JP4083996B2 - System for performing communication with terminal via wired connection path and wireless connection path, arithmetic processing unit, wireless connection terminal, data transfer method for wireless connection terminal, program, and storage medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a system having a wired connection path and a wireless connection path with a terminal such as a display device, and more particularly to a system that enables smooth switching between wired connection and wireless connection. .
[0002]
[Prior art]
In recent years, for example, there are products that include a monitor that can be easily carried while being enjoyed by e-mail communication and the Internet. This product, for example, includes a base station and a portable LCD monitor, so you can enjoy the Internet and email communications wirelessly if you move around the house with just the monitor.
[0003]
Such a conventional product has a browser function of WWW (World Wide Web), is configured to communicate with the server using the HTML protocol and receive the display protocol, and the connection destination is limited to the WWW server. It is common. Further, the software built in the display terminal in advance is limitedly connected only to the corresponding host. Furthermore, it does not have the same display function and performance as a wired connection.
[0004]
[Problems to be solved by the invention]
Now, consider a display device having two connection modes, wired connection and wireless connection. For example, when the display device is near the computer (host) that is the connection destination, both are connected and wired to ensure the same display speed as a conventional wired display device. On the other hand, when both are separated, wireless connection is made to ensure diversity of operation modes.
[0005]
Here, as a device having two connection modes of wired connection and wireless connection, for example, a base called a cradle is provided, and a terminal is placed on the cradle to enter a wired connection mode. Can be considered. In the case of such a device, it is expected that the mode switching between wireless and wired will be frequently performed, but authentication work such as inputting a password at the time of connection, such as remote connection via a general network, is required. If necessary, the convenience of having two connection modes will be lost.
[0006]
Currently, a cable that connects a host and a monitor such as a CRT employs a technique for constantly transferring a screen image in synchronization with the refresh cycle. For example, when the screen size is XGA (Extended Graphics Array), the amount of data per pixel is 16 bits, and the refresh rate is 60 Hz, the overall data rate is about 750 Mbps. On the other hand, in a general wireless LAN, since the transfer rate is 11 Mbps at the maximum, data in the same format used for wired connection cannot be transferred by wireless connection.
[0007]
Further, a method of transferring a screen drawing command (primitive) instead of the screen image and developing it into an image on the display device side, or transferring only the difference of the screen image on the host side can be considered. According to these methods, the screen update response on the display device side is good while the drawing frequency of the screen is low, but when a large amount of drawing is performed, the transmission path becomes a bottleneck as in the image transfer method. Although a method of transferring only the screen image difference on the host side is conceivable, it is difficult to detect the image difference. For example, if the difference is simply obtained by software, it itself becomes an overhead.
[0008]
Furthermore, a method of processing a large number of drawing commands at high speed on the host side and sending a screen snapshot (or a difference image between the snapshots) to the display device at an appropriate interval is also conceivable. However, in such a method, when the drawing frequency is relatively low, the drawing response is deteriorated as compared with the drawing primitive method.
[0009]
The present invention has been made in order to solve the technical problems as described above, and the object of the present invention is to automatically perform settings required at the time of wireless connection, and at the time of wired connection and wireless connection. It is to enable smooth switching of time.
Another object is to secure real-time characteristics even when there is a large amount of drawing while securing a response of a primitive method by a screen drawing command.
[0010]
[Means for Solving the Problems]
For this purpose, according to the present invention, in the wired connection mode, the wired connection path connecting the arithmetic processing unit and the terminal is a one-to-one connection, and can be regarded as a safe communication path. And wireless connection paths are not exclusive and can be used at the same time. In communication between a terminal such as a display device and a processing unit as a host, wired connection that is communication via a wired connection path There are two connection modes, a wireless connection mode, which is a communication through a mode and a wireless connection path, and information transfer necessary for the wireless connection mode is executed in the wired connection mode.
[0011]
That is, in the system to which the present invention is applied, the arithmetic processing unit communicates via a wireless connection path between a wired communication unit that communicates with a terminal via a wired connection path and a wireless connection path. For wireless connection Necessary information and wireless connection route Wireless connection in communication via It is characterized by comprising sending means for sending information necessary for authentication to the terminal using wired communication means before entering the wireless connection mode.
[0012]
Here, it is provided directly or indirectly with respect to the arithmetic processing unit, and includes an attaching / detaching means (for example, a cradle) for attaching / detaching the terminal. For example, a conventional terminal is further provided with detection means for detecting this and switching means for switching between communication via a wired connection path and communication via a wireless connection path based on the detection result. This is preferable in that it can appropriately switch between a wired connection mode that maintains the same functions, performance, and operability as the wireless communication mode and a wireless connection mode that improves convenience.
[0013]
From another point of view, the present invention is characterized in that a plurality of display data transfer methods are dynamically switched according to some feature amount. For example, the display data transfer method is switched according to the characteristics of displayed data. ing. That is, the present invention is a system including a display device and an arithmetic processing device that communicates with the display device via a wireless connection path. The arithmetic processing device is a drawing that includes a screen drawing command. First transfer means for transferring to the display device by a primitive-based drawing instruction protocol, and second transfer for transferring to the display device by a protocol for sending an image image as difference information of a snapshot of a screen image And a switching means for switching between the first transfer means and the second transfer means based on a predetermined feature amount.
