage unit 112 when receiving the survey packet.

  The response packet transmission unit 111 has a function of transmitting a response packet in which the reception time recorded in the reception time storage unit 112 is written to the server 20.

  The reception time storage unit 112 has a function of recording the time when the survey packet is received.

  The terminal service client 12 includes a communication buffer 120, a color number change notification receiving unit 121 that receives a color number change notification, and a display color number control unit 122 that instructs the OS 13 to change the color number.

  The communication buffer 120 is a buffer area for transmitting and receiving data.

  The color number change notification receiving unit 121 has a function of receiving a color number change notification transmitted from the server 20.

  The display color number control unit 122 has a function of instructing the OS 13 to change the color number based on the color number change notification.

  The display driver 14 is software for using a display on a computer, and is a device triber necessary for the OS 13 to control a display adapter (video card).

  Since the OS 13 and the display 30 are well known to those skilled in the art of the present invention and are not directly related to the present invention, the details thereof are omitted.

(Description of the operation of the first embodiment)
Next, the operation of the image transfer type thin client system 100 according to the present embodiment will be described in detail with reference to the drawings.

  First, the initial setting will be described. The system administrator determines parameter values a, b, c, d, e, f and T (a), T (b), D (c), D for determining the necessity of changing the number of colors of color image data. (D) is set in advance. In addition, a load point P is prepared as an overall load determination parameter for determining an overall load.

  The parameter a and the parameter b are threshold values used by the network load determining unit 221 to determine the network load by comparing with the packet transfer required time T. The parameter a is a lower limit threshold for determining whether the network load is low, and the parameter b is an upper limit threshold for determining whether the network load is high.

  That is, the network load determination unit 221 determines that the network load is high if T> b, determines that the network load is medium if a ≦ T ≦ b, and determines that the network load is low if T <a.

  The parameter c and the parameter d are threshold values used by the transfer data amount determination unit 222 to determine the transfer data amount in comparison with the transfer waiting data amount D. The parameter c is a lower limit threshold for determining whether or not the transfer data amount is low, and the parameter d is an upper limit threshold for determining whether or not the transfer data amount is high.

  That is, the transfer data amount judging means 222 determines that the transfer data amount is large if D> d, determines that the transfer data amount is medium if c ≦ D ≦ d, and determines that the transfer data amount is small if D <c. To do.

  The parameter T (a) and the parameter T (b) are constant values that the network load determination unit 221 adds to the load point P according to the network load situation. When the network load determination means 22 determines that the network load is high (T> b), the parameter T (b) is added to the load point P, and when the network load is determined to be medium (a ≦ T ≦ b) ) Adds the parameter T (a) to the load point P.

  The parameter T (c) and the parameter T (d) are constant values that the transfer data amount determination unit 222 adds to the load point P according to the transfer data amount. When the transfer data amount determining unit 222 determines that the transfer data amount is large (D> d), the parameter T (d) is added to the load point P, and when the transfer data amount is determined to be medium (c ≦ D ≦ d) adds the parameter T (c) to the load point P.

  The parameters T (a), T (b), T (c), and T (d) can be arbitrarily set depending on the ratio of the network load and the amount of transfer data in the overall load determination. It is. For example, when the network load and the amount of transfer data are equally emphasized, the parameter T (a) and the parameter T (c), and the parameter T (b) and the parameter T (d) have the same value. Of course, the relationship of T (a) ≦ T (b) and T (c) ≦ T (d) is established.

  The parameter e and the parameter f are threshold values used by the total load determining unit 223 to determine the total network load compared to the load point P. The parameter e is a lower limit threshold for determining whether or not the overall network load is low, and the parameter f is an upper limit threshold for determining whether or not the overall network load is high.

  That is, the total load determining means 223 determines that the total load is high if P> f, determines that the total load is medium if e ≦ P ≦ f, and if P <e, the total load is low. Judge.

(Description of operation for calculating packet transfer required time T)
Next, the operation for calculating the packet transfer required time T will be described with reference to FIG. FIG. 2 is a flowchart showing the operation of calculating the packet transfer required time T according to this embodiment. The operation described below is based on the premise that the client terminal 10 is connected to the server 20 and uses the remote desktop function of the terminal service 22. However, it is not limited to this.

  First, the survey packet transmitting unit 210 transmits a survey packet for investigating the network load to the client terminal 10 (step S201). At this time, the survey packet transmission unit 210 records the survey packet transmission time in the transmission time storage unit 213 (step S202).

