A dual-network dual-system mobile device is provided in the disclosure. The mobile device includes a mobile network module, a transfer station module, two computer modules, a switch module, a human-machine interface (HMI), and a casing. The HMI is configured to interact with one computer module and to receive a real-time notification from another computer module. The transfer station module respectively establishes two network channels with two access points through the mobile network module and mobile network. The two network channels are isolated virtually from each other.

BACKGROUND OF THE DISCLOSURE

Technical Field

This disclosure relates to a mobile device, and particularly relates to a dual-network dual-system mobile device.

Related Art

To consider about the data security, the enterprise may lease a private network from a mobile telecommunication provider and conduct the confidential data communication via the private network. The aforementioned private network is completely isolated (any connected device from the public network cannot be connected to the private network) from the public network (for example: the Internet), and the attack from the public network can be avoided.

In order to meet the business needs for teleworking, some enterprises lease the private network from a mobile telecommunication provider for obtaining an access point information so that employees' mobile devices (such as mobile phones or tablets) can be connected to the private network via the access point for the confidential data communication.

However, the related-art single SIM card mobile device can only be connected to one access point at a time and can only be connected to a single network. The employee's mobile device is unable to be connected to the private network and the public network simultaneously, which is inconvenient.

A dual SIM card dual standby mobile device is being proposed. Two SIM cards may be used simultaneously in the aforementioned mobile device to be respectively connected to two access point names (APNs). For example, the APN of the Internet and the APN of the private network may be connected simultaneously to achieve the purpose of connecting with the public network and the private network simultaneously.

However, the aforementioned mobile device may be attacked when connected to the public network, and infected with Trojans, computer viruses or other malicious programs. The infected mobile device may contaminate other network devices on the private network (for example, the other network devices are infected with the same malicious program) during connecting to the private network.

Additionally, another related art is that two computer systems are configured in the same mobile device for the user to switch between the two computer systems. However, when the user operates one of the computer system, the display component of the mobile device (such as smartphone, laptop, tablet, etc.) is unable to display the notification of another computer system instantly.

Therefore, the related-art mobile devices have the aforementioned problems, and, in need, a much more effective solution is to be proposed.

SUMMARY OF THE DISCLOSURE

The main object of the disclosure is to provide a dual-network dual-system mobile device, which is capable of switching control between two independent computer modules, and respectively providing external communication for the two computer modules through two independent network channels. The two independent network channels are virtually isolated with each other. When one of the computer module is operated, the real-time notification of another computer module is displayed simultaneously.

In some embodiments of present disclosure, a dual-network dual-system mobile device, including:

a mobile network module, including:

a wireless communication module, configured to set a user identity recognition module to make the mobile network module connect with a mobile network;

a transfer station module, electrically connected with the mobile network module, and configured to establish a first network channel through the mobile network module and a first access point and to establish a second network channel through the mobile network module and a second access point, wherein the first network channel and the second network channel are virtually isolated with each other;

a first computer module, including:

a first main memory;

a first storage, configured to store a first operating system with a first application;

a first transceiver, electrically connected with the transfer station module;

a first I/O controller, including a first input controller and a first display controller; and

a first processor, electrically connected with the first main memory, the first storage, the first transceiver, and the first I/O controller, and configured to load the first operating system with the first application from the first storage to the first main memory and to run the first operating system with the first application;

a second computer module, including:

a second main memory;

a second storage, configured to store a second operating system with a second application;

a second transceiver, electrically connected with the transfer station module;

a second I/O controller, including a second input controller and a second display controller; and

a second processor, electrically connected with the second main memory, the second storage, the second transceiver, and the second I/O controller, and configured to load the second operating system with the second application from the second storage to the second main memory and to run the second operating system with the second application;

an input assembly, including a touch component configured to trigger a coordinate parameter; and

an output assembly, including a display component configured to display information, wherein each display location of the display component is distinctly corresponding to one touch location of the touch component;

a switch module, configured to switch between a first switch mode and a second switch mode, and including:

a first switcher, electrically connected with the first input controller;

a second switcher, electrically connected with the second input controller;

a third switcher, electrically connected with the first display controller;

a fourth switcher, electrically connected with the second display controller, wherein the first switcher, the second switcher, the third switcher, and the fourth switcher are controlled to switch between a turn-on mode and a turn-off mode;

an input processor, electrically connected with the touch component, and configured to connect with the first switcher and the second switcher to make the first input controller and the second input controller receive the coordinate parameter triggered by the touch component;

