CN106155731B - System and method for automatically replacing peripheral device - Google Patents

Abstract

The invention discloses a remote management system capable of automatically replacing peripheral devices, which comprises a central host and a use terminal device. The central host is used for being coupled with at least one peripheral device and comprises a control module for controlling the connection state of the at least one peripheral device. The user terminal is coupled to the central host for displaying an operation interface for a user to set parameters of the peripheral device and transmit a command to the central host. The terminal equipment comprises a database module and a replacing module. The database module is used for providing function options of a plurality of peripheral devices. The replacing module executes a replacing program according to the function options of the peripheral device.

Description

System and method for automatically replacing peripheral device

Technical Field

The present invention relates to a management system, and more particularly to a remote management system for automatically replacing peripheral devices.

Background

In the life with developed technology, smart phones and smart tablet computers are inseparable from life. In order to improve quality of life, smart or intelligent concepts are increasingly applied to home life.

The intelligent home system gradually becomes the trend mainstream, and common intelligent home system is host type control system, need to install one "intelligent control platform" in the house, and its basic function includes: the intelligent household lighting equipment comprises automatic intelligent household lighting equipment, environment data detection, temperature and humidity air conditioning equipment, automatic electronic equipment and the like, and a user can regulate and control electronic equipment in a room through an operation interface of an intelligent mobile phone or a tablet computer, such as a switch television, a switch projector or a switch cold air and the like, so that the number of remote controllers is reduced, and the life convenience is improved.

However, in the conventional smart home system, when the old peripheral device is to be replaced with a new peripheral device, the network environment of all the peripheral devices (including the peripheral devices that are not changed) needs to be reset by a user, and the replacement process is complicated and time-consuming.

To solve the above problems, a time-saving and labor-saving system capable of automatically replacing peripheral devices is needed.

Disclosure of Invention

In view of the disadvantages of the prior art, the main objective of the present invention is to provide a method for automatically replacing a peripheral device by a remote management system, and a remote management system capable of automatically replacing a peripheral device.

In order to achieve the purpose, the invention adopts the following technical scheme:

a remote management system capable of automatically replacing peripheral devices comprises a central host having a plurality of connection ports for coupling with at least one peripheral device, wherein the central host comprises a control module for controlling the connection status of at least one peripheral device; the first user terminal device is coupled with the central host computer and used for displaying a first operation interface for a user to set parameters of the at least one peripheral device, and the first operation interface comprises a database module for providing function options of the at least one peripheral device; and a second user terminal device coupled to the central host computer for displaying a second operation interface for the user to transmit a command to the central host computer, wherein the second operation interface comprises a replacing module for executing a replacing program and sending the command to the central host computer according to the function options of the peripheral device.

A remote management system capable of automatically replacing peripheral devices comprises a central host having a plurality of connection ports for coupling with at least one peripheral device, wherein the central host comprises a control module for controlling the connection status of at least one peripheral device; and a user terminal device coupled to the central host for displaying an operation interface for a user to set parameters of the peripheral device and transmit a command to the central host, wherein the operation interface includes a database module for providing function options of the peripheral devices, and a replacement module coupled to the database module for executing a replacement program according to the function options of at least one peripheral device.

A method for automatically replacing peripheral devices by a remote management system, the remote management system comprising a central host and a user terminal, the user terminal being used for displaying an operation interface, the central host being coupled to at least one peripheral device, the method comprising the steps of: providing function options of a plurality of peripheral devices by using an operation interface; replacing a first peripheral device connected to the central host computer with a second peripheral device; the operation interface displays a replacing program; comparing the function options of the first peripheral device and the second peripheral device; and displaying an operation instruction on the operation interface surface according to the comparison result.

Preferably, the function option includes at least a function identification code (Action ID).

Preferably, the function options further include a function Configuration (Action Configuration).

Preferably, the replacement procedure is an automatic replacement when the functional options of the first peripheral device and the second peripheral device are the same.

Preferably, the replacement program is a virtual replacement when the functional options of the first peripheral device and the second peripheral device are different.

Drawings

FIG. 1 is a schematic diagram showing the present invention.

FIG. 2 is a functional block diagram illustrating a first embodiment of the present invention.