[0014]
Here, the predetermined feature amount may be at least one of a data size on the communication path, a change amount, an effective bandwidth of the network, and a drawing performance of the display device. Thereby, it is possible to ensure practically sufficient display performance even in the wireless connection mode in which the data transfer capability is inferior to that in the wired connection mode.
[0015]
Further, after receiving the drawing command, the second transfer means determines whether or not to transmit a screen image based on a predetermined index. If it is determined that the screen image should be transmitted, the calculated transmission is performed. It is characterized in that an image based on the area to be transmitted is transmitted.
Here, the predetermined index is that when the amount of change of the screen image exceeds the set value, when more than the set number of drawing commands are processed, the time set since the last transmission of the image image is set. It is excellent in that image data can be efficiently transferred if it is characterized in that it is at least one of when it has passed and when a transmission request is received from the display device.
[0016]
Of course, the present invention can be understood as a host device and an arithmetic processing device. That is, the present invention is an arithmetic processing device (host device) that has a wired connection mode and a wireless connection mode and communicates with a terminal, and a wired communication means for communicating with the terminal via a wired connection path And wireless communication means for performing wireless communication with the terminal via the wireless connection path, and communication via the wireless connection path before communication with the terminal by the wireless communication means. For wireless connection Sending means for sending necessary information to the terminal using wired communication means, judging means for judging whether or not the terminal has left the wired connection path, and when judging that this terminal has been detached And switching means for switching to wireless communication via a wireless connection path based on the wireless communication means.
[0017]
An arithmetic processing apparatus to which the present invention is applied includes a CPU, a graphics adapter that generates image data based on a drawing command, a frame memory that develops image data generated by the graphics adapter, and a drawing primitive. And a wireless communication device that transmits data for drawing to the display device in a transfer mode using the CPU, and the CPU determines whether or not to transmit an image image based on a predetermined index and transmits the image. The wireless communication device calculates the area to be read and reads the image image from the frame memory. The wireless communication device transfers the read image image data to the display device via the wireless connection path instead of the transfer mode using the drawing primitive. Sending out.
[0018]
Here, if the CPU calculates an area to be transmitted based on a change in data in the image image developed in the frame memory, for example, the data is compared with a case where all image images are transferred. Even when the amount of size is reduced, it is possible to ensure practically sufficient display performance.
[0019]
On the other hand, the present invention can be understood as a terminal such as a display device. That is, the present invention is a wireless connection terminal that communicates with an arithmetic processing device via a wired connection path and a wireless connection route, and a wired communication means that communicates with the arithmetic processing device via a wired connection path; Wireless communication means for communicating with the arithmetic processing unit via a wireless connection path, and this wired communication means communicates via the wireless connection path prior to communication via the wireless connection path. For wireless connection Necessary information, communication via wireless connection path Wireless connection It is characterized in that information necessary for authentication is received via a wired connection path.
[0020]
Here, the wireless communication means may be characterized in that an authentication request based on information necessary for authentication received by the wired communication means is wirelessly transferred to the arithmetic processing device.
And detecting means for detecting whether or not the wired connection path is cut off. Based on the detection by the detecting means, the communication of data by the wired communication means is stopped, and the communication by the wireless communication means is performed. Can be a feature.
Furthermore, based on the data received via the wireless connection path, a developing means such as a graphics adapter that expands the image in the frame memory, and a display panel or the like that reads and displays the image expanded in the frame memory And means.
[0021]
From another category, the present invention Wired connection path and Wireless connection path Is a data transfer method for performing communication between an arithmetic processing unit and a terminal via a terminal, Wired connection path To see if your device is connected to Wired connection path When connected to Wireless connection path Information required for wireless connection in communication via Wired connection path And performing authentication required for wireless connection.
[0022]
Here, paying attention to the point that the wired connection cable and the wireless link can be used simultaneously rather than exclusively, from the arithmetic processing unit Wired connection path The session ID is transferred to the terminal via Wireless connection path The session ID can be transferred to the arithmetic processing unit via the.
[0023]
In addition, the present invention provides a connection between a display device and an arithmetic processing device. Wireless connection path A data transfer method for communicating via Wireless connection path A first transfer method for detecting a predetermined feature amount in communication via a network, and transferring the screen to a display device using a drawing primitive-based drawing instruction protocol including a screen drawing command based on the detected feature amount; It is characterized in that the second transfer method for transferring to the display device is switched by a protocol for sending an image as difference information of the snapshot of the image.
[0024]
It should be noted that these configurations of the present invention can be grasped as a program for causing a computer to realize these functions. These computer programs can be provided, for example, to a computer that is an arithmetic processing unit, for example, from a remote program transmission device via a network. As this program transmission device, a storage means such as a CD-ROM, DVD, memory, hard disk or the like in which the program is stored, a program is read from these storage means, and a connector, the Internet, a LAN, etc. And a transmission means for transmitting via the network.
