CN107340851B - Interactive system and method for controlling remote multiple points - Google Patents

Abstract

An interactive system for controlling remote multipoint and a method thereof are executed by a Portable navigation device (Portable navigation device), and an interactive system comprising the Portable navigation device, a Host device (Host) and at least one controlled device is established by the Portable navigation device, wherein the Portable navigation device, the Host device and the controlled device realize mutual communication by at least one communication protocol. The host device can receive an interactive interface provided by the controlled device respectively. The portable navigation device operates a cursor associated with the host device, and controls the controlled device corresponding to the interactive interface according to an action state of the cursor in each interactive interface so as to execute a function corresponding to the action state. Therefore, the invention can realize the purpose of using the portable navigation device to control the controlled device or carry out data transmission through the host device.

Description

Interactive system and method for controlling remote multiple points

Technical Field

The present invention relates to an interactive system and method thereof, and more particularly, to an interactive system and method thereof executed by a portable navigation device (portable navigation device) for controlling remote multiple points.

Background

Today, computer devices are widely used in the life and work of everyone, and interface devices for operating computers are increasingly paid more attention by users, and more precision, comfort and multi-functionality are sought, and improvement of interface devices such as keyboards and mice is also increasingly paid more attention by manufacturers.

The portable navigation device, such as a Pen (Pen mouse), is a new Pen-type mouse improved product, so that the mouse has a Pen-type shape, and a user can write characters by using the Pen to operate the computer device, and the portable navigation device not only can be used for drawing or other operations and is better than the existing mouse.

However, the existing mouse pen only replaces the mouse to control the cursor indication of the computer device by the moving direction and the track, and has no other more convenient control function, and there is still much room for improvement in controlling the computer device and various electronic devices.

Disclosure of Invention

An embodiment of the present invention provides an interactive system, including: a portable navigation device (portable device); a Host device (Host); and at least one controlled device; the portable navigation device establishes an interactive system comprising a host device and a controlled device, and the mutual communication among the portable navigation device, the host device and the controlled device is realized through at least one communication protocol; the host device receives an interactive interface provided by at least one controlled device; under the interactive system, the portable navigation device operates at least one of a cursor related to the host device, a program for starting the host device or the controlled device and an output state of an application program for controlling the host device or the controlled device, wherein the controlled device corresponding to the interactive interface is controlled according to an action state of the cursor in the interactive interface to execute a function corresponding to the action state.

Preferably, the function is data transmission, and executing the action state enables the host device and the controlled device corresponding to the interactive interface to perform data transmission through the portable navigation device, or enables the host device and the controlled device corresponding to the interactive interface to perform data transmission directly.

Preferably, the portable navigation device further has a microphone, the microphone receives an audio signal provided by a user, and the portable navigation device controls the host device and one of the controlled devices to execute a voice control function corresponding to the audio signal according to the audio signal.

Preferably, the portable navigation device establishes the interactive system after receiving a start signal, wherein the start signal is one or a combination of a track signal and an audio signal generated by the movement of the portable navigation device and an input signal generated by pressing at least one button of the portable navigation device.

Preferably, the communication protocol is at least one of Bluetooth (Bluetooth), Wi-Fi, Near Field Communication (NFC), ZigBee (ZigBee), and Radio Frequency IDentification (RFID).

Preferably, the interactive system further comprises a central control device, and the portable navigation device establishes the interactive system comprising the host device and the controlled devices through the central control device.

Preferably, the interactive system further comprises a lock seat, and the portable navigation device further comprises a pattern for identifying the lock seat so as to lock or latch the lock seat.

The embodiment of the invention provides an interaction method for controlling remote multipoint, which is executed by a Portable navigation device (Portable navigation device), and comprises the following steps: establishing an interactive system through the portable navigation device, wherein the interactive system comprises the portable navigation device, a Host device (Host) and at least one controlled device, and the mutual communication among the portable navigation device, the Host device and the controlled device is realized through at least one communication protocol; enabling the host device to receive an interactive interface provided by at least one controlled device; and under the interactive system, operating at least one of a cursor related to the host device, a program for starting the host device or the controlled device and an output state of an application program for controlling the host device or the controlled device through the portable navigation device, wherein the controlled device corresponding to the interactive interface is controlled according to an action state of the cursor in the interactive interface, and a function corresponding to the action state is executed.

