CN106662864B - Adaptive control of electronic device - Google Patents

Abstract

In a method for controlling one or more electronic devices, a projectable space entity (973) for building a workspace is provided to a control machine, wherein the projectable space entity (973) is selectively added by an analysis and control (42) tool, a data monitoring (43) tool, and at least one unification tool (41) for driving at least one electronic device; and interpreting the projectable space entity (973) by a projection means (241) in the control machine to automatically create a projected workspace (976) corresponding to the workspace created by the projectable space entity (975), wherein the data monitoring (43) tool retrieves a data message of the at least one electronic device through the at least one unification tool (41), and the analyzing and controlling (42) tool analyzes the data message and controls the at least one electronic device through the at least one unification tool (41) according to the analysis result.

Description

Adaptive control of electronic device

Technical Field

The present invention relates to a control method, and more particularly, to a method for adaptively controlling one or more electronic devices through a workspace. The invention also relates to a control machine for the adaptive control of one or more electronic devices.

Background

With the change of information communication technology, it is a inevitable trend in the future to create intelligent life with information, digitalization, humanization and convenience, and home appliances closely related to daily life naturally become the key to implement the vision of digital home and create smart life, so that it is an important future development direction for industry to intelligentize home appliances.

The intelligent home appliances generally refer to consumer electronics and home appliances having a networking function, and the networking function may be a wide service network, a local home network, or any other suitable network, and the purpose of the networking function is to integrate and connect various home appliances to realize the functions of home digitalization, intellectualization, and system integration.

In order to integrate and connect various home appliances, developers in the industry tend to communicate with home appliances of different brands, different products or different functions through a unified communication protocol; for example, the american high-pass (Qualcomm) company provides a communication chip based on the AllJoyn open software architecture for the manufacturers of the various home appliances, so that the various home appliances can interact with each other through the AllJoyn.

Please refer to fig. 1, which is a schematic diagram of a conventional method for communication among a plurality of home appliances mounted with AllJoyn communication chips. As shown in fig. 1, the first electronic device 11 (e.g., a first lighting fixture) and the second electronic device 12 (e.g., a second lighting fixture) are respectively provided therein with communication chips 111 and 121 developed based on the AllJoyn open software architecture. The control machine 13 (e.g., a computer) is provided with a first driver (device driver)131 corresponding to the first electronic device 11, a second driver 132 corresponding to the second electronic device 12, and a control management component 133 for controlling the first electronic device 11 and the second electronic device 12; since the first driver 131, the second driver 132 and the control management component 133 are also developed based on the AllJoyn open software architecture, the first electronic device 11 driven by the first driver 131 and the second electronic device 12 driven by the second driver 132 can smoothly communicate with each other through the control management component 133. In other words, through the first driver 131, the second driver 132 and the control management component 133, the first electronic device 11 and the second electronic device 12 can mutually operate and achieve a common and interactive goal. In addition, the Digital Living Network Alliance (DLNA) established by Microsoft (Microsoft), philips (Philip), Sony (Sony) and other companies also establishes a set of communication protocols for connecting various home appliances to operate together, and taiwan institute of technology can also provide a sannet control protocol for various home appliance manufacturers.

Please refer to fig. 2, which is a schematic diagram of a conventional communication method for communicating among a plurality of home appliances equipped with communication chips with different communication protocols. As shown in fig. 2, a communication chip 111 developed based on the AllJoyn open software architecture is disposed in the first electronic device 11 (e.g., the first lighting fixture). The third electronic device 16 (e.g., the third lighting fixture) is provided with a communication chip 161 developed based on the communication protocol of the digital living network alliance. And a communication chip 141 developed based on the SAANet control protocol is disposed in the fourth electronic device 14 (e.g., the fourth lighting fixture). The control machine 15 (e.g., a computer) is provided with a first driver 151, a third driver 152 and a fourth driver 153; the first driver 151 is developed based on the AllJoyn open software architecture to support the first electronic device 11, the third driver 152 is developed based on the communication protocol of the digital living network alliance to support the third electronic device 16, and similarly, the fourth driver 153 is developed based on the SAANet control protocol to support the fourth electronic device 14.

Since the first driver 151, the third driver 152, and the fourth driver 153 cannot operate under a common communication protocol, the first electronic device 11, the third electronic device 16, and the fourth electronic device 14 cannot interact and communicate with each other smoothly. Further, since home appliance manufacturers of different brands inevitably have a competitive relationship, there is a high possibility that the home appliance manufacturers of different brands are not willing to accept a common communication protocol or use a common communication chip in consideration of commercial benefits.

Fig. 3 schematically shows how the existing communication method enables communication and interaction between home appliances that are installed with different communication chips and execute different communication protocols. As shown in fig. 3, the control device 15' is further provided with an interface program 154 developed and designed by a home appliance manufacturer, a control device manufacturer, or a third party, and the interface program 154 is developed as a communication medium for the first driver 151, the third driver 152, and the fourth driver 153. Therefore, the first electronic device 11, the third electronic device 16 and the fourth electronic device 14 can communicate and interact with each other. However, the communication protocols for the future new home appliances or existing home appliances to be brought on line with each other to work together are not limited to the three protocols described above. New communication protocols may not be able to communicate with each other or with existing communication protocols. In this case, the interface program 154 in the control machine 15' is frequently updated, which causes a burden on the user in operation. When the interface program 154 is no longer updatable for many reasons, some appliances using communication chips developed by new communication protocols cannot communicate with other appliances' and thus, users are unsuited. Therefore, there is a need for a flexible operating environment that can easily and conveniently add new communication protocols to a control machine, and can also remove unnecessary communication protocols from the control machine at any time.