[0025]
These computer programs can also be directly provided by a storage medium such as a CD-ROM or DVD. In such a case, a computer such as a PC on which the program is installed only needs to have a storage medium reading function (CD-ROM drive, DVD drive, etc.).
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail based on embodiments shown in the accompanying drawings.
FIG. 1 is a diagram for explaining a schematic configuration of a system according to the present embodiment. The system to which the present embodiment is applied includes, for example, an arithmetic processing device (host) 10 that performs image processing and outputs image image data, and is electrically connected to the arithmetic processing device 10 via a wired connection path (wired connection line) 20. And a display device 50 as a wireless connection terminal (terminal) configured to be detachable from the cradle 40.
[0027]
The cradle 40 is a stand-type docking station, but the arithmetic processing device 10 and the cradle 40 are integrated into the same housing, and the display device 50 is configured to be detachable directly from the arithmetic processing device 10, and wired connection is made. You may comprise so that the path | route 20 may be provided in the inside of the housing | casing. That is, as shown in FIG. 1, when the wired connection path 20 is exposed to the outside of the processing unit 10 and the cradle 40 is provided separately from the casing of the processing unit 10, the cradle 40 is connected to the processing unit 10. Is provided “indirectly”. On the other hand, when it is the same housing | casing, it can be said that it is provided "directly".
[0028]
FIG. 2 is a block diagram showing the overall configuration of the system according to the present embodiment. The cradle 40 includes a connector 41, and the display device 50 includes a connector 51. The display device 50 is physically coupled to the cradle 40 by attaching the connector 51 to the connector 41, and is further electrically coupled via the connector 41 and the connector 51. As a result, the arithmetic processing device 10 and the display device 50 are connected by the wired connection path 20. Further, even when the display device 50 is detached from the cradle 40, the display device 50 is logically connected by the wireless connection path 30 and can exchange wireless image information and wireless data.
[0029]
FIG. 3 is a block diagram illustrating in more detail the system configuration in the present embodiment. The wired connection path 20 includes a wired data transfer line 21 and a wired image transfer line 22. The wired data transfer line 21 bi-directionally transfers information other than the image image in the communication between the arithmetic processing unit 10 and the cradle 40. The wired image transfer line 22 receives image information from the arithmetic processing apparatus 10 and transfers it to the cradle 40. Examples of the wired connection path 20 include a combination of a display cable using a coaxial cable and a USB (Universal Serial Bus), a DVI (Digital Visual Interface) cable using a stranded wire, and the like. A normal video connection cable can be used as a control line because it has a bidirectional communication path in addition to a video signal. For example, in the case of analog RGB, in addition to a video cable, a USB cable, etc. Can be used together as a control line.
[0030]
The arithmetic processing unit 10 also includes a CPU 11 that controls the entire apparatus, a main memory 12 for work of the CPU 11, a graphics adapter 13 that generates image images, and a frame memory that expands image data generated by the graphics adapters 13. 14, a wired communication device 15 that performs communication via the wired connection path 20, and a wireless communication device 16 that transmits and receives data via the wireless connection path 30. In the present embodiment, the user installs display device control software in advance on the arithmetic processing device 10 that is a host. In addition to the case where the display device control software is provided in advance when the arithmetic processing device 10 is purchased, a method provided via a storage medium such as a CD-ROM, a method downloaded via a network such as the Internet, etc. There is. The display device control software is divided into a portion for controlling connection of the terminal (display device 50) and a portion for controlling drawing information in the wireless mode.
[0031]
The display device control software monitors whether or not a terminal (display device 50) is connected to the processing unit 10 that is a host. When the display device 50 is connected, the display device control software enters a wired connection mode, and a video signal is displayed. Is sent to the display device 50 via the wired image transfer line 22. Further, the display device control software sends various information necessary for wireless connection to the display device 50. If necessary, the identifier of the connected display device 50 is referred to and information necessary for authentication is sent to the display device 50. When it is disconnected from the cradle 40, it shifts to the wireless connection mode, and the screen information is transmitted via the wireless connection path 30 that is a wireless link.
[0032]
In the wired connection mode in which communication is performed via the wired connection path 20, the CPU 11 performs some processing using the instructions and data on the main memory 12, and as a result, the screen image such as a rectangle or a line segment is displayed. Is transferred to the graphics adapter 13 as a drawing primitive (Primitive), which is a screen drawing command transferred instead of. In the graphics adapter 13, an image is generated on the frame memory 14 in accordance with the contents of the received drawing primitive. The graphics adapter 13 periodically reads the generated image image and sends the read image image to the wired communication device 15. In addition, the wired communication device 15 sends the image image received from the graphics adapter 13 to the wired image transfer line 22.
[0033]
In the wireless connection mode in which communication is performed via the wireless connection path 30, the CPU 11 first generates an image on the frame memory 14 as in the wired connection mode. Further, the generated image data is transferred to the display device 50 via the wireless communication device 16. Alternatively, some processing is performed using instructions / data on the main memory 12, and as a result, the content to be displayed is converted into a drawing primitive format, and then the drawing primitive is displayed via the wireless communication device 16. 50.