a display processor, electrically connected with the display component, and configured to connected with the third switcher and the fourth switcher; and

a switch controller, electrically connected with the first switcher, the second switcher, the third switcher, the fourth switcher, and the input processor, configured to receive the coordinate parameter triggered by the touch component from the input processor, and configured to trigger a first switching signal and a second switching signal, wherein when the switch controller triggers the first switching signal, the first switch mode of the switch module is activated to make the first I/O controller be configured to control the HMI, and the HMI is configured to interact with the first computer module, when the switch controller triggers the second switching signal, the second switch mode of the switch module is activated to make the second I/O controller be configured to control the HMI, and the HMI is configured to interact with the second computer module; and

a casing, partially covering the mobile network module, the transfer station module, the first computer module, the second computer module, the switch module, and the HMI;

wherein the transfer station module is configured to control the first computer module to make the first computer module communicate externally through the first network channel and to control the second computer module to make the second computer module communicate externally through the second network channel distinctly;

wherein the first switch mode configures the first switcher and the third switcher to be the turn-on mode, and configures the second switcher and the fourth switcher to be the turn-off mode; the second switch mode configures the first switcher and the third switcher to be the turn-off mode, and configures the second switcher and the fourth switcher to be the turn-on mode;

wherein the first switcher is switched to the turn-on mode to make the input processor be electrically connected with the first input controller; the first switcher is switched to the turn-off mode to make the input processor be electrically disconnected with the first input controller; the second switcher is switched to the turn-on mode to make the input processor be electrically connected with the second input controller; the second switcher is switched to the turn-off mode to make the input processor be electrically disconnected with the second input controller; the third switcher is switched to the turn-on mode to make the display processor be electrically connected with the first display controller; the third switcher is switched to the turn-off mode to make the display processor be electrically disconnected with the first display controller; the fourth switcher is switched to the turn-on mode to make the display processor be electrically connected with the second display controller; and the fourth switcher is switched to the turn-off mode to make the display processor be electrically disconnected with the second display controller; and

wherein the display processor comprises a two-in-one-out signal combiner.

In summary, the dual-network dual-system mobile device of the disclosure may improve the convenience of using, ensure the information security, and display the real-time notification of another unswitched system on the same display screen.

DETAILED DESCRIPTION OF THE DISCLOSURE

The embodiments of this disclosure will be described with reference to the drawings. These are, of course, merely examples and are not intended to be limiting.

Please refer toFIG. 1. As shown inFIG. 1, a dual-network dual-system mobile device1(such as a smart phone) is provided in the disclosure. Two computer modules (such as the first computer module10and second computer module11described below) independent to each other are disposed in a single mobile device. Further, the two computer modules independent to each other may communicate externally through two network channels virtually isolated to each other.

Specifically, the dual-network dual-system mobile device1includes a first computer module10, a second computer module11, a transfer station module12, a mobile network module13, a switch module14, a human-machine interface (HMI)15, and a casing (such as the casing50shown inFIG. 3orFIG. 4).

The mobile network module13is configured to connect with the mobile network32(such as the beehive network of the mobile telecommunication provider and other network with similar architecture, or the enterprise private Wi-Fi hotspot other network with similar architecture). The mobile network module13is connected to assigned access point (such as the first access point20and/or second access point21described below, for example, the APN equipment of the mobile telecommunication provider, or the enterprise private network equipment of similar function with APN equipment) through the mobile network32. Thus, the mobile network module13is connected with the data network (such as the Internet30or private network31described below) to perform data communication through the connected access point.

The mobile network module13includes a wireless communication module130. The wireless communication module130may have a user identity recognition module (SIM)1300, such that the mobile network module13may be connected to the mobile network32(such as the beehive network of the mobile telecommunication provider and other network with similar architecture) through the wireless communication module130.

The transfer station module12is electrically connected with the mobile network module13, a first transceiver106of the first computer module10, and a second transceiver116of the second computer module11. The transfer station module12may be used to control the mobile network module13to make the mobile network module13connect with multiple access points simultaneously. Thus, the mobile network module13may connect with the multiple data networks through the multiple access points.