Preferably, the function is data transmission, and executing the action state enables the host device and the controlled device corresponding to the interactive interface to perform data transmission through the portable navigation device, or enables the host device and the controlled device corresponding to the interactive interface to perform data transmission directly.

Preferably, the portable navigation device further includes a microphone for receiving an audio signal provided by a user, and the portable navigation device controls the host device and one of the controlled devices to execute a voice control function corresponding to the audio signal according to the audio signal.

Preferably, the portable navigation device establishes the interactive system after receiving a start signal, wherein the start signal is one or a combination of a track signal and an audio signal generated by the movement of the portable navigation device and an input signal generated by pressing at least one button of the portable navigation device.

Preferably, the communication protocol is at least one of Bluetooth (Bluetooth), Wi-Fi, Near Field Communication (NFC), ZigBee (ZigBee), and Radio Frequency IDentification (RFID).

Preferably, the portable navigation device establishes an interactive system comprising the host device and the controlled devices through a central control device.

Preferably, the portable navigation device has a pattern thereon, and the pattern is used for the lock seat to identify so as to lock or latch the lock seat.

In summary, the interactive system and the method for controlling remote multiple points provided in the embodiments of the present invention establish an interactive system including a portable navigation device, a host device and at least one controlled device through the portable navigation device, so as to achieve the purpose of using the portable navigation device to control the controlled device or perform data transmission through the host device, and make operations and data transmission between various computers and electronic devices more convenient and diversified.

For a further understanding of the techniques, methods and technical effects of the invention to achieve the stated objectives, reference should be made to the following detailed description of the invention, taken in conjunction with the accompanying drawings, which are included to provide a further understanding of the invention, its objects, features and characteristics, and to the accompanying drawings and claims, which are included to provide a further understanding of the invention, and are not intended to be limiting.

Drawings

FIG. 1 is a diagram illustrating an application of an interactive system for controlling remote multipoint services according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating an application of the interactive system for controlling remote multi-point according to another embodiment of the present invention;

FIG. 3 is a diagram illustrating an interactive system for controlling multiple remote points according to another embodiment of the present invention;

fig. 4A and 4B are schematic diagrams of an interactive system for controlling multiple remote points according to another embodiment of the present invention;

FIG. 5 is a flowchart of an interactive method for controlling remote multiple points according to an embodiment of the present invention;

FIG. 6 is a flowchart illustrating an interactive method for controlling remote multiple points according to another embodiment of the present invention;

FIG. 7 is a flowchart illustrating an interactive method for controlling remote multiple points according to another embodiment of the present invention;

fig. 8 is a flowchart of an interactive method for controlling remote multiple points according to another embodiment of the present invention.

Detailed Description

Various exemplary embodiments will be described more fully hereinafter with reference to the accompanying drawings, in which some exemplary embodiments are shown. The inventive concept may, however, be embodied in many different forms and should not be construed as limited to the exemplary embodiments set forth herein. Rather, these exemplary embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the inventive concept to those skilled in the art. In the drawings, like numerals refer to like elements throughout.

It will be understood that, although the terms first, second, third, etc. may be used herein to describe various components or signals, etc., these components or signals should not be limited by these terms. These terms are used to distinguish one element from another element, or from one signal to another signal. Further, as used herein, the term "or" may include all combinations of any one or more of the associated listed items as appropriate.