FIG. 3 is a functional block diagram illustrating a replacement module according to a first embodiment of the present invention.

FIG. 4 is a functional block diagram illustrating a second embodiment of the present invention.

FIG. 5 is a functional block diagram showing a replacement module according to a second embodiment of the present invention.

FIG. 6 is a flow chart showing the steps of the present invention.

FIG. 7 is a flowchart of the alignment process of the present invention.

Description of the symbols

100 system 202 system

102 central host 202 central host

1022 control module 2022 control module

104 first user terminal device 204 uses the terminal device

1042 first operation interface 2042 operation interface

1042a database module 2042a database module

106 second user terminal 2042b replacement module

1062 second operation interface 2044a replacement unit

1062a replacement module 2044b comparison unit

1064a replacement unit 2044c receive/transmit unit

1064b comparing unit 20 peripheral device

1064c receiving/transmitting unit 22 a first peripheral device

300 method 24 second peripheral device

304 step 302 step

308 step 306 step

310 step

Detailed Description

Various embodiments of the present invention will now be described. The following description provides specific implementation details of the invention to provide a thorough understanding of the manner in which the embodiments are implemented. However, it will be apparent to one skilled in the art that the present invention may be practiced without these specific details. Furthermore, no attempt is made to show structural or functional details of some known embodiments in order not to unnecessarily obscure the various embodiments, and the terminology used in the description that follows is intended to be interpreted in its broadest reasonable manner, even though it is being used in conjunction with a detailed description of certain specific embodiments of the invention. Moreover, the drawings do not depict every feature of actual embodiments, and the components of the depictions are relative sizes rather than drawn to scale.

Referring to FIG. 1, a schematic diagram of the system of the present invention is shown. The system 100 includes at least one user terminal 104, a central host 102, and a plurality of peripheral devices 20, wherein the plurality of peripheral devices 20 may include a projector, a television, or a stereo, as shown in fig. 1, but not limited thereto. The central host 102 is coupled between the end-user equipment 104 and the peripheral device 20, and the central host 102 automatically changes the connection status of the peripheral device 20 according to the command of the end-user equipment 104. It should be noted that the dotted lines in fig. 1 may represent a wireless connection or a wired connection, and in the preferred embodiment, the user terminal 104, the central host 102 and the peripheral devices 20 are wirelessly connected to each other.

Referring to fig. 1 and 2, fig. 2 is a functional block diagram of a system according to a first preferred embodiment of the present invention. The system 100 includes a central host 102, a first user terminal 104, and a second user terminal 106, wherein the central host 102 is coupled between the first user terminal 104 and the second user terminal 106, in this embodiment, the first user terminal 104 may be a desktop computer, and the second user terminal 106 may be a tablet computer, but not limited thereto. The central host 102 has a plurality of connection ports for coupling a plurality of peripheral devices, such as a television, a projector, a cold air, and other intelligent home appliances, but not limited thereto. The central host 102 includes a control module for controlling the connection status of a plurality of peripheral devices.

The first user terminal 104 is coupled to the central host 102 for displaying a first operation interface 1042 for a user (not shown) to set parameters of the peripheral device 20, such as a port number, a brand and a model of the peripheral device, but not limited thereto. The first operation interface 1042 further includes a database module 1042a for providing function options of the peripheral device 20, such as a function identification (Action ID) or a function Configuration (Action Configuration), and after the user inputs the relevant parameters of the peripheral device 20, the database module 1042a searches and generates the corresponding function options according to the parameters. The update of the database can be realized by installing the updated data by the user, or automatically updating the data by directly passing through a cloud system (not shown in the figure).