In addition, after the popularization of intelligent home appliances, how to make the intelligent home appliances provide services for home users efficiently and intelligently, and further facilitate the life of people is also the direction of the current developers to research and discuss to the utmost. For example, there are many lighting fixtures installed in public spaces of buildings, and based on the requirement of energy saving and power saving, it is preferable that the lighting fixtures can be adaptively turned on and/or off according to the pedestrian's traffic. However, since the lighting fixtures are generally distributed widely in various areas and the pedestrian traffic conditions in different areas are different, it is not practical to design each lighting fixture to be turned on and/or off according to a predetermined pattern.

Disclosure of Invention

One objective of the present invention is to provide a method for controlling one or more electronic devices (e.g., home appliances). The control method takes humanity as a starting point and meets the life style and habits of people.

The invention also provides a control machine for executing the control method. The driver for driving the plurality of electronic devices can be selectively configured by a user as desired. The drivers are compatible with each other in the control machine. The electronic devices controlled by the control machine of the invention can automatically and adaptively operate according to the actual application requirements, so as to reduce the labor consumption caused by the design of a complex control flow or manual control.

In one aspect, the present invention provides a method for controlling an electronic device, including: providing a projectable space entity for constructing a working space to a control machine, wherein the projectable space entity is selectively added by an analysis and control tool, a data monitoring tool and at least one unification tool for driving at least one electronic device; and interpreting the projectable space entity by using a projection means in the control machine to automatically establish a projected working space corresponding to the working space established by the projectable space entity, wherein the data monitoring tool captures data information of the at least one electronic device through the at least one unification tool, and the analysis and control tool analyzes the data information and controls the at least one electronic device through the at least one unification tool according to an analysis result.

In another aspect, the present invention also provides a control machine for controlling at least one electronic device, the control machine comprising a projection means for interpreting a projectable space entity to construct a projected workspace corresponding to a workspace constructed by the projectable space entity, wherein the projectable space entity is selectively populated by an analysis and control tool, a data monitoring tool, and at least one unification tool for driving the at least one electronic device; and when the projected working space is built and operated, the data monitoring tool captures data information of the at least one electronic device through the at least one unification tool, and the analysis and control tool analyzes the data information and controls the at least one electronic device through the at least one unification tool according to an analysis result.

In a preferred embodiment, the at least one unification tool includes at least one unified driver formed by unifying the at least one driver through a unification method.

In a preferred embodiment, the at least one driver is developed from a Software Development Kit (SDK) corresponding to the at least one electronic device.

In a preferred embodiment, the at least one unification tool includes a plurality of unified drivers respectively formed by unifying a plurality of drivers for driving a plurality of electronic devices; the plurality of drivers are arranged in the projected working space after being unified so as to be compatible with each other.

In a preferred embodiment, the method for controlling an electronic device further includes: and storing the data information of the at least one electronic device, which is captured by the data monitoring tool, into a storage device for the analysis and control tool to obtain for analysis.

In a preferred embodiment, the control machine manages at least two different types of electronic devices.

In a preferred embodiment, the at least two different types of electronic devices are manufactured by different manufacturers, or provide different functions, or are manufactured by different manufacturers and provide different functions.

In a preferred embodiment, the method for controlling the electronic device is used for controlling a household appliance system, a medical equipment system, a security control system, a fire protection control system or a transportation system.

In a preferred embodiment, the control machine is selected from a computer, a household appliance, a handheld electronic device, a wearable electronic device, or a combination thereof.

In a preferred embodiment, the projectable spatial entity is an object (object), an extensible markup language (XML), or an entity (instance) generated by a structured language (structured language) or a structured protocol (structured protocol).

In a preferred embodiment, the data monitoring tool is disposed in the analysis and control tool, or the analysis and control tool is disposed in the data monitoring tool, or the data monitoring tool and the analysis and control tool are a common tool.

Drawings

The above objects and advantages of the present invention will become more apparent to those skilled in the art after considering the following detailed description and accompanying drawings, in which:

fig. 1 is a schematic diagram of a conventional method for communication between home appliances in which an AllJoyn communication chip is mounted.

Fig. 2 is a schematic diagram of another conventional method of communication between home appliances mounting communication chips of different communication protocols.

Fig. 3 is a schematic diagram of another conventional method of communication between home appliances mounting communication chips of different communication protocols.

Fig. 4 is a conceptual diagram of an embodiment of a unified method for controlling one or more electronic devices according to the present invention.

FIG. 5 is a conceptual diagram of a unified script as an intermediate language for implementing a personal workspace.

FIG. 6 is a schematic diagram of a preferred configuration of a unified element for controlling one or more electronic devices in a personal workspace according to the present invention.

Fig. 7, 8A and 8B are schematic diagrams illustrating a method for establishing a projection workspace suitable for controlling one or more electronic devices according to a preferred embodiment of the invention.

FIG. 9 is a schematic diagram of a projectable spatial entity suitable for controlling one or more electronic devices according to the present invention relative to a projected workspace.

FIG. 10 is a flowchart illustrating a preferred method of managing one or more electronic devices according to the present invention.

Fig. 11 and 12 are schematic diagrams illustrating a method of controlling an electronic device according to the present invention to generate a projected workspace for controlling the electronic device.