Please refer to fig. 1, which is a schematic diagram illustrating an application of an interactive system for controlling remote multiple points according to an embodiment of the present invention. As shown, the interactive system 10 includes a portable navigation device 11, a host device 13 and a controlled device 15. The portable navigation device 11 has a detection unit 111, a button 113 and a microphone 115. The host device 13 has a display module 131. The interactive system for controlling remote multiple points of the present invention has at least one controlled device 15, and the present embodiment takes one controlled device 15 as an example. The portable navigation device 11 may be a mouse Pen (Pen mouse), but not limited thereto.

The portable navigation device 11 can establish an interactive system including the portable navigation device 11, the Host device 13(Host) and the controlled device 15 after receiving an activation signal. Wherein the portable navigation device 11, the host device 13 and the controlled device 15 communicate with each other by at least one communication protocol. The activation signal may be a track signal generated by the detection unit 111 detecting the movement of the portable navigation device 11, an audio signal provided by a user's voice received by the microphone 115, or an input signal generated by the button 113 of the portable navigation device 11 being pressed, but not limited thereto. The Communication protocol may be at least one of Bluetooth (Bluetooth), Wi-Fi, Near Field Communication (NFC), ZigBee, and Radio Frequency IDentification (RFID), but not limited thereto. The detecting unit 111 of the portable navigation device 11 can be an optical displacement sensor, but not limited thereto.

The controlled device 15 has an interactive interface 151 for the user to browse or operate. After the interactive system is established, the host device 13 can receive the interactive interface 151 'corresponding to the interactive interface 151 provided by the controlled device 15, and display the interactive interface 151' on the display module 131. The user can operate the portable navigation device 11 to move, and the detection unit 111 of the portable navigation device 11 can detect the movement of the portable navigation device 11 to operate a cursor 133 displayed on the display module 131 of the host device 13. At this time, the user can operate the portable navigation device 11 to control the cursor 133 to perform an action state, such as clicking or dragging. The host device 13 can control the controlled device 15 according to the action status of the cursor 133 on the interactive interface 151' to execute a function corresponding to the action status.

For example, as shown in fig. 1, the controlled device 15 is a smart phone, and the interactive interface 151 is a music player interface. After the interactive system is established, the host device 13 can receive the interactive interface 151 'corresponding to the interactive interface 151 from the controlled device 15, and display the interactive interface 151' on the display module 131. At this time, the user can operate the portable navigation device 11 to control the cursor 133 to execute an action state, such as clicking or dragging, on the interactive interface 151 'to control the controlled device 15 corresponding to the interactive interface 151' to execute the function corresponding to the action state. For example, the user can operate the portable navigation device 11 to click the "play" block in the interactive interface 151 'to enable the controlled device 15 to execute the corresponding music playing function, or click the "next/previous" block in the interactive interface 151' to enable the controlled device 15 to execute the track skipping function. Or the portable navigation device 11 can be operated to click and drag the interactive interface 151' to change the position displayed on the display module 131. Thereby achieving the purpose of using the portable navigation device 11 to operate the controlled device 15 through the host device 13.

In an embodiment of the present invention, the portable navigation device 11 is connected to the Host device 13 and the controlled device 15 respectively after receiving the activation signal, so as to establish an interactive system including the portable navigation device 11, the Host device 13(Host) and the controlled device 15, wherein the Host device 13 and the controlled device 15 are not directly connected to each other. When the host device 13 is used to operate the controlled device 15, the host device 13 receives the interactive interface 151 'corresponding to the interactive interface 151 provided by the controlled device 15 through the connection between the portable navigation device 11 and the controlled device 15, at this time, the controlled device 15 first transmits the data of the interactive interface 151 to the portable navigation device 11, the portable navigation device 11 then transmits the data of the interactive interface 151 to the host device 13, and the host device 13 displays the interactive interface 151' corresponding to the interactive interface 151 on the display module 131. When the portable navigation device 11 is used to operate the controlled device 15 or perform data transmission through the host device 13, the host device 13 also performs data operation or data transmission through the connection between the portable navigation device 11 and the controlled device 15.