  Next, when the survey packet receiving unit 110 of the client terminal 10 receives the survey packet (step S203), the survey packet receiving unit 110 records the survey packet reception time in the reception time storage unit 112 (step S204).

  Next, the response packet transmission unit 111 transmits the response packet in which the reception time recorded in the reception time storage unit 112 is written to the server 20 (step S205).

  Next, when the response packet receiving unit 211 receives the response packet (step S206), the transfer time calculating unit 212 checks the survey packet transmission time recorded in the transmission time storage unit 213 and the survey packet written in the response packet. Based on the reception time, a packet transfer required time T required to transfer the investigation packet is calculated (step S207).

  Next, the response packet receiving unit 211 notifies the terminal service 22 of the calculated required packet transfer time T (step S208).

(Description of image color number control operation)
Next, description will be made regarding the operation of controlling the number of image colors according to the present embodiment with reference to the flowchart of FIG.

  First, when the network load determining unit 221 receives the packet transfer required time T from the network load examining unit 21 (step S301), the network load determining unit 221 compares the packet transfer required time T with the parameters a and b. Then, the network load is determined (step S302), and a predetermined value is added to the load point P based on the network load (step S303). It is assumed that the load point P has been reset in advance.

  Here, the network load determination processing (step S302 and step S303) by the network load determination unit 221 will be specifically described with reference to the flowchart of FIG.

  First, the network load determination unit 221 determines whether or not the packet transfer required time T is larger than the parameter b (step S401). If it is determined that the packet transfer time T is larger (T> b) (step S401 “YES”), It is determined that the network load is high, and the parameter T (b) is added to the load point P (step S402).

If the packet transfer required time T is equal to or shorter than the parameter b (step S401 “NO”), the network load determining unit 221 then determines whether the packet transfer required time T is equal to or longer than the parameter a (step S401). S403).

  When it is determined that the required packet transfer time T is greater than or equal to the parameter a (a ≦ T) (step S403 “YES”), the network load determining unit 221 determines that the network load is medium, and the parameter T (a ) Is added to the load point P (step S404). In this case, it is needless to say that the relational expression of a ≦ T ≦ b holds.

  When the packet transfer required time T is less than the parameter a (step S401 “NO”, step S403 “NO”), the network load determining unit 221 determines that the network load is low and does not perform addition to the load point P. Exit. In this case, it goes without saying that the relational expression of T <a holds.

  Here, returning to FIG. 3, the transfer data amount judging means 222 then calculates the transfer waiting data amount D of the communication buffer 220 (step S304), and the transfer waiting data amount D, the parameter c, and the parameter d are obtained. Comparison is made to determine the transfer data amount (step S305), and a predetermined value is added to the load point P based on the transfer data amount (step S306).

  Here, the transfer data amount determination processing (steps S305 and S306) by the transfer data amount determination means 222 will be specifically described with reference to the flowchart of FIG.

  The transfer data amount determination means 222 first determines whether or not the transfer waiting data amount D is larger than the parameter d (step S501), and determines that it is larger (D> d) (step S501 “YES”). Then, it is determined that the amount of transfer data is large, and the parameter D (d) is added to the load point P (step S502).

  If the transfer waiting data amount D is equal to or smaller than the parameter d (step S501 “NO”), then the transfer data amount determining means 222 determines whether or not the transfer waiting data amount D is equal to or larger than the parameter c ( Step S503).

  When it is determined that the transfer waiting data amount D is equal to or greater than the parameter c (c ≦ D) (step S503 “YES”), the transfer data amount determination unit 222 determines that the transfer data amount is medium, and the parameter D ( c) is added to the load point P (step S504). In this case, it goes without saying that the relational expression of c ≦ D ≦ d holds.

  When the transfer waiting data amount D is less than the parameter c (step S501 “NO”, step S503 “NO”), the transfer data amount determination means 222 determines that the fall data amount is small, and the addition to the load point P is performed. The process ends. In this case, it goes without saying that the relational expression D <c holds.

  Returning to FIG. 3, the total load determining means 223 then compares the load point P with the parameters e and f to determine the total load (step S307), and then changes the number of colors. The unit 224 changes the number of colors of the color image data to a predetermined number of colors based on the total load determined by the total load determination unit 223, and transmits a color number change notification to the client terminal 10 along with it (see FIG. Step S308).

  Here, the operations of the comprehensive load determination process and the color number change notification process (step S307 and step S308) by the total load determination unit 223 and the color number change unit 224 will be described with reference to the flowchart of FIG. I will explain it.