FIG. 13 is a diagram illustrating the relationship between the projectable spatial entity and the projected workspace in the method shown in FIGS. 11 and 12.

Fig. 14 is a conceptual diagram illustrating interaction between a projected workspace and a first electronic device and a second electronic device in a control machine according to the present invention.

Detailed Description

The invention will be more fully understood from the following description, including the following glossary of terms and conclusive examples. It is noted that the patent publication numbers or patent application numbers cited in this specification, and the complete disclosures thereof, are incorporated herein by reference.

The following examples of the invention are non-limiting and merely represent various aspects and features of the invention. In the most limiting technical sense, an "information source" as described herein refers to a sequence of symbols that can be interpreted as useful information, and that is used to organize and tag data. The information source includes: websites (e.g., internet services), intranets, software, electronic books, databases, and other media of information (e.g., non-transitory computer-usable storage media, mobile device storage media). Also, the "raw information" described herein may include documents, web pages, databases, policies, rules, or any other data accessible to the relevant machines and servers, while the "tools" described herein may include utilities, interface toolsets, intelligent agent tools, applications, service tools, or any other executable elements accessible to the relevant machines and servers. However, the source, source and tool are not limited to the above.

In addition, the "original information" and the "original tool" are both an implementation of the "original element" described herein, and in implementing the present invention, a plurality of "original elements" from the same or different "information sources" can be respectively modeled as a plurality of "unified elements" through a unified approach, so that the plurality of "unified elements" in the same operating environment can be compatible with each other to cooperatively perform a specific task; wherein, the "unification tool" and the "unification information unit" are an implementation mode of the "unification element". Also, an "element transformer (matchizer)" described herein is a component, device, or program code to unify "original elements".

In an embodiment, the unification method includes the following steps: reforming raw information obtained from at least one of the plurality of sources according to a unified data structure, thereby modeling (modeling) the raw information as a unified information unit, and/or reforming raw tools obtained from at least one of the plurality of sources according to another unified data structure, thereby modeling the raw tools as unified tools; wherein the unified data structure and the another unified data structure can be the same or different, and the above-mentioned unified method can be accomplished by an element transformer (Matterizer).

Please refer to fig. 4, which is a conceptual diagram of an embodiment of a unified method for controlling one or more electronic devices according to the present invention. Fig. 4 illustrates that the element transformer 992 reforms an attribute and an associated nexus (link) of the primary element 991 according to the unified data structure 993 to model the primary element 991 as the unified element 994, such that the basic attributes of the unified element 994 include the type (type) of the primary element 991 and the nexus (link) indicating where the primary element 991 is located.

In the embodiment, the original element 991 may be original information or an original tool, but is not limited thereto. Secondly, in the above unification method, when the attribute obtainable from the original information corresponds to the attribute to be unified in the unified information unit, the unified information unit can be directly generated through the element converter 992; when the attribute that can be obtained from the original information and the attribute that is to be unified in the unified information unit cannot correspond to each other, the original information needs to be redefined by logically reforming the attribute and the related link of the original information, so that the original information is converted into new original information having the attribute corresponding to the attribute that is to be unified in the unified information unit, thereby indirectly generating the unified information unit.

Also, when the original tool is compatible with the working environment of the workspace (workspace), the unified tool can be directly generated via the element transformer 992; when the original tool is not compatible with the working environment of the working space, the unified tool is generated indirectly by driving the original tool through a converter (adapter) and/or a Software Development Kit (SDK) of the original tool; wherein, the adapter is used to provide the interface implementation (interworking) compatible with the working space.

The "specific implementation OF the normalization method", "specific obtaining manner OF the normalization elements", AND "specific operation manner OF the element converter" described in this embodiment can refer to the united states patent application with application number 14/324,069 AND name "improved office automation INFORMATION AND TOOL FROM program product a program OF INFORMATION resources", AND refer to the chinese patent application with application number 14/324,069 as the basis for priority, with application number 201410768564.X, name "method for unifying INFORMATION AND TOOLs FROM multiple INFORMATION SOURCES, AND computer program product AND apparatus applying the method", which are all assigned to the same assignee. The contents of the above-mentioned pending patent application are incorporated herein by reference and thus will not be described in detail herein. Moreover, those skilled in the art can make any equivalent design changes according to the actual application requirements.

Two further examples of unification methods suitable for use in the present invention are given below. The first unification method is an information unification method applied to Garmin satellite navigation. Similar to the above unification method, the POI (Point of Interest) function of Garmin satellite navigation is to perform unification procedure on the input original landmark information (original information) through the information unification method to obtain corresponding unified landmark information (unified information unit); the second method is a tool unification method applied to an Android system, which is an open source code mobile device operating system based on Linux, but most of the applications (source tools) in the Android system are written in Java, so that all the applications (source tools) written in Java can be modeled into unified applications (unified tools) compatible with the Android system by the tool unification method, and further can be executed in the Android system.

Furthermore, the term "workspace" as used herein refers to a workspace for at least one elementary transducer and/or at least one tool and/or at least one piece of information to interact with to perform a specific task, and at least one piece of information and/or at least one piece of tool can be input into the workspace through at least one elementary transducer, but the manner of inputting information and/or tool into the workspace is not limited thereto; next, information inputters (information inputters) described below (such as information inputters 9881, 9882, 9883 described later with reference to fig. 5) are all embodiments of the element transformer. Furthermore, the unified script is an intermediate language that can be used to implement the workspace, and the unified script can enable at least one element converter and/or at least one message and/or at least one tool to be provided (e.g., built-in or plug-in) to the workspace.