In an embodiment of the present invention, after receiving the activation signal, the portable navigation device 11 is connected to the Host device 13 and the controlled device 15, and the Host device 13 is connected to the controlled device 15 to establish an interactive system including the portable navigation device 11, the Host device 13(Host), and the controlled device 15. When the host device 13 is used to operate the controlled device 15, the host device 13 directly receives the interactive interface 151' corresponding to the interactive interface 151 provided by the controlled device 15 through the connection between the host device 13 and the controlled device 15, and directly performs functions such as operation or data transmission with the controlled device 15.

In an embodiment of the present invention, the user can perform voice operation through the microphone 115 of the portable navigation device 11. The microphone 115 can receive an audio signal provided by the user, and the portable navigation device 11 controls the host device 13 and/or the controlled device 15 to execute a voice control function corresponding to the audio signal according to the audio signal. For example, the user says: the portable navigation device 11 controls the controlled device 15 through the host device 13 to play music. The user says that: the portable navigation device 11 controls the controlled device 15 through the host device 13 to pause the music. The user can also control the operation of the host device 13 by voice through the microphone 115.

In an embodiment of the present invention, the user can record the voice by using the microphone 115 of the portable navigation device 11, and store the file data obtained by recording in the host device 13 and/or the controlled device 15, so as to record the voice by using the portable navigation device 11.

In an embodiment of the present invention, the detecting unit 111 of the portable navigation device 11 may have a pressure sensing function, and sense the force of the user pressing the operation surface of the portable navigation device 11 to generate a pressure signal, so as to control the host device 13 to perform operations such as clicking and pressing. In practical applications, the pressure signal generated by pressing the portable navigation device 11 can be used to express the depth of the drawing color, or different pressing forces can correspond to different functions.

In an embodiment of the present invention, the portable navigation device 11 further has a motion sensor (not shown), and the motion sensor may be at least one of a displacement sensor, a velocity sensor, an acceleration sensor, a force sensor, a strain sensor, a vibration sensor, a torque sensor and a direction sensor, but not limited thereto. The user can operate the portable navigation device 11 to perform shaking or vibrating actions, so that the action sensor generates an action signal to control the host device 13 or the controlled device 15 to perform actions such as a start-up procedure or an operation procedure.

In an embodiment of the invention, after the interactive system is established, the host device 13 can receive the interactive interface 151 'corresponding to the interactive interface 151 from the controlled device 15 and display the interactive interface 151' on the display module 131. Under the interactive system, the portable navigation device 11 can start a program of the host device 13 or the controlled device 15. For example, the user may start a program of the host device 13 or the controlled device 15 by voice through the microphone 115, for example, the user says: "browser" may then launch a web browser program of the host device 13 or the controlled device 15 for web browsing. Or the user says: "player" can start the playing program of the host device 13 or the controlled device 15 to play music or movie. For example, the user may perform a shaking or vibrating motion through a motion sensor (not shown) of the portable navigation device 11, so that the motion sensor generates a motion signal to start a program of the host device 13 or the controlled device 15 corresponding to the motion signal. Or for example, the user can operate the portable navigation device 11 to move to generate a track signal, so as to start a program of the host device 13 or the controlled device 15 corresponding to the track signal.

In an embodiment of the invention, after the interactive system is established, the host device 13 can receive the interactive interface 151 'corresponding to the interactive interface 151 from the controlled device 15 and display the interactive interface 151' on the display module 131. Under this interactive system, the portable navigation device 11 can control the output status of a program of the host device 13 or the controlled device 15. For example, the user can control the output state of a program of the host device 13 or the controlled device 15 by voice control through the microphone 115, taking a music playing program as an example, the user says: the "loud/soft" can control the volume output state of the music playback program of the host device 13 or the controlled device 15 to control the volume. Or the user may say: "previous/next", controls the output state of the played music of the music playing program of the host apparatus 13 or the controlled apparatus 15 to perform control of selecting music. For example, the user may perform a shaking or vibrating motion through a motion sensor (not shown) of the portable navigation device 11, so that the motion sensor generates a motion signal to control a program of the host device 13 or the controlled device 15 to correspond to an output state of the motion signal. Taking a web browser program as an example, the user can shake the portable navigation device 11 to control the web page scrolling of the browser program. Or, for example, the user can operate the portable navigation device 11 to move to generate a track signal, so as to control a program of the host device 13 or the controlled device 15 to correspond to the output state of the track signal. Taking a web browser program as an example, the user can operate the portable navigation device 11 to move up/down to generate a track signal to control the web page of the browser program to scroll up/down, so as to achieve the purpose of controlling the web page of the browser program to scroll by the track.