First, the total load determining means 223 compares whether or not the load point P is larger than the parameter f (step S601).
When the load point P is larger than the parameter f (P> f) (step S601 “YES”), the total load determination unit 223 determines that the total load is high, and then the color number update notification unit 224 Then, the number of colors of the color image data is changed to 8 bpp, and a notification of changing the number of colors is transmitted to the client terminal 10 (step S602).

  When the load point P is equal to or less than the parameter f (step S601 “NO”), the total load determination unit 223 then compares whether or not the load point P is equal to or greater than the parameter e (step S603).

  When the load point P is equal to or greater than the parameter e (e ≦ P) (step S603 “YES”), the total load determination unit 223 determines that the total load is medium, and then the color number update notification unit. 224 changes the number of colors to 16 bpp, and transmits a color number change notification to that effect to the client terminal 10 (step S604).

  When the load point P is less than the parameter e (step S601 “NO”, step S604 “NO”), the total load determination unit 223 determines that the total load is low, and then the color number update notification unit 224 The number of colors is changed to 24 bpp, and a color number change notification to that effect is transmitted to the client terminal 10 (step S605).

  In this embodiment, the number of colors to be notified is set to 8 bpp, 16 bpp, and 24 bpp. However, the number of colors to be notified is not limited to this, and the number of colors to be notified can be arbitrarily changed.

Returning to FIG. 3, when the color number change notification receiving unit of the client terminal 10 receives the color number change notification (step S309), the display color number control unit 122 receives the color number change notification. Based on this, the OS 13 is instructed to change the number of colors of the color image data (step S310).

  Next, the OS 13 changes the number of colors by issuing an instruction to change the number of colors to the display driver 14 based on the instruction (step S311). The display driver 14 then outputs a monitor signal processed with the changed number of colors to the display 30.

  3 is periodically performed as long as the client terminal 10 is connected to the server 20 and uses the remote desktop function of the terminal service 22. However, it is not limited to this.

(Effects of the first embodiment)
Next, the effect of this embodiment will be described.

  According to the present embodiment, since the number of colors of color image data is dynamically changed based on both the network load status and the transfer data amount, the network load is low and the transfer data amount is large. Even so, the data transfer amount can be appropriately controlled.

  In addition, according to the present embodiment, the total load is determined by summing up the parameter values set corresponding to the network load status and the amount of transferred data, so the number of colors can be determined in detail according to the actual situation. Is possible.

  In addition, according to the present embodiment, since it is possible to arbitrarily set a parameter value corresponding to the load status of the network and the amount of transfer data, the total load is emphasized with emphasis on either the network load or the amount of transfer data. It becomes possible to judge.

  Next, a hardware configuration example of the server 20 of the present invention will be described with reference to FIG. FIG. 7 is a block diagram illustrating a hardware configuration example of the server 20.

  Referring to FIG. 7, the server 20 has a hardware configuration similar to that of a general computer device, and includes a data work area and data including memories such as a CPU (Central Processing Unit) 801 and a RAM (Random Access Memory). Main storage unit 802 used for the temporary saving area, communication unit 803 that transmits / receives data via the network, input / output interface unit 804 that transmits / receives data by connecting to the input device 805, output device 806, and storage device 807 , A system bus 808 for connecting the above-described components to each other is provided. The storage device 807 is realized by, for example, a hard disk device including a non-volatile memory such as a ROM (Read Only Memory), a magnetic disk, and a semiconductor memory.

  The server 20 network load investigation unit 21 and the terminal service 22 of the present invention implement the operation in hardware by mounting circuit components that are hardware components such as LSI (Large Scale Integration) incorporating a program. Needless to say, it is also possible to realize a program by recording a program providing the function in the storage device 807, loading the program into the main storage unit 802, and executing it by the CPU 801.

  Although the present invention has been described with reference to the preferred embodiments, the present invention is not necessarily limited to the above embodiments, and various modifications can be made within the scope of the technical idea. .

  It should be noted that any combination of the above-described constituent elements and a conversion of the expression of the present invention between a method, an apparatus, a system, a recording medium, a computer program, etc. are also effective as an aspect of the present invention.

  The various components of the present invention do not necessarily have to be independent of each other. A plurality of components are formed as a single member, and a single component is formed of a plurality of members. It may be that a certain component is a part of another component, a part of a certain component overlaps with a part of another component, or the like.