For example, the transfer station module12may control the mobile network module13to make the mobile network module13simultaneously connect with the first access point20(such as the APN equipment providing connection service for the Internet30) and the second access point21(such as the APN equipment providing connection service for the private network31). Therefore, the transfer station module12may control the mobile network module13to make the mobile network module13establish a first network channel with the Internet30through the first access point20and establish a second network channel with the private network31through the second access point21simultaneously. The first network channel and the second network channel are virtually isolated to each other.

In some embodiments, each of the established network channel is configured for the designated computer module to use, and the other computer module is unable to share the same network channel. For example, if the first network channel is configured for the first computer module10to use and the second network channel is configured for the second computer module11to use, the first computer module is forbidden to use the second network channel to connect with the second access point21and private network31, and the second computer module11is forbidden to use the first network channel to connect with the first access point20and Internet30simultaneously.

The HMI15may include an input assembly150and an output assembly151.

The input assembly150is configured to receive the user's operation to make the HMI15trigger the corresponding input signal (the signal may be used to indicate parameter). The input assembly150may include a touch component1500, a virtual button, a physical button51as shown inFIG. 3, a switch button52as shown inFIG. 11, an image capture device, and/or a microphone, etc. Here is not intended to be limiting.

The output assembly151is configured to output information (such as displaying the full-screen image of the first computer module10, or displaying the full-screen image of the second computer module11, or broadcasting sound, or displaying message, or displaying computing result, etc.). The output assembly151may include a speaker, an indicating light, and/or a display component1510, etc. Here is not intended to be limiting.

In some embodiments, the user may operate the input assembly150to select computer module (such as the first computer module10). After the selection is finished, the user may interact with the assigned computer module (such as the first computer module10) through the input assembly150and output assembly151.

The first computer module10and second computer module11are computer modules independent to each other. Further, the first computer module10and second computer module11may be a microcomputer system (such as a single chip system) or a mobile computer system (such as a computer system integrated in a single circuit board), and respectively include necessary computer assembly, such as memory, storage, processor, software system, etc.

The first computer module10and second computer module11may be controlled by the user (such as through the HMI150) to make the first computer module10and second computer module11execute the assigned applications (such as sending/receiving email, editing file, transmitting file, etc.).

The first computer module10includes a first main memory101, a first storage102(capable of storing a first operating system103), a first I/O controller105, a first transceiver106, and a first processor100electrically connected with the aforementioned components.

The first main memory101(such as RAM or cache memory) includes a scratchpad memory (such as transitory memory) and is configured to temporarily store the program in execution or the program to be executed, and temporarily store the data in access or the data to be accessed. The first storage102includes a permanent memory (such as non-transitory memory) and is configured to store the program or data in long term, for example, storing the first operating system103such as Window 10, iOS, Android OS, Linux OS, etc.

When the first computer module10is under booting mode, the first processor100is configured to load the first operating system103from the first storage102to the first main memory101, and to run the first operating system103to make the first application104(such as email application, instant messaging application, security monitoring application, etc.) be installed in the first operating system103.

The first transceiver106is electrically connected with the transfer station module12. The first transceiver106is configured to set the data to be transmitted externally (such as transforming to the identifiable format of the transfer station module12and mobile network module13). The first transceiver106may analyze the data from external received by the transfer station module12and mobile network module13.

The first I/O controller105may include one or multiple controllers (not shown in figures). Each controller may be installed with the driver for the assigned component of the HMI15to be used to control the assigned component of the HMI15.

For example, the HMI15includes the input assembly150(the switch button52as shown inFIG. 10, the physical button51and touch component1500as shown inFIG. 3, etc.) and the output assembly151with display component1510. The first I/O controller105may include the first input controller1050, the first display controller1051and the first storage controller used to control data access (not shown in figures).

The first display controller1051is configured to process the image data from the first processor100into the image with identifiable format for the display component1510. The display component1510may display the image (such as video, image button, full-screen image, status bar image of computer module, notification image, etc.).

The first input controller1050is configured to obtain the input signal or parameter from the input assembly150and execute the corresponding process according to the obtained input signal or parameter.

For example, the input assembly150may include touch component1500. The touch component1500and display component1510may be combined to be the touch screen. Multiple touch locations of the touch component1500are respectively corresponding to multiple display locations of the display component1510. The display component1510may display one or multiple image buttons. When any one of the image buttons is being pressed, the touch component1500at the same location is triggered to generate the touch signal or parameter of the location and send that to the first input controller1050. Thus, the user may operate and interact with the first computer module10through pressing the image buttons.