The second user terminal 106 is coupled to the central host 102 for displaying a second operation interface 1062. The second operation interface 1062 includes a replacing module 1062a, when the first peripheral device 22 is replaced with the second peripheral device 24, the second operation interface 1062 displays the function options of the first peripheral device 22 and the second peripheral device 24, and displays related instructions and commands (not shown) on the second operation interface 1062 according to whether the function options of the two peripheral devices are the same or not, and transmits the commands to the central host 102. More specifically, the replacing module 1062a includes a replacing unit 1064a, an comparing unit 1064b and a receiving/transmitting unit 1064c, as shown in fig. 3, wherein the comparing unit 1064b is coupled between the replacing unit 1064a and the receiving/transmitting unit 1064 c. When the first peripheral device 22 is replaced with the second peripheral device 24, the replacing unit 1064a starts and executes a replacing program (not shown in the drawings), and then the comparing unit 1064b compares whether the function options of the first peripheral device 22 and the second peripheral device 24 are the same, if the function options of the two peripheral devices are the same, the automatic replacing is performed, and an automatic replacing instruction (an automatic replacing icon is generated at the same time for the user to click) is displayed on the second operation interface 1062 for the user to confirm and transmit the automatic replacing command to the central host computer 102, and the control module 1022 of the central host computer 102 completes the connection of the replacing peripheral devices after receiving the command from the second user terminal 106; if the function options of the two peripheral devices are different, the replacement is virtual, and a warning indication (an icon of the warning indication is generated at the same time for the user to click) is displayed on the second operation interface 1062 to indicate that the replacement is impossible (dummy action).

For example, as shown in fig. 7, which shows the comparison flowchart of the embodiment, it is assumed that the function identifier (Action ID) of the device a is a1 and the function Configuration (Action Configuration) is a2, and the function identifier of the device B is B1 and the function Configuration is B2. In this embodiment, the comparing unit 1064B preferentially compares whether the function identifiers (Action IDs) of the two peripheral devices are the same, and if a1(26169) is the same as B1(26169), the function Configuration (Action Configuration) can be further compared to be the same, and if a2(2,1 to 8) is the same as B2(2,1 to 8), auto replace (auto replace) can be performed. On the other hand, if a1(26169) is the same as B1(26169), it is possible to further compare whether the function Configuration (Action Configuration) is the same, and if a2(2,1 to 8) is different from B2(2,1 to 4), it is dummy replacement (dummy Action), in other words, it is impossible to perform replacement. On the other hand, if the B device does not have the same function id B1 as that of a1(26169), dummy replacement (dummy action) is also executed. In short, the users with the same function options can automatically change the functions; and if the difference is not the same, the replacement cannot be automatically performed. The values of A1, B1, A2 and B2 are for illustrative purposes only and are not limited to the above-described embodiments.

Referring to fig. 4 and 5, the functional block diagrams of the system according to the second preferred embodiment of the present invention are shown. The system 200 includes a central host 202 and a user terminal 204, which are coupled to each other, in this embodiment, the user terminal 204 may be a desktop computer or a tablet computer, but not limited thereto. The central host 202 has a plurality of connection ports for coupling a plurality of peripheral devices, such as a television, a projector, an intelligent household appliance such as a cold air device, but not limited thereto. The central host 202 includes a control module 2022 for controlling the connection status of a plurality of peripheral devices.

The user terminal 204 is used to display an operation interface 2042 for the user to set parameters of the peripheral device 20, such as, but not limited to, a port number, a brand and a model of the peripheral device. The operation interface 2042 further includes a database module 2042a and a replacement module 2042b, which are coupled to each other. The database module 2042a uses function options for the peripheral device 20, such as function identifiers (Action IDs) or function configurations (Action configurations), and when the user inputs parameters related to the peripheral device 20, the database module 2042a searches for and generates corresponding function options according to the parameters. The database can be installed by the user to update the data, or can be automatically updated by the cloud system (not shown). When the first peripheral device 22 is replaced with the second peripheral device 24, the operation interface 2042 displays the function options of the first peripheral device 22 and the second peripheral device 24, and displays related instructions and commands (not shown) on the operation interface 2042 according to whether the function options of the two peripheral devices are the same or not, and transmits the commands to the central host 202. More specifically, the replacing module 2042b includes a replacing unit 2044a, an comparing unit 2044b and a receiving/transmitting unit 2044c, wherein the comparing unit 2044b is coupled between the replacing unit 2044a and the receiving/transmitting unit 2044c, as shown in fig. 5. When the first peripheral device 22 is replaced with the second peripheral device 24, the replacing unit 2044a starts and executes a replacing program (not shown in the drawings), and then the comparing unit 2044b compares whether the function options of the first peripheral device 22 and the second peripheral device 24 are the same, if the function options of the two peripheral devices are the same, the automatic replacing is performed, and an automatic replacing instruction (an automatic replacing icon is generated for the user to click) is displayed on the operation interface 2042 for the user to confirm and transmit an automatic replacing command to the central host 202, and the control module 2022 of the central host 202 completes the connection of the peripheral devices after receiving the command from the user terminal equipment 204; if the function options of the two peripheral devices are different, the replacement is virtual, and a warning indication (an icon for generating a warning indication for the user to click) is displayed on the operation interface 2042 to indicate that the replacement is impossible (dummy action).