The host device 13 and/or the controlled device 15 may be a desktop computer, a notebook computer, a smart tv, a stereo, a video player, a smart phone, a tablet computer, or an intelligent wearable device, but not limited thereto. For example, when the host device 13 is a desktop computer and the controlled device 15 is a smart phone. The user can use the portable navigation device 11 to operate the desktop computer to control the smart phone, perform data transmission between the smart phone and the desktop computer, or control the smart phone to perform various functions.

Or when the host device 15 is a smart tv and the controlled device 15 is a tablet computer. The user can use the portable navigation device 11 to operate the smart tv to control the tablet computer, perform data transmission between the tablet computer and the smart tv, or operate the tablet computer to perform various functions. Therefore, the interactive system for controlling remote multipoint established by the portable navigation device 11 of the present invention makes the operation and data transmission between various computers and electronic devices more convenient and diversified.

Please refer to fig. 2, which is a diagram illustrating an application of an interactive system for controlling remote multiple points according to another embodiment of the present invention. As shown, the interactive system 20 includes a portable navigation device 11, a host device 13 and a controlled device 17. The portable navigation device 11 has a detection unit 111, a button 113 and a microphone 115. The host device 13 has a display module 131. The interactive system for controlling remote multiple points of the present invention has at least one controlled device 17, and the present embodiment takes one controlled device 17 as an example. The portable navigation device 11 may be a mouse Pen (Pen mouse), but not limited thereto.

The difference from the embodiment shown in fig. 1 is that: in the embodiment, the controlled device 17 itself does not have an interactive interface, for example, the controlled device 17 may be an intelligent bracelet without a screen, but is not limited thereto. As shown, the controlled device 17 itself has no interactive interface, and after the interactive system is established, the host device 13 can receive the interactive interface 171 provided by the controlled device 17 and display the interactive interface 171 on the display module 131. At this time, the user can operate the portable navigation device 11 to control the cursor 133 to execute an action state, such as clicking or dragging, on the interactive interface 171, so as to control the controlled device 17 corresponding to the interactive interface 171 to execute the function corresponding to the action state. Thereby achieving the purpose of using the portable navigation device 11 to operate the controlled device 17 through the host device 13.

As shown in fig. 2, the interactive interface 171 provided by the controlled device 17 can be, for example, a file management program interface, which can display images of various file data stored in the controlled device 17, the host device 13, or a cloud network. The user can operate the portable navigation device 11 to control the cursor 133 to execute an action state on the interactive interface 171, so as to control the controlled device 17 corresponding to the interactive interface 171 to execute the function corresponding to the action state. For example, the user can operate the portable navigation device 11 to click and drag an image of a certain file data in the interactive interface 171 to another position of the display screen of the display module 131, so as to copy the file data to the host device 13. The file data image of the host device 13 displayed on the display module 131 can be clicked and dragged to the interactive interface 171, so that the file data can be copied to the controlled device 17. The portable navigation device 11 is used to operate the controlled device 17 through the host device 13 for data transmission.

The data transmission may be performed by the host device 13 and the controlled device 17 corresponding to the interactive interface 171 through the portable navigation device 11. At this time, the host device 13 can first transmit data to the portable navigation device 11, and the portable navigation device 11 then transmits data to the controlled device 17. Therefore, the data transmission can be performed through the portable navigation device 11 without directly connecting the host device 13 and the controlled device 17, so that the interactive system of the present invention is more simple and convenient in data transmission application.