[0034]
The wireless communication device 16 exchanges data with a wireless communication device (described later) on the display device 50 side. Examples of the wireless communication device 16 include a wireless LAN such as IEEE 802.11, Bluetooth, and the like. The wired data transfer line 21 also transmits and receives data between the arithmetic processing unit 10 and the display device 50. Examples of the wired data transfer line 21 include DDC (Display Data Channel) and USB.
[0035]
FIG. 4 is a block diagram for explaining the cradle 40. The cradle 40 includes a connector 41 and an attachment / detachment detection device 42, and transmits signals received from the wired data transfer line 21 and the wired image transfer line 22 to the display device 50 via the connector 41. The attachment / detachment detection device 42 electrically detects that the display device 50 is attached / detached to / from the cradle 40 and sends the information to the arithmetic processing device 10 through the wired data transfer line 21. As a method for detecting attachment / detachment by the attachment / detachment detection device 42, for example, there is a method using a mechanical switch. Further, a method of monitoring a signal line that exchanges information with the display device 50 via the connector 41 and detecting the signal level is conceivable.
[0036]
It should be noted that the attachment / detachment detection device 42 may be provided inside the arithmetic processing device 10 instead of being provided inside the cradle 40. In such a case, when the CPU 11 of the arithmetic processing unit 10 periodically exchanges information with the display device 50 via the wired data transfer line 21, and when the exchange of information is confirmed for a certain time or more. It may be determined that the wired image transfer line 22 is connected.
[0037]
FIG. 5 is a block diagram for explaining the display device 50 in detail. The display device 50 includes the connector 51, the wired communication device 52 that transmits and receives information via the wired connection path 20, the wireless communication device 53 that transmits and receives information via the wireless connection path 30, and a graphic that generates an image. Adapter 54, a frame memory 55 for developing an image generated by the graphics adapter 54, a display panel 56 for outputting an image to the user, an input device 57 for receiving an input operation from the user, and a wired connection path And an attachment / detachment detection device 58 that detects a connection state with the device 20.
[0038]
The display device 50 receives an image image or a drawing primitive from the arithmetic processing device 10 from the wired connection path 20 via the connector 51 and the wired communication device 52 or from the wireless connection route 30 via the wireless communication device 53. , They are sent to the graphics adapter 54. The graphics adapter 54 generates a complete image on the frame memory 55. The generated image is displayed on the display panel 56.
[0039]
The input device 57 receives an input from the user who uses the display device 50 and sends it to the arithmetic processing device 10 through the wired data transfer line 21 or the wireless connection path 30. Examples of the input device 57 include a touch panel, a switch, a track ball, a track point, a microphone, a camera, and a fingerprint collator. The attachment / detachment detection device 58 electrically detects that the display device 50 has been attached / detached to / from the cradle 40, similarly to the attachment / detachment detection device 42 of the cradle 40 described above. As a method of detecting attachment / detachment, a method using a mechanical switch, a method of monitoring a signal flowing through the connector 51, and detecting a change in the signal level can be considered.
[0040]
Next, the operation of the system in this embodiment will be described.
FIG. 6 is a flowchart showing the connection mode switching operation in the arithmetic processing unit 10. Here, switching operation between the wired connection mode and the wireless connection mode is shown. The CPU 11 of the arithmetic processing device 10 obtains a signal from the attachment / detachment detection device 42 of the cradle 40 through the wired data transfer line 21 (step 101), and determines whether or not the attachment / detachment state of the display device 50 has changed (step 102). . If the attachment / detachment state does not change, the process returns to step 101. If the attachment / detachment state has changed, the attachment / detachment state after the change is observed (step 103). If it is in the mounted state, the mode transits to the wired connection mode (step 104) and returns to step 101. If it is in the separated (detached) state, the wireless communication mode is changed (step 105), and the process returns to step 101.
[0041]
Here, several methods are conceivable as a method for the attachment / detachment detection device 42 of the cradle 40 to detect the attachment / detachment state of the display device 50. For example, there is a method in which the wired image transfer line 22 is monitored and a change in the signal level due to the connection of the terminal end of the signal line is electrically detected to determine that it is in the mounted state. Further, for example, there is a method of detecting that the display device 50 is physically mounted on the cradle 40 by providing a mechanical switch on the cradle 40. Further, for example, there is a method in which information is periodically exchanged with the display device 50 via the wired data transfer line 21, and when information exchange is confirmed for a certain time or more, a method of determining that the connection is established. is there.
[0042]
FIG. 7 is a flowchart for explaining the transition to the wired connection mode in the arithmetic processing device 10. In the arithmetic processing unit 10, when it is determined that the wired image transfer line 22 is connected, the arithmetic processing device 10 transitions to the wired connection mode. First, the CPU 11 acquires information on the display device 50 via the wired data transfer line 21 (step 111). The information acquired here is the display resolution of the display device 50, the highest screen update frequency, and the like. Using the acquired information, the arithmetic processing unit 10 is initialized for the wired connection mode, such as initialization of the graphics adapter 13 by the CPU 11 (step 112). As a result, the image data can be transmitted at a resolution and transfer speed convenient for the display device 50. The arithmetic processing unit 10 starts sending image data through the wired image transfer line 22 (step 113).