Apart from the aforementioned I/O component, the first computer module10may further include one or multiple first connection components (not shown in figures, such as USB connection port, Wi-Fi connection component, Bluetooth connection component, etc.) electrically connected with the first processor100. The first connection component may be used to connect with external device and perform data access through the first storage controller (such as connecting with the wired storage device through USB connection port and performing read/write to the data stored in the wired storage device through the first storage controller, or connecting with the wireless storage device through Wi-Fi connection component or Bluetooth connection component and performing read/write to the data stored in the wireless storage device through the first storage controller). Here is not intended to be limiting.

The second computer module11includes a second main memory111, a second storage112(capable of storing the second operating system113), a second I/O controller115, a second transceiver116, and a second processor110electrically connected with the aforementioned components. Similar with the first application104being installed in the first operating system103, the second application114(such as email application, instant messaging application, security monitoring application, etc.) is installed in the second operating system113.

The second main memory111, the second storage112, the second operating system113, the second application114, the second I/O controller115(including the second input controller1150and second display controller1151), the second transceiver116, and the second processor110electrically connected with the aforementioned components are respectively the same with or similar to the first main memory101, the first storage102, the first operating system103, the first application104, the first I/O controller105(including the first input controller1050and first display controller1051), the first transceiver106, and the first processor100electrically connected with the aforementioned components, the operating manner and function are omitted here for brevity.

Please refer toFIG. 1andFIG. 2. In some embodiments, the input assembly150includes the touch component1500and the output assembly151includes the display component1510.

The switch module14includes a first switcher141, a second switcher142, a third switcher143, a fourth switcher144, an input processor145, a display processor146, and a switch controller140.

The touch component1500is electrically connected with the input processor145. The input processor145is electrically connected with the first switcher141, the second switcher142, and the switch controller140. The first switcher141is electrically connected with the first input controller1050. The second switcher142is electrically connected with the second input controller1150.

The first input controller1050receives the touch signal or parameter triggered by the touch component1500through the input processor145. Similarly, the second input controller1150receives the touch signal or parameter triggered by the touch component1500through the input processor145. Similarly, the switch controller140receives the touch signal or parameter triggered by the touch component1500through the input processor145.

The display component1510is electrically connected with the display processor146. The display processor146is electrically connected with the third switcher143and the fourth switcher144. The third switcher143is electrically connected with the first display controller1051. The fourth switcher144is electrically connected with the second display controller1151. The display component1510is configured to display image (such as the full-screen image of the first computer module or the full-screen image of the second computer module) or display computing result, etc.

In some embodiments, the input processor145is a one-in-three-out signal distributor, and may transmit the input signal or parameter received from the input processor145to the first switcher141, the second switcher142, and the switch controller140simultaneously.

In some embodiments, the display processor146is a two-in-one-out signal combiner. The display processor146may process the display signal or image received from the third switcher143and the display signal or image received from the fourth switcher144into a single display signal or image, and transmit that to the display component1510.

In some embodiments, the touch component1500and display component1510are combined into the touch screen. Any one of the display locations (such as (x, y) coordinate) of the display component1510has the unique corresponding touch location (such as the same (x, y) coordinate) on the touch component1500.

Please refer toFIG. 1toFIG. 4. In some embodiments, as shown inFIG. 1andFIG. 2, the touch component1500is electrically connected with the input processor145and the display component1510is electrically connected with the display processor146.

In some embodiments, the switch module14is switched to the first switch mode to connect the first computer module10to the HMI15and disconnect the HMI15from the second computer module11. The user may interact with the first computer module10through the HMI15, but unable to interact with the second computer module11.

Specifically, as shown inFIG. 2, the first switch mode of the switch module14configures the first switcher141and the third switcher143to be the turn-on mode, and configures the second switcher142and the fourth switcher144to be the turn-off mode.

Under the status, the touch component1500connected with the input processor145is connected with the first input controller1050through the first switcher141(turn-on mode) to transmit the input signal to the first input controller1050. The first display controller1051connected with the third switcher143(turn-on mode) is connected with the display component1510through the display processor146to transmit the display signal to the display component1510.

Further, the touch component1500connected with the input processor145is unable to connect with the second input controller1150through the second switcher142(turn-off mode) and unable to directly transmit the touch signal or parameter to the second input controller1150. The second display controller1151is unable to connect with the display processor146through the fourth switcher144(turn-off mode) and unable to directly control the display content of the display component1510.