For example, as shown in fig. 7, which shows the comparison flowchart of the embodiment, it is assumed that the function identifier (Action ID) of the device a is a1 and the function Configuration (Action Configuration) is a2, and the function identifier of the device B is B1 and the function Configuration is B2. In this embodiment, the comparing unit 1064B preferentially compares whether the function identifiers (Action IDs) of the two peripheral devices are the same, and if a1(26169) is the same as B1(26169), the function Configuration (Action Configuration) can be further compared to be the same, and if a2(2,1 to 8) is the same as B2(2,1 to 8), auto replace (auto replace) can be performed. On the other hand, if a1(26169) is the same as B1(26169), it is possible to further compare whether the function Configuration (Action Configuration) is the same, and if a2(2,1 to 8) is different from B2(2,1 to 4), it is dummy replacement (dummy Action), in other words, it is impossible to perform replacement. On the other hand, if the B device does not have the same function id B1 as that of a1(26169), dummy replacement (dummy action) is also executed. In short, the users with the same function options can automatically change the functions; and if the difference is not the same, the replacement cannot be automatically performed. The values of A1, B1, A2 and B2 are for illustrative purposes only and are not limited to the above-described embodiments. It should be understood by those skilled in the art that the process of the second embodiment for the alignment function option can be simulated as the alignment process of the first embodiment.

Referring to fig. 6, which is a flowchart illustrating steps of automatically replacing a peripheral device by a remote system according to another preferred embodiment of the present invention, the remote management system includes a central host and a user terminal, the user terminal is used for displaying an operation interface and includes a database module and a replacement module, the central host is used for coupling at least one peripheral device, and referring to fig. 2 and 4, in the preferred embodiment, the method 300 is executed by the system 200, but can also be executed by the system 100:

step 302: the operation interface 2042 is used to provide a plurality of function options for the peripheral device 20. The operation interface 2042 includes a database module 2042a for providing function options of the peripheral device 20, and is displayed in the operation interface 2042. In one embodiment, the user inputs parameters related to the peripheral device 20, such as a port number, a brand and a model of the peripheral device, on the operation interface 2042, but not limited thereto. The database module can find and generate corresponding function options according to the relevant parameters, which include function identification (action ID) and function configuration (action configuration). In one embodiment, the remote management system further includes a cloud device having a database module for function options of the plurality of peripheral devices.

Step 304: the first peripheral device 22 connected to the central host 202 is replaced with the second peripheral device 24. For example, the projector model a is replaced with the projector model B. In general, replacement is exchanged between different devices of the same functional type.

Step 306: the operation interface 2042 displays a replacement program (not shown). After the central host 2022 finishes the operation of replacing the peripheral device, the replacing module 2042b of the operation interface 2042 starts a series of subsequent replacing procedures, and displays the procedures in the operation interface 2042 to guide the user to complete the replacement.

Step 308: the function options of the first peripheral device 22 and the second peripheral device 24 are compared. The replacing module 2042b includes an comparing unit 2044a (shown in fig. 5) for comparing whether the function options of the first peripheral device 22 and the second peripheral device 24 are the same, and if the function options of the two peripheral devices are the same, the replacement is performed automatically; if the function options of the two peripheral devices are different, the two peripheral devices are virtually replaced.