The host device 13 and the controlled device 17 can directly transmit data, and the direct data transmission mode can make the transmission more direct and faster.

Please refer to fig. 3, which is a schematic diagram of an interactive system for controlling multiple remote points according to another embodiment of the present invention. As shown, the interactive system 30 includes a portable navigation device 11, a host device 13, a controlled device 15 and a central control device 31. The difference from the embodiment shown in fig. 1 is that the interactive system 30 in the embodiment further has a central control device 31, and the central control device 31 has an insertion hole 313. The insertion hole 313 can be used for inserting the portable navigation device 11 when not in use, so as to facilitate storage, and also can have a charging function to charge the portable navigation device 11.

The central control device 31 can be connected with the portable navigation device 11, the host device 13 and/or the controlled device 15 in a wired or wireless manner. When the interactive system is established, the portable navigation device 11 can establish the interactive system including the host device 13 and the controlled device 15 through the central control device 31 after receiving the activation signal. The user can operate the portable navigation device 11 through the connection of the central control device 31 to control the cursor 133 of the host device 13, so as to achieve the purpose of using the portable navigation device 11 to operate the controlled device 15 or perform data transmission by using the host device 13 through the central control device 31.

When executing the data transmission function, the host device 13 can first transmit data to the portable navigation device 11 through the central control device 31, and the portable navigation device 11 then transmits the data to the controlled device 15 corresponding to the interactive interface 151'. Or the host device 13 can transmit data to the controlled device 15 via the central control device 31.

The central control device 31 can make the application of the interactive system for controlling remote multiple points more diversified. For example, the central control device 31 itself may have an external power supply to charge the portable navigation device 11 through the jack 313 and to place and store the portable navigation device 11 when not in use. For example, the central control device 31 can be connected to the host device 13 by a wire, so that the central control device 31 can charge the portable navigation device 11 with the power provided by the host device 13. Under the application of wireless connection between the portable navigation device 11 and the central control device 31 and wired connection between the central control device 31 and the host device 13, the wireless communication transmission between the wireless transmission module (not shown) of the central control device 31 and the wireless transmission module (not shown) of the portable navigation device 11 can be optimally matched during product design, so that the portable navigation device 11 has the best wireless connection quality when operating in the application of the interactive system of the present invention, and is not limited by the existing wireless transmission module (not shown) of the host device 13.

Please refer to fig. 4A and 4B, which are schematic diagrams illustrating an interactive system for controlling remote multiple points according to another embodiment of the present invention. As shown, the interactive system 50 includes a portable navigation device 11 and a lock base 51. Wherein, the portable navigation device 11 has a pattern 117, and the lock base 51 has an identification unit 511. The portable navigation device 11 may be a mouse pen (Penmouse), but not limited thereto.

As shown in fig. 4A, the pattern 117 of the portable navigation device 11 can be any pattern, bar code, etc., but is not limited thereto. The lock holder 51 may be attached to a door, a safe, a vehicle, or the like to perform operations such as locking, unlocking, or activating, but is not limited thereto. The identification unit 511 of the lock seat 51 may be an optical scanning identifier, but is not limited thereto.

As shown in fig. 4B, the portable navigation device 11 can be partially inserted into the lock seat 51, so that the recognition unit 511 of the lock seat 51 can recognize the pattern 117 of the portable navigation device 11. After the identification unit 511 identifies, if the pattern 117 of the portable navigation device 11 matches the comparison data (not shown in the figure) pre-stored in the lock seat 51, the operation of locking/locking or starting can be performed. By providing the pattern 117 on the portable navigation device 11 and matching with the lock seat 51, the portable navigation device 11 of the present invention can have a locking/locking function, so that the application thereof is more diversified.

