WO2012060679A1 - Community-based smart home system - Google Patents

Abstract

A method for deployment of a community-based smart home system through a shared and remotely located smart home controller. The inventive system aims to enable a rapid and mass deployment of a smart home and a smart home community that will eventually eliminate the need of an individual home-based smart home controller for a house. The inventive system comprises a plurality of device interface modules positioned within a house, a community-based smart home controller located at remote location, wherein constantly in communication with the plurality of device interface modules via the internet. The inventive system enables a user to view, monitor and control various electronic devices at house through a web-based user interface. In addition, the inventive system also helps to bolster interactivity among the member of a smart home community and the guard station via the user interface and the community interface provided.

Description

Title: Community-Based Smart Home System

Technical Field

This invention relates to a method for deployment of a community-based smart home system through a shared and remotely located smart home controller.

Background Art

In a non smart home environment, all electronic devices (e.g. security system, surveillance system, and lighting system) located in the house are considered mutually independent; separately functioning in a nonintegrated environment. In other words, these electronic devices are unable to communicate with each other, let alone perform automation or to be controlled remotely by a user via the internet. These limitations are mainly attributable to the non-existence of an electronic controller at the house that functions as a central processing unit (CPU) to coordinate and execute smart home operations.

In contrast, a smart home is a house equipped with a central processing unit or simply known hereafter as a smart home controller which is mandated to act as a CPU to integrate, control, and automate various electronic devices located in a house. A smart home controller when functioning in tandem with a home gateway or a web server enables a user to access, manage, and control electronic devices in their house remotely; bringing convenience and safety to the everyday life.

Conventionally, a smart home system requires the smart home controller to be physically located within the compound of a house. The smart home controller is then capable to receive an array of input signals transmitted by the various types of sensors such as a presence sensor, a reed sensor or a thermostat. Besides this, the smart home controller can also receive command signals originated by a user through human machine interfaces such as keypads or web browser interfaces. Subsequently, input signals that reached are analyzed and responded by the smart home controllers in accordance to the defaulted system or the user preferences. For example, the user can program the smart home controller to perform a series of tasks such as to turn on a light, to take a snap shot via a surveillance camera or to notify the user in the event of a breach in security.

With this conventional smart home system, a smart home controller is indispensible and has to be installed for each and every home. Hence, this type of smart home system is also known as individual home-based smart home system and is primarily intended for individual usage only. In view of this, it is therefore very tedious and time consuming if one intends to adapt and utilize this type of smart home system to convert a plurality of individual homes to become a smart home community which may comprise of hundreds and thousands of individual homes. As such, it may take years of labour in order to materialize a community of said one thousands units of smart homes, without even considering other requirements such as the level of competency and knowledge possess by individual technician to carry out the task. To overcome these disadvantages, a new approach of smart home system for large community usage has to be devised as driven by the needs to achieve rapid and mass deployment purposes. Therefore, the community-based smart home system according to the present invention substantially departs from the individual home-based smart home system of the prior art, and in so doing provides a system and method that not only enables existing houses to be converted into smart homes with ease but also enable seamless integration of individual smart home into one massive, fully integrated smart community. Thus, this method is poised to shed new light towards the realization of the long mulled concept of smart community and connected township.

Disclosure of Invention

The present invention aims to enable a rapid and mass deployment of a smart home and a smart home community with a shared and remotely located smart home controller that will eventually eliminate the need of an individual home-based smart home controller in the house. The present invention represents a paradigm shift where the locally held home- based smart home controller is being shifted to a remote and centralized location and shared amongst a plurality of houses and users. This present invention brings about the advantages of economies of scale and utilizes internet protocol (IP) over broadband connection as a communication pipeline. Besides, this invention is also poised to reduce the complexity of the conventional smart home system to become a truly modular and plug and play solution that could be implemented by any lay person.

To accomplish the above intention, this invention only require a users to install a plurality of relatively cheaper and simple device interface modules in lieu of the more expensive home-based smart home controller. A devices interface module is a modular electronic device to bridge between the conventional electronic devices in the house with the remotely held community-based smart home controller. These device interface modules are solely used for data conversion and communication purposes and do not possess the full capability of a home-based smart home controller for system integration, automation, and control purposes.

These device interface modules include amongst others a security interface module that work in tandem with a conventional security system, a camera interface module that work in tandem with a surveillance system, a lighting interface module that work in tandem with a lighting system, and so forth. In this scenario, a device interface module captures and encodes any analog signal into an encrypted IP signal before transmitting over to the community-based smart home controller via a high speed broadband. As such, the functionality and capability of a smart home system in the present invention is brought to reality by the community-based smart home controller.