For example, as shown in fig. 7, which shows the comparison flowchart of the embodiment, it is assumed that the function identifier (Action ID) of the device a is a1 and the function configuration is a2, and the function identifier of the device B is B1 and the function configuration is B2. In this embodiment, the comparing unit 1064B preferentially compares whether the function identifiers (Action IDs) of the two peripheral devices are the same, and if a1(26169) is the same as B1(26169), the function Configuration (Action Configuration) can be further compared to be the same, and if a2(2,1 to 8) is the same as B2(2,1 to 8), auto replace (auto replace) can be performed. On the other hand, if a1(26169) is the same as B1(26169), it is possible to further compare whether the function Configuration (Action Configuration) is the same, and if a2(2,1 to 8) is different from B2(2,1 to 4), it is dummy replacement (dummy Action), in other words, it is impossible to perform replacement. On the other hand, if the same function id B1 as that of a1(26169) does not exist in the B device, dummy replacement (dummy) is also performed. In short, the users with the same function options can automatically change the functions; and if the difference is not the same, the replacement cannot be automatically performed. The values of A1, B1, A2 and B2 are for illustrative purposes only and are not limited to the above-described embodiments.

Step 310: according to the comparison result, an operation instruction (not shown) is displayed on the operation interface surface 2042. If the comparison result is the same, an automatic replacement instruction (an icon for automatic replacement is generated for the user to click) is displayed on the operation interface 2042 for the user to confirm and continue, the receiving/transmitting unit 2044c transmits the automatic replacement command to the central host 202, and the control module 2022 of the central host 202 completes the connection of the peripheral device after receiving the command from the user terminal 204; if the function options of the two peripheral devices are different, the replacement is virtual, and a warning indication (icon generating warning indication for the user to click) is displayed on the operation interface 2042 to indicate that the replacement is impossible (dummy action).

In summary, the remote management system for automatically replacing the peripheral device of the present invention only needs at least one electronic device to control the connection status between the central host and the peripheral device. When the old peripheral device is replaced by the new peripheral device, the system compares the function options of the peripheral device to automatically replace the peripheral device, thereby shortening the replacement time of the old peripheral device and the new peripheral device without influencing other peripheral devices which are not changed, and solving the problem that the network environment of all the peripheral devices needs to be reset when the devices are replaced in the prior art.

The present invention includes various processing programs, which may be implemented on a hard disk or embedded within computer readable instructions, which may form a general or special purpose processor or logic circuits with programmed instructions for performing the processing, and which may be implemented by a combination of hardware and software.

One or more of the modules, components, or elements described herein, such as the DRAM gain mechanism described in the embodiments or in connection therewith, may comprise hardware, software, and/or a combination of both. The modules described in the embodiments include software, software data, instructions and/or configurations, which may be provided through the manufacture of mechanisms/electronics/hardware herein.

Portions of the present invention provide computer program products comprising a non-transitory computer-readable medium having stored thereon instructions for executing a process program in accordance with the present invention. The computer readable medium may include, but is not limited to, floppy diskettes, optical diskettes, CD-ROMs, RAMs, EPROMs, EEPROMs, magnet or optical cards, flash memory, or other type of media/computer readable medium suitable for accessing electronic instructions. In addition, the present invention may also be downloaded as a computer program product, wherein the program may be transferred from a remote computer to a designated computer.

If a component "a" is coupled (or coupled) to a component "B," the component a may be directly coupled (or coupled) to B or indirectly coupled (or coupled) to B via a component C. If the specification states a component, feature, structure, process, or characteristic a to result in a component, feature, structure, process, or characteristic B, it is intended that a at least a portion of B be attributed to a component, feature, structure, process, or characteristic, or that B be attributed to another component, feature, structure, process, or characteristic. Where the specification recites "a possible" or "an alternative," the components, features, procedures, or characteristics thereof are not limited to those described in the specification; the numbers referred to in the specification are not limited to "a" or "an" etc.

Although the present invention has been described in terms of preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. It is intended that all such modifications and similar arrangements be included within the spirit and scope of the invention as defined in the following claims and that the scope of the invention be covered by all such modifications and similar structures and be interpreted in the broadest sense.