  Moreover, although the several procedure is described in order in the method and computer program of this invention, the order of the description does not limit the order which performs a several procedure. For this reason, when implementing the method and computer program of this invention, the order of the several procedure can be changed in the range which does not interfere in content.

  The plurality of procedures of the method and the computer program of the present invention are not limited to being executed at different timings. For this reason, another procedure may occur during the execution of a certain procedure, or some or all of the execution timing of a certain procedure and the execution timing of another procedure may overlap.

  Further, a part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

(Appendix 1)
A server that transmits color image data; and a client terminal that is connected to the server via a network and receives the color image data. The server loads the network and the amount of data waiting to be transferred to the client terminal. Based on the total load determination means, and based on the determination by the total load determination means, the number of colors of the color image data to be transferred is changed, and a color number change notification is sent to the client terminal. A color number change means for transmitting, and the client terminal receives the color number change notification means for receiving the color number change notice, and a display color for changing the display color number of the display based on the color number change notice An image transfer type thin client system comprising a number control means.

(Appendix 2)
The server includes a survey packet transmitting unit that transmits a survey packet for measuring a transmission time to the client terminal, a response packet receiving unit that receives a response packet transmitted from the client terminal in response to the survey packet, Transfer time calculating means for calculating a packet transfer required time indicating a transfer required time of the investigation packet by using a transmission time of the investigation packet and a reception time of the investigation packet written in the response packet; 2. The image transfer type thin client system according to claim 1, wherein the client terminal includes means for receiving the investigation packet and means for transmitting the response packet in which the reception time of the investigation packet is written.

(Appendix 3)
The server includes network load determining means for determining the load on the network based on the packet transfer required time, and transfer data amount determining means for calculating the amount of data waiting for transfer, and the network load determining means includes: The packet transfer required time is compared with one or more preset thresholds, and based on the comparison result, a predetermined value is set as a total load determination parameter used by the total load determination unit for determination of total load. In addition, the transfer data amount judging means compares the data amount waiting for transfer with one or more preset threshold values and adds a predetermined value to the total load judgment parameter based on the comparison result The comprehensive load determination means compares the comprehensive load determination parameter with one or more preset threshold values, and based on the comparison result, Image-transfer-type thin client system according to note 2, characterized in that to determine the Do load.

(Appendix 4)
The total load determination means of the server compares the total load determination parameter with preset upper and lower thresholds, and if the total load determination parameter is larger than the upper limit threshold, the total load is high. If the total load determination parameter is less than or equal to the upper limit threshold and greater than or equal to the lower limit threshold, it is determined that the total load is medium, and if the total load determination parameter is less than the lower limit threshold, The image transfer according to appendix 3, wherein the number of colors changing unit of the server determines the number of colors of the color image data to be transferred based on the determination. Type thin client system.

(Appendix 5)
The color number changing means changes the number of colors of the color image data to 8 bpp when the total load determining means determines that the total load is high, and the total load determining means When the load is determined to be medium, the number of colors of the color image data is changed to 16 bpp, and when the total load determination unit determines that the total load is low, the color of the color image data The image transfer type thin client system according to appendix 4, wherein the number is changed to 24 bpp.

(Appendix 6)
The network load determination means of the server compares the packet transfer time with a preset upper and lower thresholds, and if the packet transfer time is larger than the upper threshold, the load on the network is high. If the required packet transfer time is less than or equal to the upper threshold and greater than or equal to the lower threshold, the network load is determined to be medium, and if the required packet transfer time is less than the lower threshold, the network The image transfer type thin client system according to any one of appendix 3 to appendix 5, wherein the load is determined to be low and a predetermined value is added to the total load determination parameter based on the determination.

(Appendix 7)
The data amount determination means of the server compares the transfer waiting data amount with preset upper and lower thresholds, and if the transfer waiting data amount is larger than the upper limit threshold, the transfer data amount is large. Determining that if the amount of data waiting for transfer is equal to or less than the upper limit threshold and equal to or greater than the lower limit threshold, it is determined that the amount of transfer data is medium, and if the amount of data waiting for transfer is less than the lower limit threshold, the amount of transfer data 7. The image transfer type thin client system according to any one of appendix 3 to appendix 6, wherein the image transfer type thin client system is characterized in that a predetermined value is added to the total load determination parameter based on the determination.