In one embodiment, the at least one message is at least one unified message unit formed by unifying at least one original message obtained from at least one message source, and the at least one tool is at least one unified tool formed by unifying at least one original tool obtained from at least one message source; the user can add (such as built-in or plug-in) the needed unified information unit and/or unified tool from the corresponding information source to the personal workspace according to different tasks, so the "workspace" can be a user-oriented "personal workspace".

Further, referring to fig. 5 and fig. 6, fig. 5 is a schematic diagram of a preferred concept of using unified scripts as an intermediate language for implementing the personal workspace, and fig. 6 is a schematic diagram of a preferred configuration of the personal workspace. Fig. 5 and 6 illustrate the user selectively combining the unified information unit 985 ' corresponding to the original information 985 in the Dropbox982, the first unified tool 986 ' corresponding to the compatible original tool 986 in the cloud hard disk 983, and the second unified tool 987 ' corresponding to the incompatible original tool 987 in the server 984 into the personal workspace 981; specifically, the user may first edit a unified script 980 as an intermediate language for implementing the personal workspace 981, and set (configure) the information input device 9881 of the Dropbox982, the information input device 9882 of the cloud hard disk 983, and the information input device 9883 of the server 984 by the unified script 980; the information input device 9881 can unify the original information 985 in the Dropbox982 into a unified information unit 985' and input the unified information unit to the personal workspace 981. For example, but not limited to, unified script 980 refers to an intermediate language that can be used to implement a workspace, and information input 9882 is an element transformer of Dropbox.

Further, fig. 5 and 6 also illustrate that the original tool stored in the cloud hard disk 983 is a compatible original tool 986 (i.e., the compatible original tool 986 is compatible with the component architecture for the unified tool in the personal workspace 981), and the first unified tool 986' corresponding to the compatible original tool 986 can be provided directly to the personal workspace 981 through the information input device 9882 of the unified script 980.

On the other hand, the original tool stored in the server 984 is an incompatible original tool 987 (i.e., the incompatible original tool 987 is incompatible with the component architecture for the unified tool in the personal workspace 981), and the second unified tool 987' corresponding to the incompatible original tool 987 is indirectly provided to the personal workspace 981 through the compatible translator 989 and the information input device 9883 of the unified script 980.

In addition, fig. 6 also illustrates that the user configures (e.g., groups or places) the unified information unit 985 ', the first unified tool 986 ' and the second unified tool 987 ' in a specific area of the personal workspace 981 according to the actual application requirement; finally, the user can access or control the corresponding unified information unit by using the unified tool to execute the required task according to the operation relationship between the unified tool and the unified information unit (such as the click action or the drag action between the unified tool and the unified information unit).

Regarding the "specific implementation of UNIFIED script as the intermediate language FOR realizing personal WORKSPACE" and "the user can derive the required UNIFIED information unit and/or the required UNIFIED tool from the corresponding information according to the actual application requirement from the specific implementation of combining into the personal WORKSPACE to execute TASK", which are described IN the present embodiment, refer to the pending U.S. patent application with application number 14/325,466 and name "METHOD FOR PERFORMING UNIFIED information ON units IN personal WORKSPACE" and refer to the chinese patent application with application numbers 14/324,069 and 14/325,466 as the basis of priority requirements, with application number 201410796528.4, and name "METHOD FOR PERFORMING combined work ON UNIFIED elements IN personal WORKSPACE and computer program product and system applying the METHOD", are assigned to the same assignee and will not be described in detail herein.

It should be noted that the personal workspace is only one embodiment of the workspace, and the workspace applicable to the present invention is not limited to the above. For example, a unified script as an intermediate language for implementing a workspace can be edited in advance to make the workspace become a workspace with a preset element converter and/or preset information and/or preset tools built therein, and such a workspace is not limited to a personal operation, and can be provided for a plurality of users to perform operations simultaneously or separately according to actual application requirements. Moreover, the workspace can be projected to any electronic device with computing capability by a method of projecting the workspace, so that a user can operate the projected workspace on any electronic device with computing capability.

In one embodiment, a method of projecting a workspace comprises: first, a projectable space instance (projectable space instance) generated by a unified script is obtained through a Uniform Resource Identifier (URI); wherein the unified script is defined to configure at least one of the element converter, the information and the tool to build a workspace (as previously described), and the projectable space entity is used to build a projected workspace corresponding to the workspace to provide an interface for operating at least one of the element converter, the information and the tool to perform a task; then, a projection means (projector) is used to interpret the projectable space entity and establish an operating environment for at least one of the element converter, the information and the tool to be configured in the projectable space entity, so as to further execute the projected workspace, thereby providing at least one user to interact with the projected workspace.

Wherein the projection means can be obtained from the remote data station, the projectable space entity or the preloaded application program, and loaded into an engine (engine) for providing a compatible environment to execute the projection means, and the engine can include, but is not limited to, a Javascript engine, a window application program and/or a Linux application program; furthermore, the unified script may be declared by a Document Type Definition (DTD), an extensible markup language schema (XML schema), a structured language (structured language), or a structured protocol (structured protocol), but not limited thereto; the projectable space entity may be an object (object), an extensible markup language (XML) file, or an entity (instance) generated by a structured language (structured language) or a structured protocol (structured protocol), but is not limited thereto.