[0043]
Next, the CPU 11 sends information for wireless connection and information for authentication to the display device 50 via the wired data transfer line 21 (step 114). Thereafter, the CPU 11 waits for the arrival of an authentication request from the display device 50 via the wireless communication device 16 (step 115). If an authentication request is received, the display device 50 is authenticated based on the authentication request (step 116) to prepare for the transition to the wireless connection mode. As described above, in normal wireless communication, when wireless communication is performed, information exchange for wireless connection is performed via the wireless connection path 30, whereas in the present embodiment, wireless connection is performed. This is characterized in that the exchange of information for authentication and information for authentication is executed in advance using the wired connection path 20. In other words, in the present embodiment, both wired connection and wireless connection are provided, and information required for wireless connection at the time of wired connection is transferred to the display device 50 by wire in advance. And at the time of wired connection, it becomes possible to complete the authentication required for wireless connection.
[0044]
FIGS. 8A to 8C show data necessary for wireless connection and authentication and their exchange. Step 1 shown in FIG. 8A shows information necessary for wireless connection sent from the arithmetic processing unit 10 to the display device 50 via the wired data transfer line 21 of the wired connection path 20. As information necessary for wireless connection, assuming IEEE802.11 and TCP / IP as wireless connection protocols, ESSID (Extended Service Set Identity) which is a basic specification of IEEE802.11. There is information necessary for wireless link layer connection, such as (Wired Equivalent Privacy). In addition, information necessary for connection in the network layer, such as IP address, gateway address, and netmask used to separate IP addresses, or to acquire them There is information such as DHCP (Dynamic Host Configuration Protocol). Further, information such as a host address (Host address) which is an identifier of the host (the processing unit 10) can be mentioned.
[0045]
In step 1 shown in FIG. 8A, information necessary for wireless connection can be transmitted not only unconditionally to the display device 50 but also transmitted under predetermined conditions. . For example, a unique ID for each display device 50 that should be permitted to be connected is registered in the arithmetic processing device 10 in advance, and the unique ID of the display device 50 is checked at the time of wired connection. It can be configured to send necessary information at the time of connection.
[0046]
In step 2 shown in FIG. 8B, information necessary for authentication for permitting access to information at the time of wireless connection is transmitted via the wired data transfer line 21. Examples of information necessary for this authentication include the public key of the arithmetic processing device 10 and a session ID.
In step 3 shown in FIG. 8C, wireless connection is made from the display device 50 to the arithmetic processing device 10, and an authentication request is transmitted from the display device 50 to the arithmetic processing device 10.
[0047]
In the display device 50, the wireless interface is initialized based on the information sent in step 1 shown in FIG. Thereafter, the session ID sent in step 2 shown in FIG. 8B is encrypted with the public key of the arithmetic processing unit 10 and transferred wirelessly via the wireless connection path 30. However, encryption is not essential, and other encryption methods may be used. The transmission of the authentication request by wireless connection can be executed regardless of whether or not the display device 50 is connected to the wired connection path 20. If all the authentication operations can be completed before the display device 50 is detached from the cradle 40, it is excellent in that the transition to wireless communication can be performed quickly.
[0048]
FIG. 9 is a flowchart illustrating processing when the arithmetic processing apparatus 10 transitions to the wireless connection mode. The CPU 11 in the arithmetic processing device 10 shifts to the wireless connection mode when the display device 50 is determined to be separated from the cradle 40 by the attachment / detachment detection device 42 of the cradle 40. In the wireless connection mode, the CPU 11 first stops the transmission of image data through the wired image transfer line 22 (step 121). Next, transmission of image data is started through the wireless connection path 30 (step 122). Here, the display device 50 has already been authenticated, and communication via the wireless connection path 30 is immediately possible. In other words, in the present embodiment, even in the transition from wired connection to wireless connection, the user does not need to explicitly change the mode, and the display device 50 that is a wireless connection terminal is simply connected to the cable (cradle 40). It is possible to change the connection mode immediately by simply disconnecting from the network.
[0049]
FIG. 10 is a flowchart showing transfer method switching processing in the wireless connection mode performed by the arithmetic processing unit 10. In the wireless connection mode, the image data is sent from the arithmetic processing device 10 to the display device 50 via the wireless connection path 30. The transfer method of the data to be transferred is switched according to the display contents, and efficient transfer is performed. In switching the transfer method in the wireless connection mode, the CPU 11 first waits for a certain time (step 131), and then monitors the data size on the communication path to determine whether the data size exceeds a set value (step). 132). The reason for waiting for a certain time in step 131 is to smooth (average) the screen information in consideration of the fact that the screen information may change temporarily.
[0050]
This step 132 is to determine how much data has been sent within a certain time. When the data size does not exceed the predetermined set value in step 132 and is smaller than the set value. Transitions to a transfer mode using drawing primitives (step 133). On the other hand, when the data size exceeds a predetermined set value, the mode is changed to a mode in which an image is accumulated and the changed area is transferred as an image (step 134). That is, in this embodiment, as a transfer method, in addition to a drawing primitive-based drawing instruction protocol, a drawing image is accumulated in a screen buffer on the host, and a screen snapshot is sent to the terminal (display device 50) at an appropriate timing. Two types of transfer functions are provided.