(Appendix 8)
The server includes transmission time storage means for storing the transmission time of the investigation packet, and the investigation packet transmission means records the transmission time in the transmission time recording means when transmitting the investigation packet, and transmits the transfer time. The image transfer type thin client system according to any one of appendix 2 to appendix 7, wherein the calculation unit refers to the transmission time recording unit and acquires the transmission time of the survey packet.

(Appendix 9)
The client terminal includes reception time storage means for storing the reception time of the investigation packet, and the inspection packet reception means records the reception time in the reception time storage means when receiving the investigation packet, and the response 9. The image transfer type thin client system according to any one of appendix 2 to appendix 8, wherein the packet transmission unit refers to the reception time storage unit and writes the reception time in the response packet.

(Appendix 10)
A server of an image transfer type thin client system including a server that transmits color image data, and a client terminal that is connected to the server via a network and receives the color image data, the load on the network and the client terminal A total load determining means for determining a total load based on the amount of data waiting to be transferred to the image, and changing the number of colors of the color image data to be transferred based on the determination by the total load determining means. And a number-of-colors changing means for transmitting a notification to the client terminal.

(Appendix 11)
Survey packet transmitting means for transmitting a survey packet for measuring transmission time to the client terminal; response packet receiving means for receiving a response packet transmitted from the client terminal in response to the survey packet; and Transfer time calculating means for calculating a packet transfer required time indicating a transfer required time of the check packet by using the transmission time and the reception time of the check packet written in the response packet. The server according to attachment 10.

(Appendix 12)
Network load determining means for determining the load on the network based on the required packet transfer time; and transfer data amount determining means for calculating the transfer waiting data amount, wherein the network load determining means includes the packet transfer required time. And one or more threshold values set in advance, and based on the comparison result, the total load determination means adds a predetermined value to a total load determination parameter used for determination of total load, and the transfer The data amount determination means compares the transfer waiting data amount with one or more preset threshold values, and adds a predetermined value to the total load determination parameter based on the comparison result, thereby determining the total load determination The means compares the total load determination parameter with one or more preset threshold values, and determines a total load based on the comparison result. The server according to supplementary note 11, wherein the door.

(Appendix 13)
The total load determination means compares the total load determination parameter with preset upper and lower thresholds, and determines that the total load is high when the total load determination parameter is larger than the upper limit threshold. When the total load determination parameter is equal to or lower than the upper limit threshold and equal to or higher than the lower limit threshold, it is determined that the total load is medium. When the total load determination parameter is less than the lower limit threshold, the total load is determined. 13. The server according to appendix 12, wherein the color number changing unit determines the number of colors of the color image data to be transferred based on the determination.

(Appendix 14)
The color number changing means changes the number of colors of the color image data to 8 bpp when the total load determining means determines that the total load is high, and the total load determining means When the load is determined to be medium, the number of colors of the color image data is changed to 16 bpp, and when the total load determination unit determines that the total load is low, the color of the color image data The server according to attachment 13, wherein the number is changed to 24 bpp.

(Appendix 15)
The network load determining means compares the packet transfer required time with preset upper and lower thresholds, and determines that the load on the network is high when the packet transfer required time is larger than the upper limit threshold. When the required packet transfer time is less than or equal to the upper threshold and greater than or equal to the lower threshold, the load of the network is determined to be medium, and when the required packet transfer time is less than the lower limit threshold, the load of the network is 15. The server according to any one of appendix 12 to appendix 14, wherein the server is determined to be low and a predetermined value is added to the total load determination parameter based on the determination.

(Appendix 16)
The data amount determination means compares the transfer waiting data amount with preset upper and lower thresholds, and determines that the transfer data amount is large when the transfer waiting data amount is larger than the upper limit threshold, When the transfer waiting data amount is equal to or less than the upper limit threshold and equal to or more than the lower limit threshold, it is determined that the transfer data amount is medium, and when the transfer waiting data amount is less than the lower limit threshold, the transfer data amount is small. 16. The server according to any one of appendix 12 to appendix 15, wherein the server determines and adds a predetermined value to the total load determination parameter based on the determination.

(Appendix 17)
Transmission time storage means for storing the transmission time of the survey packet, the survey packet transmission means records the transmission time in the transmission time recording means at the time of transmission of the survey packet, the transfer time calculation means, The server according to any one of Supplementary Note 11 to Supplementary Note 16, wherein the transmission time of the survey packet is acquired with reference to the transmission time recording unit.