Fig. 5 is a flowchart of an interaction method for controlling remote multiple points according to an embodiment of the present invention, and please refer to fig. 1. The interactive method for controlling remote multiple points of the present invention has at least one controlled device 15, and the present embodiment takes one controlled device 15 as an example. As shown in the figure, in step S501, after receiving a start signal, the portable navigation device 11 establishes an interactive system including the portable navigation device 11, the Host device 13(Host) and the controlled device 15, wherein the portable navigation device 11, the Host device 13 and the controlled device 15 are communicated with each other through at least one communication protocol. Next, in step S503, the host device 13 receives the interactive interface 151' from the corresponding interactive interface 151 provided by the controlled device 15. In step S505, the portable navigation device 11 operates the cursor 133 associated with the host device 13, and controls the controlled device 15 corresponding to the interactive interface 151 'according to an action state of the cursor 133 on the interactive interface 151', so as to execute a function corresponding to the action state. The portable navigation device 11 can be used to control the controlled device 15 or perform data transmission through the host device 13.

Fig. 6 is a flowchart of an interactive method for controlling remote multiple points according to another embodiment of the present invention, and fig. 3 is also included. The interactive method for controlling remote multiple points of the present invention has at least one controlled device 15, and the present embodiment takes one controlled device 15 as an example. As shown in the figure, in step S601, after receiving a start signal, the portable navigation device 11 establishes an interactive system including the portable navigation device 11, the Host device 13(Host) and the controlled device 15 through the central control device 31, wherein the portable navigation device 11, the Host device 13 and the controlled device 15 are communicated with each other through at least one communication protocol. Next, in step S603, the host device 13 receives the interactive interface 151' from the corresponding interactive interface 151 provided by the controlled device 15. In step S605, the portable navigation device 11 is connected to the cursor 133 on the host device 13 through the on-line operation of the central control device 31, and controls the controlled device 15 corresponding to the interactive interface 151 'according to an action state of the cursor 133 on the interactive interface 151', so as to execute a function corresponding to the action state. The portable navigation device 11 can use the host device 13 to operate the controlled device 15 or perform data transmission through the central control device 31.

Fig. 7 is a flowchart of an interactive method for controlling remote multiple points according to another embodiment of the present invention, and fig. 1 is also included. The interactive method for controlling remote multiple points of the present invention has at least one controlled device 15, and the present embodiment takes one controlled device 15 as an example. As shown in the figure, in step S701, after receiving a start signal, the portable navigation device 11 establishes an interactive system including the portable navigation device 11, the Host device 13(Host) and the controlled device 15, wherein the portable navigation device 11, the Host device 13 and the controlled device 15 are communicated with each other through at least one communication protocol. Next, in step S703, the host device 13 receives the interactive interface 151' from the corresponding interactive interface 151 provided by the controlled device 15. In step S705, under the interactive system, the portable navigation device 11 is operated to start a program of the host device 13 or the controlled device 15. The portable navigation device 11 is used to start the program of the host device 13 or the controlled device 15.

Fig. 8 is a flowchart illustrating an interactive method for controlling remote multiple points according to another embodiment of the present invention, and also referring to fig. 1. The interactive method for controlling remote multiple points of the present invention has at least one controlled device 15, and the present embodiment takes one controlled device 15 as an example. As shown in the figure, in step S801, after receiving a start signal, the portable navigation device 11 establishes an interactive system including the portable navigation device 11, the Host device 13(Host) and the controlled device 15, wherein at least one communication protocol is used to implement mutual communication among the portable navigation device 11, the Host device 13 and the controlled device 15. Next, in step S803, the host device 13 receives the interactive interface 151' from the corresponding interactive interface 151 provided by the controlled device 15. In step S805, under the interactive system, the portable navigation device 11 is operated to control an output state of a program of the host device 13 or the controlled device 15. The purpose of using the portable navigation device 11 to control the program output status of the host device 13 or the controlled device 15 is achieved.

Therefore, through the technology carried by the specification, the interactive system and the method for controlling the remote multipoint, which are provided by the invention, establish an interactive system comprising a portable navigation device, a host device and at least one controlled device through the portable navigation device, so that the purpose of controlling the controlled device or transmitting data through the host device by using the portable navigation device is realized.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and all equivalent changes and modifications made in the claims of the present invention should be covered by the present invention.