Further, the method of projecting a workspace will be described in more detail below with reference to some embodiments. Referring to fig. 7, fig. 8A to 8B and fig. 9, fig. 7 is a schematic diagram illustrating an initial state of the method for projecting a workspace in accordance with a preferred embodiment, fig. 8A and 8B are schematic diagrams illustrating an operation concept of the method for projecting a workspace, and fig. 9 is a schematic diagram illustrating a relative relationship between a projectable space entity shown in fig. 7 and a projected workspace shown in fig. 8B. In the initial state shown in fig. 5, there are a first electronic device 971 and a second electronic device 972 that can be connected to each other (e.g., connected via a network), the first electronic device 971 stores a projectable space entity 973, and the second electronic device 972 has a built-in projection means 974.

Also, the unified script 980 is declared by a Document Type Definition (DTD) and is defined to configure at least one information input device (which is an implementation aspect of the element transformer) and/or at least one unified information element and/or at least one unified tool to build a workspace, and the projectable space entity 973 is an extensible markup language (XML) generated object, which is used to build (build) a projected workspace 976 corresponding to the workspace and is allowed to be added or removed from the information input device and/or the unified information element and/or unified tool, as shown in fig. 9. The above description will be described in more detail as follows.

Furthermore, the projection means 974 of the second electronic device 972 establishes an operating environment 975 for the projected workspace 976 to operate on the second electronic device 972, and provides a micro kernel 977 (see fig. 9) for the operating environment 975 to load (equal) at least one information input device and/or at least one unified information unit and/or at least one unified tool to be added to the projected workspace 976; when the second electronic device 972 obtains the projectable space entity 973 in the first electronic device 971 through a path connection message, the projection means 974 in the second electronic device 972 starts to interpret the projectable space entity 973, as shown in fig. 8A; moreover, after the projectable space entity 973 is interpreted by the projection means 974, the projected workspace 976 is established on the working environment 975 according to the content interpreted by the projectable space entity 973, as shown in fig. 8B, so that a user at the end of the second electronic device 972 can interact with the projected workspace 976 through the second electronic device 972 to perform related tasks.

The interrelationship of the unified script 980, the projectable space entity 973, and the projected workspace 976 is further described below in the context of use shown in fig. 9. The use scenario illustrated in FIG. 9 is: a workspace is created that can be projected and read jpg picture files and gif picture files stored in a designated network space for viewing by a user, and in this use scenario, the unified script 980 is declared as a Document Type Definition (DTD), and the projectable space entity 973 is generated in extensible markup language (XML).

Moreover, an information input device and a unification tool are added to the projectable space entity 973, and the information input device is used to input at least one unification information unit corresponding to the original information into the projected workspace 976; in the present use scenario, the information input device is a Dropbox input device (i.e. the dashed box 9761 in fig. 9), the original information is the jpg picture files 9791, 9792 and gif picture file 9793 in the Dropbox 979 information source, the unified information units are the unified jpg picture files 9791 ', 9792 ' and unified gif picture file 9793 ' described later, and the unified tool is a picture reader (i.e. the dashed box 9762 in fig. 9) for reading the picture files input into the projected workspace 976.

As described above, the projected workspace 976 is established after the projectable space entity 973 is interpreted by the projection means 974 in the second electronic device 972. In this embodiment, a Dropbox input device 9761 '(corresponding to the illustrated dotted line box 9761) and a picture reader 9762' (corresponding to the illustrated dotted line box 9762) are disposed on the projected workspace 976, and the Dropbox input device 9761 'further unifies and inputs the jpg picture file 9791, the jpg picture file 9792 and the gif picture file 9793 in the Dropbox 979 into the projected workspace 976, so that the unified jpg picture file 9791', the unified jpg picture file 9792 'and the unified gif picture file 9793' corresponding to the jpg picture file 9791, the jpg picture file 9792 and the gif picture file 9793, respectively, are presented on the projected workspace 976. Then, when the user at the second electronic device 972 operates any one of the unified jpg picture file 9791 ', the unified jpg picture file 9792 ' and the unified gif picture file 9793 ' through a specific operation manner (for example, clicking one of the unified jpg picture file 9791 ', the unified jpg picture file 9792 ' and the unified gif picture file 9793 ', or dragging one of the unified jpg picture file 9791 ', the unified jpg picture file 9792 ' and the unified gif picture file 9793 ' to the picture reader 9762 '), the picture reader 9762 ' reads the content of the corresponding one of the unified jpg picture file 9791 ', the unified jpg picture file 9792 ' and the unified gif picture file 9793 ', and presents the content of the corresponding one of the unified jpg picture file 9791 ', the unified jpg picture file 9792 ' and the unified gif picture file 9793 ' for the user to view. The Dropbox input 9761 'and the picture viewer 9762' are loaded by the micro core 977 (equip).

Specifically, the path link information of the projectable space entity 973 may be hypertext transfer protocol (HTTP) path link information or File Transfer Protocol (FTP) path link information, and if the first electronic device 971 and the second electronic device 972 are a common device, the path link information of the projectable space entity 973 may also be local file link information, but the type of the path link information is not limited thereto. In addition, the projectable space entity 973 can be accessed by an authorized user or an authorized electronic device, besides being accessed by the original editor, for example, but not limited thereto, an authorized user can obtain the projectable space entity 973 through the path connection information via the authorized user account and the password.