(Appendix 18)
An image transfer control method by an image transfer type thin client system including a server that transmits color image data, and a client terminal that is connected to the server via a network and receives the color image data, wherein the server includes the server A total load determining step for determining a total load based on a network load and a data amount waiting for transfer to the client terminal, and the number of colors of the color image data to be transferred based on the determination by the total load determining step And a color number change notification step of transmitting a color number change notification to the client terminal, wherein the client terminal receives the color number change notification, and the color number change notification. Display color number control step of changing the display color number of the display based on Image transfer control method comprising and.

(Appendix 19)
The server transmits a survey packet for transmitting a survey packet for measuring a transmission time to the client terminal; a response packet receiving step for receiving a response packet transmitted from the client terminal in response to the survey packet; Using a transmission time of the survey packet and a reception time of the survey packet written in the response packet, and a transfer time calculating step of calculating a packet transfer required time indicating a transfer required time of the survey packet, The image transfer control method according to appendix 18, wherein the client terminal includes a step of receiving the survey packet and a step of transmitting the response packet in which the reception time of the survey packet is written.

(Appendix 20)
The server includes a network load determination step of determining the load of the network based on the packet transfer required time, and a transfer data amount determination step of calculating the transfer waiting data amount, wherein the network load determination step includes: The packet transfer time is compared with one or more preset threshold values, and based on the comparison result, a predetermined value is set for the total load determination parameter used by the total load determination step for determination of total load. In the transfer data amount determination step, the transfer waiting data amount is compared with one or more preset threshold values, and a predetermined value is added to the total load determination parameter based on the comparison result. In the total load determination step, the total load determination parameter is compared with one or more preset threshold values, and the comparison is performed. Based on the result, the image transfer control method of statement 19, wherein the determining the overall load.

(Appendix 21)
In the total load determination step of the server, the total load determination parameter is compared with an upper limit threshold and a lower limit threshold set in advance, and if the total load determination parameter is larger than the upper limit threshold, the total load is high. If the total load determination parameter is less than or equal to the upper limit threshold and greater than or equal to the lower limit threshold, it is determined that the total load is medium, and if the total load determination parameter is less than the lower limit threshold, 21. The image transfer control method according to appendix 20, wherein the number of colors of the color image data to be transferred is determined based on the determination in the color number changing step.

(Appendix 22)
In the color number changing step, when it is determined that the total load is high in the total load determining step of the server, the number of colors of the color image data is changed to 8 bpp, and in the total load determining step, When the total load is determined to be medium, the number of colors of the color image data is changed to 16 bpp, and when the total load is determined to be low in the total load determination step, the color image The image transfer control method according to appendix 21, wherein the number of colors of data is changed to 24 bpp.

(Appendix 23)
In the network load determination step of the server, the packet transfer required time is compared with a preset upper threshold and lower threshold, and if the packet transfer required time is larger than the upper threshold, the load on the network is high. If the required packet transfer time is less than or equal to the upper threshold and greater than or equal to the lower threshold, the network load is determined to be medium, and if the required packet transfer time is less than the lower threshold, the network The image transfer control method according to any one of appendix 20 to appendix 22, wherein the load is determined to be low, and a predetermined value is added to the total load determination parameter based on the determination.

(Appendix 24)
In the data amount determination step of the server, the transfer waiting data amount is compared with preset upper and lower thresholds, and when the transfer waiting data amount is larger than the upper limit threshold, the transfer data amount is large. Determining that if the amount of data waiting for transfer is equal to or less than the upper limit threshold and equal to or greater than the lower limit threshold, it is determined that the amount of transfer data is medium, and if the amount of data waiting for transfer is less than the lower limit threshold, the amount of transfer data 24. The image transfer control method according to any one of appendix 20 to appendix 23, wherein the image transfer control method adds a predetermined value to the total load determination parameter based on the determination.

(Appendix 25)
In the investigation packet transmission step of the server, the transmission time is recorded in the transmission time recording means at the time of transmission of the investigation packet, and in the transfer time calculation step, the transmission time recording means is referred to, and 25. The image transfer control method according to any one of appendix 19 to appendix 24, wherein the transmission time is acquired.

(Appendix 26)
The reception time is recorded in the reception time storage means at the time of reception of the inspection packet in the inspection packet reception step of the client terminal, and the reception time is referred to the reception time storage means in the response packet transmission step. 26. The image transfer control method according to any one of supplementary note 19 to supplementary note 25, wherein: is written in the response packet.