Claims (14)

1. An interactive system, comprising:

a portable navigation device;

a host device includes a display module; and

at least one controlled device;

the portable navigation device establishes an interactive system comprising the host device and the controlled device, and the mutual communication among the portable navigation device, the host device and the controlled device is realized through at least one communication protocol;

the host device receives an interactive interface provided by at least one controlled device and displays the interactive interface on the display module;

under the interactive system, the portable navigation device operates at least one of a cursor related to the interactive interface on the display module of the host device, a program for starting the host device or the controlled device and an output state of an application program for controlling the host device or the controlled device, wherein the controlled device corresponding to the interactive interface is controlled according to an action state of the cursor in the interactive interface to execute a function corresponding to the action state.

2. The interactive system of claim 1, wherein the function is data transmission, and the executing of the action state enables the host device and the controlled device corresponding to the interactive interface to perform data transmission through the portable navigation device, or enables the host device and the controlled device corresponding to the interactive interface to perform data transmission directly.

3. The interactive system of claim 1, wherein the portable navigation device further comprises a microphone, the microphone receives an audio signal provided by a user, and the portable navigation device controls one of the host device and the controlled device to execute a voice control function corresponding to the audio signal according to the audio signal.

4. The interactive system of claim 3, wherein the portable navigation device establishes the interactive system after receiving a start signal, the start signal being one or a combination of a track signal generated by the movement of the portable navigation device, the audio signal and an input signal generated by at least one button of the portable navigation device being pressed.

5. The interactive system of claim 1, wherein the communication protocol is at least one of bluetooth, Wi-Fi, near field communication, zigbee, and radio frequency identification.

6. The interactive system of claim 1, further comprising a central control device, wherein the portable navigation device establishes the interactive system comprising the host device and the controlled device through the central control device.

7. The interactive system of claim 1, further comprising a lock seat, wherein the portable navigation device further comprises a pattern for the lock seat to recognize for locking or latching the lock seat.

8. An interactive method for controlling remote multipoint, executed by a portable navigation device, the interactive method comprising:

establishing an interactive system through the portable navigation device, wherein the interactive system comprises the portable navigation device, a host device and at least one controlled device, and the mutual communication among the portable navigation device, the host device and the controlled device is realized through at least one communication protocol;

enabling the host device to receive an interactive interface provided by at least one controlled device and displaying the interactive interface on a display module of the host device; and

under the interactive system, the portable navigation device operates at least one of a cursor related to the interactive interface on the display module of the host device, a program for starting the host device or the controlled device and an output state of an application program for controlling the host device or the controlled device, wherein the controlled device corresponding to the interactive interface is controlled according to an action state of the cursor in the interactive interface to execute a function corresponding to the action state.

9. The interactive method of claim 8, wherein the function is data transmission, and the executing of the action state enables the host device and the controlled device corresponding to the interactive interface to perform data transmission through the portable navigation device, or enables the host device and the controlled device corresponding to the interactive interface to perform data transmission directly.

10. The interactive method of claim 8, wherein the portable navigation device further comprises a microphone for receiving an audio signal provided by a user, and the portable navigation device controls one of the host device and the controlled device to execute a voice control function corresponding to the audio signal according to the audio signal.

11. The interactive method of claim 10, wherein the portable navigation device establishes the interactive system after receiving a start signal, wherein the start signal is one or a combination of a track signal generated by the movement of the portable navigation device, the audio signal and an input signal generated by at least one button of the portable navigation device being pressed.

12. The interactive method of claim 8, wherein the communication protocol is at least one of bluetooth, Wi-Fi, near field communication, zigbee, and radio frequency identification.

13. The interactive method of claim 8, wherein the portable navigation device establishes the interactive system comprising the host device and the controlled device through a central control device.

14. The interactive method of claim 8, wherein the portable navigation device has a pattern thereon, and the pattern is recognized by a lock seat for locking or latching the lock seat.

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