THE techniques disclosed in U.S. patent application No. 14/577,772 entitled METHOD OF projecting a space file AND SYSTEM USING THE SAME, and U.S. patent application nos. 14/324,069, 14/325,466, 14/577,772 as THE basis for claim priority, and chinese patent application No. 201410814138.5 entitled system for a METHOD OF projecting a workspace and a system for applying THE METHOD OF projecting a workspace, which are assigned to THE SAME assignee, are applicable to THE preferred embodiments OF THE present invention. The contents of the above-mentioned pending patent application are incorporated herein by reference.

It should be noted that the method for projecting the workspace is only one projection method for projecting the workspace to any electronic device with computing capability, but the projection method for projecting the workspace to any electronic device with computing capability is not limited to the above, and those skilled in the art can make any equivalent design changes according to the actual application requirements.

The method for controlling one or more electronic devices according to the present invention will be described in detail with reference to the following embodiments and accompanying drawings. First, the method for controlling and managing electronic devices of the present invention mainly enables various electronic devices to automatically and adaptively operate according to actual needs and use conditions, so as to reduce the difficulty of operation and reduce the manpower consumption of manual control. The electronic devices may be different electronic devices, wherein different electronic devices generally refer to the same type of electronic devices manufactured by different manufacturers but providing similar functions, or different types of electronic devices provided with different functions but manufactured by the same manufacturer, or different types of electronic devices manufactured by different manufacturers and providing different functions. Although the following description applies the method for controlling an electronic device according to the present invention to intelligent home appliances, the invention is not limited thereto, and may be applied to other suitable systems such as medical facilities, security control systems, fire protection and security control systems, and transportation systems.

Please refer to fig. 10, which is a flowchart illustrating a preferred method of controlling a plurality of electronic devices according to the present invention. The method for controlling the electronic device comprises the following steps: step P1, providing a projectable spatial entity for constructing a workspace to a control machine, wherein the projectable spatial entity is selectively added by an analysis and control tool, a data monitoring tool and at least one unification tool for driving at least one electronic device; and a step P2 of interpreting the projectable space entity by a projection means in the control machine to automatically create a projected workspace corresponding to the workspace created by the projectable space entity, wherein the data monitoring tool retrieves a data message of the at least one electronic device through the at least one unification tool, and the analysis and control tool analyzes the data message and controls the at least one electronic device through the at least one unification tool according to the analysis result.

The projectable space entity is configured according to a control program to be performed by a user for controlling the machine as desired (further described in embodiments below).

Referring to fig. 11 to 13, fig. 11 is a schematic diagram illustrating an initial state before a projected workspace is established, fig. 12 is a schematic diagram illustrating a generated projected workspace, and fig. 13 is a schematic diagram illustrating a relative relationship between the projectable spatial entity shown in fig. 11 and 12 and the projected workspace shown in fig. 13.

In the usage scenario shown in fig. 11, there are a first electronic device 21, a second electronic device 22, a configuration machine 23, a control machine 24, and a storage device 25 that are connected to each other, for example, through a network. The first electronic device 21 and the second electronic device 22 are respectively provided with a first communication chip 211 and a second communication chip 221, and the first communication chip 211 and the second communication chip 221 are respectively developed based on a first communication protocol and a second communication protocol. The first communication protocol and the second communication protocol may be the same or different. The control machine 24 may be a computer, a household appliance, a handheld electronic device, or a wearable electronic device, but is not limited thereto. In the preferred embodiment, the first communication chip 211 is a communication chip developed based on the AllJoyn open software architecture, and the second communication chip 221 is a communication chip developed based on the Digital Living Network Alliance (DLNA) communication protocol, but not limited thereto.

According to the present invention, the control machine 24 controls the first electronic device 21 and the second electronic device 22 to perform a task according to the actual requirement of the user 8. First, the configuration machine 23 (for example, but not limited to, a computer) has a projectable space entity 31 therein, and the projectable space entity 31 is created and compiled according to the actual requirements of the user 8, that is, in the preferred embodiment, the user 8 can suitably add the analysis and control tool 42, the data monitoring tool 43, and the plurality of unification tools 41 corresponding to the first electronic device 21 and the second electronic device 22 to the projectable space entity 31 and compile the control rule 44(control rule) of the control machine 24. Thus, when the projectable space entity 31 is loaded into the control machine 24 (for example, but not limited to, by means of routing information), the control machine 24 interprets the projectable space entity 31 and thus establishes a projected workspace 32. The data monitoring tool 43 retrieves the data information of the first electronic device 21 and the second electronic device 22 and transmits the data information to the storage device 25 for storage, so that the analysis and control tool 42 can obtain the data information stored in the storage device 25. Then, the first electronic device 21 and the second electronic device 22 are controlled according to the analysis result.

In particular, the projected workspace is established by controlling a projection means 241 in the machine 24. The projection means 241 establishes a working environment 2411 for the projected workspace 32 to operate on the control machine 24, and provides a micro core 2412 corresponding to the workspace to equip (acquiring) and open (launching) the analysis and control tool 42, the data monitoring tool 43 and the plurality of unification tools 41 compiled into the projectable space entity 31. When the control machine 24 loads the projectable space entity 31 into the configuration machine 23, the projection means 241 starts to interpret the projectable space entity 31, and after the projectable space entity 31 is interpreted by the projection means 241, the projected workspace 32 is established on the working environment 2411 according to the content interpreted by the projection means 241, so that the data monitoring tool 43 can retrieve and transmit the data information of the first electronic device 21 and the second electronic device 22 to the storage device 25 for storage according to the control rule 44, and the analysis and control tool 42 can obtain and analyze the data information from the storage device 25 and control the first electronic device 21 and the second electronic device 22 according to the analysis result. The projection means 241 may be built in the control machine 24 or may be loaded from an external storage device (not shown) through a network.