(Appendix 27)
A server that transmits color image data, and a program that is connected to the server via a network and that operates on a client terminal that receives the color image data, the network load on the server and the client terminal A total load determination process for determining a total load based on the amount of data waiting to be transferred, and a color number change notification by changing the number of colors of the color image data to be transferred based on the determination by the total load determination process A color number change process for transmitting the color number change notification to the client terminal, and the client terminal receives a color number change notification reception process for receiving the color number change notification and a display on the display based on the color number change notification. A program for executing display color number control processing for changing the number of colors.

(Appendix 28)
A program that operates on a computer constituting a server of an image transfer type thin client system including a server that transmits color image data and a client terminal that is connected to the server via a network and receives the color image data. The computer determines a total load based on a load on the network and a transfer data amount indicating the amount of data waiting to be transferred to the client terminal, and the determination based on the total load determination process. And a color number changing process for changing the number of colors of the color image data to be transferred and transmitting a color number change notification to the client terminal.

DESCRIPTION OF SYMBOLS 100: Image transfer type thin client system 10: Client terminal 11: Packet transmission / reception part 110: Investigation packet reception means 111: Response packet transmission means 112: Reception time storage means 12: Terminal service client 120: Communication buffer 121: Color number change notification Receiving means 122: Color number changing means 13: OS
14: Display driver 20: Server 21: Network survey unit 210: Survey packet transmission unit 211: Response packet reception unit 212: Transfer time calculation unit 213: Transmission time storage unit 22: Terminal service 220: Communication buffer 221: Network load determination unit 222: Transfer data amount judging means 223: Total load judging means 224: Color number changing means 30: Display 801: CPU
802: Main storage unit 803: Communication unit 804: Input / output interface unit 805: Input device 806: Output device 807: Storage device 808: System bus

Claims (8)