The invention is not limited to the specific details described herein. Many different variations of the invention described above in relation to the drawings are possible within the spirit and scope of the invention. Accordingly, the invention is intended to cover by the following claims, modifications and variations of this invention provided they come within the scope of the following claims and their equivalents.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (15)

1. A remote management system capable of automatically replacing peripheral devices, comprising:

a central host having a plurality of connection ports for coupling with at least one peripheral device, wherein the central host comprises a control module for controlling the connection state of the peripheral device;

the first user terminal device is coupled with the central host computer and used for displaying a first operation interface for a user to set parameters of the peripheral device, and the first operation interface comprises a database module used for providing function options of the peripheral device; and

a second user terminal device, coupled to the central host, for displaying a second operation interface for the user to transmit a command to the central host, the second operation interface including a replacing module, the replacing module including a replacing unit, a comparing unit coupled to the replacing unit, and a receiving/transmitting unit coupled to the comparing unit for transmitting the command to the central host, and according to the function options of the peripheral device, executing a replacing program and transmitting the command to the central host; wherein

When a first peripheral device is replaced by a second peripheral device, the replacing unit executes a replacing program, and the comparison unit compares the function options of the first peripheral device and the second peripheral device;

when the function options of the first peripheral device and the second peripheral device are the same, executing a replacement program to realize automatic replacement; and

the central host automatically changes the connection state of the second peripheral device according to the command of the second user terminal equipment.

2. The remote management system of claim 1, wherein the function option comprises a function identification code.

3. The remote management system of claim 2 wherein the function options further comprise a function configuration.

4. The remote management system for automatically replaceable peripheral devices according to claim 1, wherein the replacement program is non-viable when the function options of the first peripheral device and the second peripheral device are different.

5. A remote management system capable of automatically replacing peripheral devices, comprising:

a central host with multiple connection ports for coupling with at least one peripheral device, wherein the central host comprises a control module for controlling the connection state of the peripheral device; and

a user terminal device coupled to the central host for displaying an operation interface for a user to set parameters of the peripheral device and transmit a command to the central host, the operation interface including a database module for providing function options of the peripheral devices, and a replacing module coupled to the database module, the replacing module including a replacing unit, a comparing unit coupled to the replacing unit, and a receiving/transmitting unit coupled to the comparing unit for transmitting the command to the central host, and executing a replacing program according to the function options of the peripheral device; wherein

When a first peripheral device is replaced by a second peripheral device, the replacing unit executes a replacing program, and the comparison unit compares the function options of the first peripheral device and the second peripheral device;

when the function options of the first peripheral device and the second peripheral device are the same, executing a replacement program to realize automatic replacement; and

the central host automatically changes the connection state of the second peripheral device according to the command of using the terminal equipment.

6. The remote management system of claim 5, wherein the function option comprises at least one function ID.

7. The remote management system of claim 6, wherein the function options further comprise a function configuration.

8. The remote management system for automatically replacing peripheral devices as claimed in claim 5, wherein the replacement procedure is not to replace when the function options of the first peripheral device are different from those of the second peripheral device.

9. A method for automatically replacing peripheral devices by a remote management system, wherein the remote management system comprises a central host and a user terminal, the user terminal is used for displaying an operation interface, the central host is coupled to at least one peripheral device, the method comprises the following steps:

providing function options of a plurality of peripheral devices by using an operation interface;

replacing a first peripheral device connected to the central host computer with a second peripheral device;

the operation interface displays a replacing program;

comparing the function options of the first peripheral device and the second peripheral device; and

displaying an operation instruction on an operation interface according to the comparison result; wherein

When the function options of the first peripheral device and the second peripheral device are the same, the operation is indicated as automatic replacement; and

the central host automatically changes a connection state of the second peripheral device according to a command of using the terminal equipment.

10. The method of claim 9, wherein the function option includes a function identification code.

11. The method of claim 10, wherein the function options further comprise a function configuration.

12. The method of claim 11, wherein the comparison function option is a priority comparison function ID.

13. The method of claim 9, wherein the operation indicates no replacement when the function options of the first peripheral device are different from the function options of the second peripheral device.

14. The method of claim 9, wherein the operation interface comprises a database module, and a user can update data in the database module through a wireless/wired device.

15. The method of claim 9, wherein the remote management system further comprises a cloud device having a database module for providing function options of the plurality of peripheral devices.

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