Furthermore, in the preferred embodiment, the unification tools 41 include a unified first driver 411 formed by unifying the first drivers by a unification method and a unified second driver 412 formed by unifying the second drivers by the unification method. The first driver and the second driver correspond to the first electronic device 21 and the second electronic device 22, respectively, and the projectable space entity 31 is an object instantiated by an extensible markup language (XML). Fig. 13 illustrates the relationship of the projectable space entity 31 and the projected workspace 32, as indicated by the dashed line. In the preferred embodiment, the first driver and the second driver can be developed by Software Development Kit (SDK) corresponding to the first electronic device 21 and the second electronic device 22, respectively, and are placed in a specific storage device with networking function, but not limited to the above.

Please refer to fig. 14, which is a schematic diagram illustrating an interaction concept of group management between a projected workspace and a first electronic device and a second electronic device in a control machine according to the present invention. In the embodiment, in the forming process of the projected workspace 32, the unified first driver 411, the unified second driver 412, the analysis and control tool 42 and the data monitoring tool 43 are configured in the projected workspace 32 after undergoing a unification (unification) procedure, and the unified first driver 411 can communicate with the first communication chip 211 of the first electronic device 21 through the first communication protocol, and the unified second driver 412 can communicate with the second communication chip 221 of the second electronic device 22 through the second communication protocol. Specifically, since the unified first driver 411, the unified second driver 412, the analysis and control tool 42 and the data monitoring tool 43 are all configured in the projected workspace 32 through the unified program, the unified first driver 411, the unified second driver 412, the analysis and control tool 42 and the data monitoring tool 43 can be compatible with each other and can communicate with each other. In this way, the data monitoring tool 43 can retrieve the data information of the first electronic device 21 and the data information of the second electronic device 22 through the unified first driver 411 and the unified second driver 412 respectively and then transmit the data information to the storage device 25 for storage. The analyzing and controlling tool 42 can also control the first electronic device 21 and the second electronic device 22 through the unified first driver 411 and the unified second driver 412, respectively, after analyzing the data information stored in the storage device 25.

The method for controlling an electronic device according to the present invention is described as follows. In a first example, the first electronic device 21 and the second electronic device 22 are respectively a first lamp and a second lamp of a public space of a building, and the first electronic device 21 and the second electronic device 22 are both provided with a human body sensor to detect whether a person enters or exits the sensing range; the user 8 can compile the projectable space entity 31 according to the energy saving and power saving requirements, so as to add the first driver 411 corresponding to the first electronic device 21 and unified, the second driver 412 corresponding to the second electronic device 22 and unified, the analysis and control tool 42, and the data monitoring tool 43 into the projectable space entity 31. Therefore, when the projected workspace 32 is established on the control machine 24, the data monitoring tool 43 can retrieve the sensed data of the first electronic device 21 and the second electronic device 22 and transmit the sensed data to the storage device 25 for storage. For example, a first light fixture sensor detects a first number of persons passing through a first area in which a first light fixture is installed during a first specific time, and a second light fixture sensor detects a second number of persons passing through a second area in which a second light fixture is installed during a second specific time. The sensing data is transmitted to the storage device 25 for storage. The analyzing and controlling means 42 then analyzes the sensed data stored in the storage device 25 to obtain the pedestrian traffic status associated with the first light fixture and the second light fixture, respectively. According to the analysis result, i.e. the pedestrian traffic situation, the analysis and control tool 42 can independently or interactively control the first lamp and the second lamp according to a suitable control rule.

In a particular example, the building is an office building. The analysis and control tool 42 obtains the traffic status in the first area where the first lamp 21 is installed, because the number of people passing through the next work period is large, the first electronic device 21 is controlled to output illumination with high brightness. On the contrary, the analysis and control tool 42 obtains the traffic situation in the first area, in which the number of passing persons is small in the midnight period, so that the first lamp 21 is controlled to output the illumination with low brightness, or the first lamp 21 is controlled to output the illumination only when the passing person is sensed. Similarly, the second electronic device 22 can be controlled similarly or according to other control rules.

Similarly, all lights in a building can be managed independently or interactively. Therefore, the power saving effect can be obtained without respectively carrying out specific design on each lamp. Therefore, compared with the prior art, the invention also brings the effect of saving manpower.

In a second example, the first electronic device 21 is a sound sensor disposed near the sofa in the living room, and the second electronic device 22 is a five-piece speaker set surrounding the living room; among them, the requirement of the user 8 is to automatically perform accurate sound positioning on the speaker set through the control machine 24 of the present invention, so that the user can feel the best surround sound effect when sitting on the sofa; based on this, the user compiles the projectable space entity 31 according to the requirement, so that the analyzing and controlling tool 42, the data monitoring tool 43, the unified drivers corresponding to the sound sensors, and the unified drivers corresponding to the speakers of the speaker set respectively are added to the projectable space entity. Therefore, after the projected workspace 32 is built in the control machine 24, the data monitoring tool 43 can capture the sensing data of the sound sensor (sound data belonging to a plurality of orientations respectively) and transmit the sensing data to the storage device 25 for storage, and the analyzing and controlling tool 42 can control the speakers in the speaker set after analyzing the sensing data stored in the storage device 25 to determine which speakers in the speaker set should be enhanced or which should be attenuated. By using the control machine 24 of the present invention, any user can easily install the surround sound at home without the assistance of a professional sound locator.