[0051]
In this step 132, the amount of data size on the communication path is used as the transfer method switching index (feature value), but it is possible to switch dynamically using other indexes (feature quantities). It is. For example, there are the following alternative means.
The amount of drawing data when using the “drawing primitive” protocol. More precisely, the ratio between the size of the sequence in drawing primitives and the amount of screen image generated by those drawing processes.
・ Effective network bandwidth
-Drawing performance of display device 50
・ Changes in data size on the communication path
[0052]
FIG. 11 is a flowchart showing processing in a mode for transferring as an image in the wireless connection mode shown in step 134 of FIG. After receiving the drawing command (step 141), the CPU 11 of the arithmetic processing unit 10 performs drawing on the frame memory 14 via the graphics adapter 13 (step 142). Thereafter, the CPU 11 determines whether or not to transmit a screen image (step 143). As an index to be determined, for example, whether or not the amount of change of data on the screen exceeds a set value can be used as a determination criterion. In addition, whether or not more than the set number of drawing commands have been processed, whether or not the time that has been set since the last transmission of the screen image has elapsed, and whether or not a transmission request from the display device 50 has been received Or the like. For example, when any one or a plurality of conditions are satisfied, the CPU 11 calculates the changed area and calculates the area to be transmitted (step 144). Then, after the corresponding image is read from the frame memory 14, the read image is encoded (step 145). Thereafter, the encoded image is sent to the wireless communication device 16 and sent to the display device 50 via the wireless connection path 30 (step 146), and the process ends. If it is determined in step 143 that the image should not be transmitted, the process ends.
[0053]
FIG. 12 is a flowchart showing processing in the transfer mode using the drawing primitive shown in step 133 of FIG. After receiving the drawing command (step 151), the CPU 11 of the arithmetic processing unit 10 performs drawing on the frame memory 14 via the graphics adapter 13 (step 152). Next, the CPU 11 converts the received drawing command into a drawing primitive, and further encodes it (step 153). The encoded drawing primitive is sent to the wireless communication device 16 and sent to the display device 50 via the wireless connection path 30 (step 154), and the process ends.
[0054]
As described above, according to the present embodiment, switching between transmission with a drawing primitive or transfer of a changed area as an image image is switched according to the data size on the communication path. In other words, when the transfer mode using the drawing primitive exceeds a predetermined setting value in step 132, the mode is transferred to a transfer mode as an image. With this configuration, for example, when a changed area is transferred as an image, it is possible to prevent unnecessary transfer such as painting the same area twice with the same color, and the reaction time (Latency ) Is sacrificed, for example, the data size on the wireless connection path 30 can be adjusted by delaying the transfer interval by accumulating the changing part in the arithmetic processing unit 10.
[0055]
Next, processing in the display device 50 that is a wireless connection terminal will be described.
FIG. 13 is a flowchart relating to connection mode switching performed by the display device 50. When switching the connection mode, the display device 50 first obtains a signal for the attachment / detachment state by the attachment / detachment detection device 58 (step 201). Then, it is determined whether or not the attachment / detachment state has changed (step 202). If not, the process returns to step 201 and waits for a signal from the attachment / detachment detection device 58. If the attachment / detachment state changes, the attachment / detachment state is determined (step 203). When the display device 50 is connected to the cradle 40 via the connector 51 and the connector 41 and the wired connection path 20 is in the connected state, the display device 50 transitions to the wired connection mode (step 204). The mode is changed (step 205), and each step returns to step 201.
[0056]
FIG. 14 is a flowchart for explaining the transition to the wired connection mode shown in step 204 of FIG. When transitioning to the wired connection mode, the display device 50 is initialized for the wired connection mode (step 211). This includes initialization of the wired communication device 52 and the graphics adapter 54. As a result, the image data sent from the arithmetic processing unit 10 is displayed on the display panel 56. Next, display of image data is started through the wired image transfer line 22 of the wired connection path 20 (step 212), and information for wireless connection mode (wireless connection information) and authentication information are received (step 213). The information received here is the same as that described with reference to FIG. Furthermore, the display device 50 initializes the wireless communication device 53 (step 214) and is logically connected to the arithmetic processing device 10 via the wireless connection path 30. Finally, the display device 50 sends an authentication request to the arithmetic processing device 10 via the wireless connection path 30 (step 215).
[0057]
In this way, in the present embodiment, after receiving the information for wireless connection mode and the authentication information via the wired connection path 20, an operation for sending an authentication request via the wireless connection path 30 is realized. Yes. With this configuration, it is possible to automatically perform settings that are generally complicated and dangerous at the time of wireless connection, and it is possible to smoothly switch between wired connection and wireless connection. Thereby, even a user without specialized knowledge can easily use the wireless connection terminal (the display device 50 or the like).
[0058]
In the wired connection mode, the display device 50 receives image data via the wired image transfer line 22. The received image data is sent to the graphics adapter 54 via the wired communication device 52. The graphics adapter 54 expands the received image data on the frame memory 55. The graphics adapter 54 periodically reads the contents of the frame memory 55 and displays them on the display panel 56. In this way, the function equivalent to that of the conventional display device can be obtained at the time of wired connection.