As shown inFIG. 3, the HMI15includes the touch component1500and display component1510. The display component1510is configured to display the full-screen image of the first computer module10under the first switch mode. The user may input command or data to the first computer module10through pressing or touching the touch component1500under the first switch mode.

The full-screen image of the first computer module10includes the image of status bar (for example, displaying the status information image such as time, network connection, battery, instant message, etc.) on partial region (the first partial region60, such as the display region of status bar) and the image of applications area (for example, displaying the image such as file folder, browser, first application104, etc.) on partial region (the second partial region61, such as the display region of main screen).

As shown inFIG. 4, when the first computer module10is configured to receive the new message for the first application104from external under the first switch mode, the first operating system103transmits the new message to the first application104for the display component1510to display the notification image of the new message (for example, the image1041of the first application104on the first partial region60, or the partial message content1040of the first application104on partial region, that is the third partial region62, such as the partial display region in the main screen).

Thus, the user may interact with the first computer module10through the HMI15and receive new external message.

Please refer toFIG. 1toFIG. 7. In some embodiments, the switch module14is switched to the second switch mode to connect the second computer module11to the HMI15and disconnect the HMI15from the first computer module10. The user may interact with the second computer module11through the HMI15, but unable to interact with the first computer module10.

Specifically, as shown inFIG. 5, the second switch mode of the switch module14configures the first switcher141and the third switcher143to be the turn-off mode, and configures the second switcher142and the fourth switcher144to be the turn-on mode.

Under the status, the touch component1500connected with the input processor145is connected with the second input controller1150through the second switcher142(turn-on mode) to transmit the input signal to the second input controller1150. The second display controller1151connected with the fourth switcher144(turn-on mode) is connected with the display component1510through the display processor146to transmit the display signal to the display component1510.

Further, the touch component1500connected with the input processor145is unable to connect with the first input controller1050through the first switcher141(turn-off mode) and unable to directly transmit the touch signal or parameter to the first input controller1050. The first display controller1051is unable to connect with the display processor146through the third switcher143(turn-off mode) and unable to directly control the display content of the display component1510.

As shown inFIG. 6, the HMI15includes the touch component1500and display component1510. The display component1510is configured to display the full-screen image of the second computer module11under the second switch mode. The user may input command or data to the second computer module11through pressing or touching the touch component1500under the second switch mode.

The full-screen image of the second computer module11includes the image of status bar (for example, displaying the status information image such as time, network connection, battery, instant message, etc.) on partial region (the first partial region60) and the image of applications area (for example, displaying the image such as file folder, browser, second application114, etc.) on partial region (the second partial region61).

As shown inFIG. 7, when the second computer module11is configured to receive the new message for the second application114from external under the second switch mode, the second operating system113transmits the new message to the second application114for the display component1510to display the notification image of the new message (for example, the image1141of the second application114on the first partial region60, or the partial message content1140of the second application114on partial region, that is the third partial region62).

Thus, the user may interact with the second computer module11through the HMI15and receive new external message.

Please refer toFIG. 1toFIG. 8. In some embodiments, the input assembly150includes the switch component1501(such as physical button51) electrically connected with the input processor145. The switch controller140is electrically connected with the first switcher141, the second switcher142, the third switcher143, the fourth switcher144, and the input processor145.

When the switch component1501is pressed by the user, the corresponding input parameter or signal (such as (x, y) coordinate parameter, the triggering parameter of the physical button51may be (x, y) coordinate parameter) may be triggered to the input processor145. The input processor145is configured to receive the coordinate parameter of the switch component1501to transmit that to the switch controller140. When the switch controller140is configured to receive the coordinate parameter from the switch component1501through the input processor145, the corresponding switch signal (such as the first switch signal for switching to the first switch mode, the second switch signal for switching to the second switch mode, or the third switch signal for switching to the third switch mode as described below) is triggered.

When the first switcher141, the second switcher142, the third switcher143, and the fourth switcher144are configured to receive the corresponding switch signal, the corresponding switch mode of the switch module14is being activated (such as the first switch mode, second switch mode, and/or third switch mode as described below).

For example, the switch component1501may be the physical button51. When the physical button51is pressed by the user for the first time, the physical button51triggers a first coordinate parameter (such as (0, 0)), and the switch controller140receives the coordinate parameter from the physical button51through the input processor145. The switch controller140triggers the first switch signal according to the parameter. Thus, when the first switcher141, the second switcher142, the third switcher143, and the fourth switcher144receive the first switch signal from the switch controller140, the first switch mode is activated.