A server that transmits color image data;
A client terminal connected to the server via a network and receiving the color image data;
The server is
A survey packet transmitting means for transmitting a survey packet for measuring a transmission time to the client terminal;
Response packet receiving means for receiving a response packet transmitted from the client terminal in response to the survey packet;
A transfer time calculating means for calculating a packet transfer required time indicating a transfer required time of the check packet by using a transmission time of the check packet and a reception time of the check packet written in the response packet;
Network load determining means for determining a load on the network based on the packet transfer time;
Transfer data amount determination means for calculating the amount of data waiting to be transferred to the client terminal,
The network load determining means compares the packet transfer required time with one or more preset threshold values, and based on the comparison result, a predetermined value is set as a total load determination parameter used for determining the total load. And add
The transfer data amount determination means compares the amount of data waiting for transfer with one or more preset threshold values, and adds a predetermined value to the total load determination parameter based on the comparison result,
Further, the server
The total load determination parameter after the network load determination unit and the transfer data amount determination unit add the predetermined value and one or more preset threshold values are compared, and based on the comparison result, Comprehensive load determination means for determining the load,
Changing the number of colors of the color image data to be transferred based on the determination by the total load determining means , and including a color number changing means for transmitting a color number change notification to the client terminal ,
The client terminal is
Means for receiving the survey packet;
Means for transmitting the response packet in which the reception time of the survey packet is written;
A color number change notification receiving means for receiving the color number change notification;
An image transfer type thin client system including display color number control means for changing the display color number of the display based on the color number change notification . The total load judging means of the server is:
Compare the total load determination parameter with a preset upper threshold and lower threshold,
If the total load determination parameter is larger than the upper threshold, it is determined that the total load is high,
If the total load determination parameter is equal to or less than the upper limit threshold and equal to or greater than the lower limit threshold, it is determined that the total load is medium,
If the total load determination parameter is less than the lower threshold, it is determined that the total load is low,
The color number changing means of the server is:
2. The image transfer type thin client system according to claim 1, wherein the number of colors of the color image data to be transferred is determined based on the determination. The color number changing means is
If the total load determining means determines that the total load is high, the number of colors of the color image data is changed to 8 bpp,
If the total load is determined to be medium by the total load determination means, the number of colors of the color image data is changed to 16 bpp,
3. The image transfer type thin client system according to claim 2, wherein when the total load is determined by the total load determination means, the number of colors of the color image data is changed to 24 bpp . The network load determining means of the server is
Compare the packet transfer time with preset upper and lower thresholds,
If the packet transfer time is greater than the upper threshold, it is determined that the load on the network is high,
If the packet transfer time is not more than the upper threshold and not less than the lower threshold, it is determined that the load on the network is medium,
If the packet transfer time is less than the lower threshold, it is determined that the load on the network is low,
The image transfer type thin client system according to any one of claims 1 to 3 , wherein a predetermined value is added to the total load determination parameter based on the determination. The data amount judging means of the server is:
Compare the amount of data waiting for transfer with the preset upper and lower thresholds,
If the transfer waiting data amount is larger than the upper limit threshold, it is determined that the transfer data amount is large,
When the transfer waiting data amount is equal to or less than the upper limit threshold and equal to or greater than the lower limit threshold, it is determined that the transfer data amount is medium.
If the transfer waiting data amount is less than the lower threshold, it is determined that the transfer data amount is small,
5. The image transfer type thin client system according to claim 1 , wherein a predetermined value is added to the total load determination parameter based on the determination. A server of an image transfer type thin client system including a server that transmits color image data, and a client terminal that is connected to the server via a network and receives the color image data;
A survey packet transmitting means for transmitting a survey packet for measuring a transmission time to the client terminal;
Response packet receiving means for receiving a response packet transmitted from the client terminal in response to the survey packet;
Transfer time calculating means for calculating a packet transfer required time indicating a transfer required time of the investigation packet using a transmission time of the investigation packet and a reception time of the investigation packet written in the response packet;
Network load determining means for determining a load on the network based on the packet transfer time;
Transfer data amount determination means for calculating the amount of data waiting to be transferred to the client terminal,
The network load determining means compares the packet transfer required time with one or more preset threshold values, and based on the comparison result, a predetermined value is set as a total load determination parameter used for determining the total load. And add
The transfer data amount determination means compares the amount of data waiting for transfer with one or more preset threshold values, and adds a predetermined value to the total load determination parameter based on the comparison result,
The total load determination parameter after the network load determination unit and the transfer data amount determination unit add the predetermined value and one or more preset threshold values are compared, and based on the comparison result, Comprehensive load determination means for determining the load,
A color number changing unit for changing the number of colors of the color image data to be transferred based on the determination by the total load determining unit and transmitting a color number change notification to the client terminal;
server. An image transfer control method by an image transfer type thin client system including a server that transmits color image data and a client terminal that is connected to the server via a network and receives the color image data,
The server is
Send a survey packet to measure the transmission time to the client terminal,
Receiving a response packet transmitted from the client terminal in response to the survey packet;
Using the transmission time of the survey packet and the reception time of the survey packet written in the response packet, calculate a packet transfer required time indicating the transfer required time of the survey packet,
As the determination of the network load, the packet transfer time is compared with a preset one or more threshold values, and based on the comparison result, a predetermined value is set as a total load determination parameter used for determining the total load. And add
As the determination of the transfer data amount, the amount of data waiting to be transferred to the client terminal is compared with one or more preset threshold values, and based on the comparison result, a predetermined value is set for the total load determination parameter. Add,
Further, the server
The total load determination parameter after adding the predetermined value and one or more preset threshold values are compared, and the total load is determined based on the comparison result and transferred. Change the number of colors, send a color number change notification to the client terminal,
The client terminal is
Receiving the survey packet;
Transmitting the response packet in which the reception time of the survey packet is written;
Based on the color number change notification received from the server, the display color number of the display is changed.
Image transfer control method. A server that transmits color image data; and a program that is connected to the server via a network and that operates on a client terminal that receives the color image data,
To the server,
Processing to send a survey packet for measuring transmission time to the client terminal;
Processing to receive a response packet transmitted from the client terminal in response to the survey packet;
A process of calculating a packet transfer required time indicating a transfer required time of the survey packet using a transmission time of the survey packet and a reception time of the survey packet written in the response packet;
As the determination of the network load, the packet transfer time is compared with a preset one or more threshold values, and based on the comparison result, a predetermined value is set as a total load determination parameter used for determining the total load. The process of adding
As the determination of the transfer data amount, the amount of data waiting to be transferred to the client terminal is compared with one or more preset threshold values, and based on the comparison result, a predetermined value is set for the total load determination parameter. Processing to add,
In addition to the server
Comparing the overall load determination parameter after adding the predetermined value in the determination of the network load and the determination of the amount of transfer data, and one or more threshold values set in advance, based on the comparison result, Determining the total load, changing the number of colors of the color image data to be transferred, and sending a color number change notification to the client terminal,
In the client terminal,
Processing to receive the survey packet;
A process of transmitting the response packet in which the reception time of the survey packet is written;
A program for executing processing for changing the number of display colors based on the color number change notification received from the server .

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