[0059]
FIG. 15 is a diagram for explaining the transition to the wireless connection mode shown in step 205 of FIG. In the display device 50 which is a wireless connection terminal, first, reception and display of image data sent via the wired image transfer line 22 are stopped (step 221). Thereafter, display of the image data sent via the wireless connection path 30 is started (step 222).
[0060]
In the wireless connection mode, the wireless communication device 53 of the display device 50 receives the image data or the drawing primitive sent from the arithmetic processing device 10 via the wireless connection path 30. The received data is sent to the graphics adapter 54. The graphics adapter 54 develops a final image on the frame memory 55 based on the received data. The graphics adapter 54 periodically reads the content developed in the frame memory 55 and displays it on the display panel 56. In this way, the display operation in the wireless connection mode is executed.
[0061]
As described above in detail, in the present embodiment, the display device 50 that is a wireless connection terminal has both the communication path of the wired connection path 20 and the wireless connection path 30 and switches between the two. As a result, it has the same function, performance, and operability as a conventional display device when connected by wire, and specifically, the number of colors that can be displayed, the screen update speed, etc. should be equivalent to those of a conventional wired connection display device. Is possible. Furthermore, it is possible to immediately use it by simply connecting with a cable without setting on the display device 50 side.
[0062]
In the present embodiment, in the wired connection mode, the cable connecting the host (the processing unit 10) and the terminal (the display device 50) is a one-to-one connection, and a safe communication path (control line). We focus on the point that it can be considered. Further, attention is paid to the fact that the wired connection path 20 which is a wired connection cable and the wireless link of the wireless connection path 30 are not exclusive and can be used simultaneously. Under this premise, information for wireless connection is sent in advance from the arithmetic processing device 10 on the host side to the display device 50 side as a terminal at the time of wired connection, and necessary authentication work is also completed in advance. Accordingly, it is not necessary to perform setting work in advance on the display device 50 side for the operation at the time of wireless connection. In addition, even in the transition from wired connection to wireless connection, there is no need for the user to explicitly change the mode, and the connection mode can be changed immediately by simply disconnecting the display device 50 from the cable (or cradle 40). It can be performed.
[0063]
Furthermore, as a display data transfer method using the wireless connection path 30, there are two types of display primitive-based drawing instruction protocol and a protocol for sending an image image as difference information of a snapshot of the screen image. It is possible to dynamically switch between the two according to a certain feature amount of data. As a result, practically sufficient display performance can be ensured at the time of wireless connection having inferior transfer capability as compared to wired connection.
[0064]
【The invention's effect】
As described above, according to the present invention, smooth switching between wired connection and wireless connection can be performed in a system including a wired connection path and a wireless connection path with a terminal.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining a schematic configuration of a system in the present embodiment.
FIG. 2 is a block diagram showing an overall configuration of a system in the present embodiment.
FIG. 3 is a block diagram illustrating in more detail the system configuration in the present embodiment.
FIG. 4 is a block diagram for explaining a cradle in the present embodiment.
FIG. 5 is a block diagram for explaining the display device in this embodiment in detail;
FIG. 6 is a flowchart showing connection mode switching operation in the arithmetic processing unit.
FIG. 7 is a flowchart for explaining transition to a wired connection mode in the arithmetic processing unit.
FIGS. 8A to 8C are diagrams showing data necessary for wireless connection and authentication, and transmission / reception thereof. FIG.
FIG. 9 is a flowchart showing processing when transitioning to a wireless connection mode in the arithmetic processing unit.
FIG. 10 is a flowchart showing transfer method switching processing in the wireless connection mode performed by the arithmetic processing unit.
FIG. 11 is a flowchart showing processing in a mode for transferring as an image in the wireless connection mode.
FIG. 12 is a flowchart showing processing in a transfer mode using drawing primitives.
FIG. 13 is a flowchart relating to connection mode switching performed by the display device.
FIG. 14 is a flowchart for explaining a transition to a wired connection mode.