When the physical button51is pressed by the user for the second time, the physical button51triggers the same first coordinate parameter, and the switch controller140receives the coordinate parameter from the physical button51through the input processor145. The switch controller140triggers the second switch signal according to the parameter. Thus, when the first switcher141, the second switcher142, the third switcher143, and the fourth switcher144receive the second switch signal from the switch controller140, the second switch mode is activated.

When the physical button51is pressed by the user for the third time, the physical button51triggers the same first coordinate parameter, and the switch controller140receives the coordinate parameter from the physical button51through the input processor145. The switch controller140triggers the third switch signal according to the parameter. Thus, when the first switcher141, the second switcher142, the third switcher143, and the fourth switcher144receive the third switch signal from the switch controller140, the third switch mode is activated.

When the physical button51is pressed by the user for the fourth time, the physical button51triggers the same first coordinate parameter, and the switch controller140receives the coordinate parameter from the physical button51through the input processor145. The switch controller140triggers the first switch signal according to the parameter. Thus, when the first switcher141, the second switcher142, the third switcher143, and the fourth switcher144receive the first switch signal from the switch controller140, the first switch mode is activated, etc.

In some embodiments, the dual-network dual-system mobile device1further includes a casing50. The casing50may cover entirety or part of all or part of the components in the dual-network dual-system mobile device1to provide protection in different levels.

Please refer toFIG. 1toFIG. 12. As shown inFIG. 9, in some embodiments, the display processor146is electrically connected with the connection terminal of the second computer module11at the fourth switcher144through a direct connecting electric circuit. When the fourth switcher144detects the notification image (such as the image1141of the second application114on the first partial region60or the partial message content1140on the third partial region62as shown inFIG. 7) from the second computer module11under the first switch mode, the fourth switcher144transmits the first signal (indicating the first parameter) to the display processor146through the direct connecting electric circuit.

As shown inFIG. 10, in some embodiments, the display processor146is configured to store the image of the switch button52.

When the display processor146receives the first signal under the first switch mode, the display processor146transmits the first signal to the switch controller140, and processes the image of the switch button52and the full-screen image of the first computer module10from the third switcher143into a new image (first image).

As shown inFIG. 11, in some embodiments, the display component1510is configured to receive the first image from the display processor146. The display component1510displays the image of virtual switch button52by overlapping that on the partial region (such as the fourth partial region63as the partial region shown on the main screen) of the full-screen image of the first computer module10.

As shown inFIG. 11andFIG. 12, in some embodiments, when any coordinate in the fourth partial region63is pressed, the switch controller140receives the coordinate parameter according to the first signal and triggers the second switch signal. Thus, the second switch mode of the switch module14is activated as shown inFIG. 5.

Therefore, when the image of the virtual switch button52is pressed by the user under the first switch mode, the second switch mode of the switch module14is activated.

Please refer toFIG. 13toFIG. 16. As shown inFIG. 13, the display processor146is electrically connected with the connection terminal of the first computer module10at the third switcher143through a direct connecting electric circuit. When the third switcher143detects the notification image (such as the image1041of the first application104on the first partial region60or the partial message content1040on the third partial region62as shown inFIG. 7) from the first computer module10under the second switch mode, the third switcher143transmits the second signal (indicating the second parameter) to the display processor146through the direct connecting electric circuit.

As shown inFIG. 14, in some embodiments, the display processor146is configured to store the image of the switch button52.

When the display processor146receives the second signal under the second switch mode, the display processor146transmits the second signal to the switch controller140, and processes the image of the switch button52and the full-screen image of the second computer module11from the fourth switcher144into a new image (second image).

As shown inFIG. 15, in some embodiments, the display component1510is configured to receive the second image from the display processor146. The display component1510displays the image of virtual switch button52by overlapping that on the partial region (such as the fourth partial region63) of the full-screen image of the second computer module11.

As shown inFIG. 15andFIG. 16, in some embodiments, when any coordinate in the fourth partial region63is pressed, the switch controller140receives the coordinate parameter according to the second signal and triggers the first switch signal. Thus, the first switch mode of the switch module14is activated as shown inFIG. 2.

Therefore, when the image of the virtual switch button52is pressed by the user under the second switch mode, the first switch mode of the switch module14is activated.