It is to be noted that, in the method for controlling an electronic device according to the present invention, the analysis method to be adopted by the analysis and control tool 42 can be selected according to the actual application requirements, and a plurality of Data mining-related algorithms exist in the market for application.

As can be seen from the above description, the present invention provides a method of managing one or more home appliances that employ different communication protocols or communication chips. The electronic devices can be automatically operated according to actual application requirements, so that the labor consumption caused by the design of a complex control flow or manual control can be reduced, and the life of people is facilitated.

It is to be understood that all the above embodiments are merely exemplary, and those skilled in the art can make any equivalent design changes according to the actual application requirements. For example, the change may be designed to control the machine and configure the machine as a common machine; for example, the data monitoring tool may be designed to be disposed in the analysis and control tool, or the analysis and control tool may be designed to be disposed in the data monitoring tool, or the data monitoring tool and the analysis and control tool may be designed as a common tool. Further, it is possible to change the storage device to be provided in the control device.

The above description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the claims, therefore, other equivalent changes and modifications should be made without departing from the spirit of the present invention.

Claims (22)

1. A method of managing different types of electronic devices, comprising:

providing a projectable space entity for constructing a workspace to a control machine, wherein the projectable space entity is selectively added by an analysis and control tool, a data monitoring tool and at least one unification tool for driving at least one type of electronic device; and

and interpreting the projectable space entity by using a projection means in the control machine to automatically establish a projected working space corresponding to the working space established by the projectable space entity, wherein the data monitoring tool captures data information of the at least one type of electronic device through the at least one unification tool, and the analysis and control tool analyzes the data information and controls the at least one type of electronic device through the at least one unification tool according to an analysis result.

2. The method of claim 1, wherein the at least one unification tool comprises at least one unified driver formed by unifying the at least one driver through a unification method.

3. The method of claim 2, wherein the at least one driver is developed from a software development kit corresponding to the at least one electronic device.

4. The method of claim 2, wherein the at least one unifying tool comprises a plurality of drivers that are unified, each driver being formed by unifying a plurality of drivers for driving a plurality of electronic devices; the plurality of drivers are arranged in the projected working space after being unified so as to be compatible with each other.

5. The method of claim 1, further comprising:

and storing the data information of the at least one type of electronic device, which is captured by the data monitoring tool, into a storage device for the analysis and control tool to obtain for analysis.

6. The method of claim 1, wherein the at least one different type of electronic device is at least two different types of electronic devices manufactured by different manufacturers or providing different functions.

7. The method of claim 1, wherein the at least one different type of electronic device is at least two different types of electronic devices manufactured by different manufacturers and providing different functions.

8. The method of claim 1, wherein the method is used to control a home appliance system, a medical device system, a security control system, or a transportation system.

9. The method of claim 1, wherein the method is used to administer a fire safety control system.

10. The method of claim 1, wherein the control machine is selected from a computer, a household appliance, a handheld electronic device, a wearable electronic device, or a combination thereof.

11. The method of claim 1, wherein the projectable spatial entity is an object, an extensible markup language, or an entity generated in a structured language or a structured protocol.

12. The method of claim 1, wherein the data monitoring tool is disposed in the analysis and control tool, or the analysis and control tool is disposed in the data monitoring tool, or the data monitoring tool and the analysis and control tool are a common tool.

13. A control machine for controlling different types of electronic devices, the control machine comprising a projection means for interpreting a projectable spatial entity to construct a projected workspace corresponding to a workspace constructed by the projectable spatial entity, wherein the projectable spatial entity is selectively populated by an analysis and control tool, a data monitoring tool, and at least one unification tool for driving at least one type of electronic device; and when the projected working space is built and operated, the data monitoring tool captures data information of the at least one type of electronic device through the at least one unification tool, and the analysis and control tool analyzes the data information and controls the at least one type of electronic device through the at least one unification tool according to an analysis result.

14. The control machine of claim 13, wherein the at least one unification tool comprises at least one unified driver formed by unifying the at least one driver through a unification method.

15. The control machine of claim 14, wherein the at least one driver is developed from a software development kit corresponding to the at least one electronic device.

16. The control machine of claim 14, wherein the at least one unifying tool comprises a plurality of drivers that are unified, each driver being formed by unifying a plurality of drivers for driving a plurality of electronic devices; the plurality of drivers are arranged in the projected working space after being unified so as to be compatible with each other.

17. The control machine of claim 13, further comprising a storage device for storing the data information of the at least one type of electronic device captured by the data monitoring tool for further retrieval by the analysis and control tool for data information analysis.

18. The control machine of claim 13, wherein the at least one different type of electronic device is at least two different types of electronic devices manufactured by different manufacturers or providing different utilities.

19. The control machine of claim 13, wherein said at least one different type of electronic device is at least two different types of electronic devices manufactured by different manufacturers and providing different utilities.

20. The control machine of claim 13, wherein the data monitoring means is disposed in the analysis and control means, or the analysis and control means is disposed in the data monitoring means, or the data monitoring means and the analysis and control means are a common means.

21. The control machine of claim 13, for controlling an appliance system, a medical device system, a safety control system, or a transportation system.

22. The control machine of claim 13, for controlling a fire safety control system.

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