FIG. 15 is a diagram for explaining transition to a wireless connection mode.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Processing unit (host), 11 ... CPU, 12 ... Main memory, 13 ... Graphics adapter, 14 ... Frame memory, 15 ... Wired communication device, 16 ... Wireless communication device, 20 ... Wired connection path, 21 ... Wired Data transfer line, 22 ... Wired image transfer line, 30 ... Wireless connection path, 40 ... Cradle, 41 ... Connector, 42 ... Attach / detach detection device, 50 ... Display device, 51 ... Connector, 52 ... Wired communication device, 53 ... Wireless communication Device 54 ... Graphics adapter 55 ... Frame memory 56 ... Display panel 57 ... Input device 58 ... Attachment / detachment detection device

Claims (11)

A system including a display device and an arithmetic processing device that performs communication of data including image information via a wired connection path and a wireless connection path between the display device and the display device,
The arithmetic processing unit includes:
Wired communication means for communicating with the display device via the wired connection path;
Wireless communication means for performing wireless communication with the display device via the wireless connection path and information necessary for wireless connection with the display device via the wireless connection path are transmitted to the display device using the wired communication means. Sending means for sending; and
First transfer means for transferring to the display device by a drawing primitive-based drawing instruction protocol comprising screen drawing commands;
Second transfer means for transferring to the display device by a protocol for sending an image image as difference information of a snapshot of a screen image;
Switching means for switching between the first transfer means and the second transfer means based on at least one of the data size on the communication path, the amount of change, the effective bandwidth of the network, and the drawing performance of the display device. A system characterized by comprising. The system according to claim 1, wherein the sending unit sends information necessary for authentication of wireless connection in communication via the wireless connection path to the display device. An attachment / detachment means for attaching / detaching the display device directly or indirectly to the arithmetic processing device;
The arithmetic processing unit includes:
Detecting means for detecting that the display device is attached to and detached from the attaching and detaching means;
2. The system according to claim 1, further comprising switching means for switching communication via the wired connection path and communication via the wireless connection path based on a detection result by the detection means. The second transfer means transmits an image image lastly when a change amount of the screen image exceeds a set value after receiving a drawing command, or when more than a set number of drawing commands are processed. When the set time has passed and when the transmission request from the display device is received, it is determined whether or not the image image should be transmitted, and it is determined that the image should be transmitted case, the system of claim 1, wherein the sending the picture image based on the calculated region to be transmitted has been. An operation for communicating data including image information with a display device via a wired connection route and a wireless connection route, and transmitting in advance information necessary for wireless connection with the display device via the wireless connection route A device,
CPU,
A graphics adapter that generates image data based on a drawing command;
A frame memory for developing image data generated by the graphics adapter;
A wireless communication device for sending data for drawing to the display device in a transfer mode using a drawing primitive or a transfer mode for transferring as an image image;
The CPU, when the amount of change of the screen image exceeds a set value, when more than a set number of drawing commands are processed, when a set time has elapsed since the last transmission of the image image And determining whether or not to transmit the image based on at least one of when a transmission request is received from the display device, and if it is determined that transmission is to be performed, an area to be transmitted is calculated. Read the image from the frame memory,
The wireless communication device sends the read image image data to the display device via the wireless connection path instead of the transfer mode using the drawing primitive as the image mode. An arithmetic processing apparatus characterized by that. A data transfer method for communicating data including image information between an arithmetic processing unit and a display device via a wired connection path and a wireless connection path,
Determining whether the display device is connected to the wired connection path;
When the display device is connected to the wired connection path, information necessary for wireless connection with the display device via the wireless connection path is transferred in advance via the wired connection path,
Detecting at least one feature quantity of data size, change amount, effective bandwidth of network, and drawing performance of the display device in communication path in communication via the wireless connection path;
Based on the detected feature quantity, a first transfer method for transferring to the display device by a drawing primitive-based drawing instruction protocol including a screen drawing command, and sending an image image as difference information of a snapshot of the screen image A data transfer method, wherein the second transfer method for transferring data to the display device is switched according to a protocol to be transferred. The data transfer method according to claim 6 , wherein when the display device is connected to the wired connection path, authentication required for the wireless connection is executed. A session ID is transferred from the arithmetic processing device to the display device via the wired connection path,
8. The data transfer method according to claim 7 , wherein the session ID is transferred from the display device to the arithmetic processing unit via the wireless connection path. On the computer,
A function of communicating data including image information between the arithmetic processing unit and the display device via a wired connection path and a wireless connection path;
A function of determining whether the display device is connected to a wired connection path;
A function of transferring information necessary for wireless connection with the display device via the wireless connection path in advance via the wired connection path when the display device is connected to the wired connection path;
A function of detecting at least one feature amount of data size, change amount, effective bandwidth of network, and drawing performance of the display device on a communication path in communication via the wireless connection path;
Based on the detected feature quantity, a first transfer method for transferring to a display device using a drawing primitive-based drawing instruction protocol including a screen drawing command, and sending an image image as difference information of a snapshot of the screen image A program for realizing a function of switching between a second transfer method for transferring to the display device according to a protocol to be performed. 10. The program according to claim 9 , further causing the computer to realize a function of executing authentication required for the wireless connection when the display device is connected to the wired connection path. A computer-readable storage medium storing a program to be executed by a computer,
The program is
Processing for communicating data including image information between the arithmetic processing unit and the display device via a wired connection path and a wireless connection path;
A process of determining whether or not the display device is connected to the wired connection path;
When the display device is connected to the wired connection path, a process of transferring information necessary for wireless connection with the display device via the wireless connection path in advance via the wired connection path;
When the display device is connected to the wired connection path, processing related to authentication required for the wireless connection;
Processing for detecting at least one feature amount of data size, change amount, effective bandwidth of network, and drawing performance of the display device in communication path in communication via the wireless connection path;
Based on the detected feature quantity, a first transfer method for transferring to the display device by a drawing primitive-based drawing instruction protocol consisting of a screen drawing command, and an image image as difference information of a snapshot of the screen image A storage medium that causes the computer to execute a process of switching between a second transfer method for transferring to the display device according to a protocol to be transmitted.

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