Please refer toFIG. 17andFIG. 18. In some embodiments, as shown inFIG. 14, the switch controller140with the first switcher141, the second switcher142, the third switcher143, the fourth switcher144, the input processor145, and the display processor146. The third switch mode of the switch module14is that the first switcher141is the turn-on mode, the second switcher142is the turn-on mode, the third switcher143is the turn-on mode, and the fourth switcher144is the turn-on mode.

When the first switcher141, the second switcher142, the third switcher143, and the fourth switcher144are configured to receive the third switch signal from the switch controller140, the third switch mode is activated.

In some embodiments, as shown inFIG. 18, the display component1510displays the full-screen image of the first computer module10on the partial region (the fifth partial region64, such as half of the region) and the full-screen image of the second computer module11on the partial region (the sixth partial region65, such as half of the region). The fifth partial region64of the display component1510(such as location and/or size) is equal to the fifth partial region64of the touch component1500(such as the display location and the corresponding touch location being overlapped). The sixth partial region65of the display component1510(such as location and/or size) is equal to the sixth partial region65of the touch component1500(such as the display location and the corresponding touch location being overlapped). The fifth partial regions64of the display component1510and the touch component1500are overlapped. The sixth partial regions65are overlapped as well.

As shown inFIG. 17andFIG. 18, in some embodiments, when the display processor146is configured to receive the third switch signal, the display processor146processes the full-screen image from the first computer module10and the full-screen image from the second computer module11into a new image (third image). The display component1510receives the new image from the display processor146. Thus, the display component1510displays the full-screen image of the first computer module10on the fifth partial region64and displays the full-screen image of the second computer module11on the sixth partial region65.

In some embodiments, when the input processor145is configured to receive the third switch signal, the input processor145only transmits the coordinate parameter from the fifth partial region64to the first input controller1050through the first switcher141, and only transmits the coordinate parameter from the sixth partial region65to the second input controller1150through the second switcher142.

Thus, the user may respectively interact with the first computer module10or the second computer module11through the HMI15at the same display screen.

Please refer toFIG. 19. In some embodiments, the mobile network module13is unable to directly connect with the mobile network32and needs the wireless modem40to connect with the mobile network32. Specifically, the mobile network module13may include the connection component131(wired or wireless connection port, such as Wi-Fi, Bluetooth, RJ-45, or USB, female connection port as the wired connection port), and is connected with the wireless modem40through the connection component131in a wired manner (such as USB, transmission line or network wire, for example, inserting the male connection component on one end of the transmission line to the female connection port) or wireless manner (such as Wi-Fi protocol or Bluetooth protocol). As a result, the mobile network module13may connect with the mobile network32through the wireless modem40. Further, the user identity recognition module (SIM)1300may be disposed in the wireless modem40and operated for the connection with the mobile network32. The user identity recognition module1300may be a physical SIM card in any size or embedded SIM card (or e-SIM). Here is not intended to be limiting.

Specifically, the wireless modem40is configured to analyze the user identity data in the user identity recognition module1300and use the user identity data for the registration to the mobile network32(such as the base station, or registration center, or subscriber management center, etc.) to acquire the network authority.

In some embodiments, the wireless modem40may obtain the name information of the Internet access point (such as the instant information of the APN of the Internet provided by the mobile telecommunication provider at the time), and be set to be the first access point parameter for connecting the Internet30according to the name information of the Internet access point.

Further, after the first access point parameter is set, the transfer station module12may be set with the second access point parameter for connecting with the private network31by the operation of adding access point (such as solely inputting the specific content of the second access point parameter).

It should be noted that the mobile network module13may lack for the ability of mobile networking (such as only having Wi-Fi networking function or wired networking function), or be incompatible with the local mobile network frequency band (such as LTE-Advanced or 5G NR communication standard), under that condition, the disclosure uses the connection component131to connect the wireless modem40, which supports the aforementioned communication standard, for connecting with the mobile network32in the desired Internet quality.

The mobile network module13includes a connection component131. The connection component131is configured to connect with the wireless modem40through the transmission line to make the mobile network module13connect with the mobile network32through the wireless modem40.

Although this disclosure has been described with reference to the foregoing preferred embodiment, it will be understood that the disclosure is not limited to the details thereof. Various equivalent variations and modifications can still occur to those skilled in this art in view of the teachings of this disclosure. Thus, all such variations and equivalent modifications are also embraced within the scope of the disclosure as defined in the appended claims.