The community-based smart home controller in this present invention is designed to imitate a conventional home-based smart home controller. A software algorithm or a computer program is deployed to perform system integration and automation for the electronic devices in a house. For example, once a signal from a house is received by the community-based smart home controller, it will first interpret and validate the received signal before passing around the received signal for further analysis and data fusion. Once the analysis and data fusion is accomplished, a series of IP signals could be sent back to the respective device interface modules located in the house to perform tasks such as to turn on the designated light if it is dark, to capture an image via the designated camera, and to issue a pre-recorded warning to scare off a burglar.

From the above description, a number of advantages of the present invention become evident:

(a) It enables a rapid and mass deployment of a smart home and a community of smart home.

(b) It lowers the entry level for the adoption of smart home system by leveraging on the concept of shared resource and the economy of scale.

(c) It allows a user to adopt a smart home system incrementally or at a technology level that they are comfortable with and willing to pay for.

(d) It enables the deployment of smart home for mass retrofit market by providing a plug and play solution.

(e) It enables a fully integrated smart home community.

Description of Drawings and Best Mode for Carrying Out the Invention

In order that the invention may be more readily understood and put into practical effect, a preferred example of the invention will now be described with reference to the accompanying drawings, in which:

FIG.1 illustrates the overall arrangement of the community-based smart home system according to the embodiment in the present invention;

FIG.2 illustrates a mean for interactivity between individual houses and guard station in a smart community via a user interfaces and a community interface.

FIG.3 illustrates the relation between the various types of electronic devices and its corresponding device interface modules located in the house.

FIG.4 illustrates the arrangement and the components which constitute the community- based smart home controller located at remote location.

FIG.5 illustrates a flowchart of the operation of the present invention when an event occurs at the house.

The community-based smart home system as shown in FIG. l broadly comprises a plurality of individual houses 101 located within a community 100 and is safeguarded by a guard station 104. In turn, each of the individual houses 101 is equipped with a plurality of electronic devices 103 and a plurality of device interface modules 102 located in the house. The device interface modules 102 in this embodiment provide bridging connection between the electronic devices 103 and the remotely located community-based smart home controller 105. The device interface modules 103 in this embodiment are always in constant communication with the community-based smart home controller 105 located at remote location via the internet connection 104. The individual houses 101 as shown in F1G.1 represents a conventional house which is not equipped with any smart home controller or any sort of electronic-based devices which may be utilized as a smart home controller to coordinate and automate various electronic devices 103 in the house. In light of this limitation, a plurality of devices interface modules 102 are used to connect the plurality of electronic devices 103 to the community-based smart home controller 106 and thus enable any conventional house to become a smart home.

The plurality of device interface modules 102 in the present embodiment comprises of security interface module 301, lighting interface module 302, and various other types of interface modules that can be utilized to monitor and control the house. The homeowner or user can monitor and control the plurality of electronic devices 103 in the house by using a user interface 201 such as a web browser on a computer and a smart phone terminal 107.

The community-based smart home controller 106 is capable to perform group conversion of individual houses 101 to become smart homes as opposed to the conventional smart home system which is solely for individual home usage only. In this respect, a plurality of individual houses 101 only necessitates a deployment of one community-based smart home controller 106 which is to be shared among a community member. A community according to this embodiment should not be limited only to a community which are formed by a plurality of houses which are geographically close by but it should also encompassed a virtual community which are formed by a plurality of houses which are not geographically close by such as those houses of a relatives, friend, or any society of any purposes.

The community-based smart home controller 106 is hosted and maintained by a smart home service provider. As such, a new breed of smart home service providers could be spawned from the present invention.

As shown in FIG.2, the community-based smart home controller 106 is also capable to provide interactivity among the individual houses 101 and the guard station 104 in a community via the provisioned user interface 201 and a community interface 202.

For instance, should a security system of a house 202 get activated, a security signal will be sent from the triggered house 202 to the community-based smart home controller 106 via the security interface module 301. After a successful round of signal validation, a notification will be sent by the community-based smart home controller 106 to both the user and guard station 104 in the community. The notification signal will subsequently display simultaneously at the user interface 200 and the community interface 201. Security guards on duty can therefore easily spot the triggered house 202 and dispatch a patrol to the house immediately.

A user can log into the user interface 200 and start communicating with the guard station via a "Guard Call" feature 204. At the same time, a security guard on duty can provide a response to the user via a "Guard Response" feature 206 as included in the community interface 201. This feature provides an added benefit to a resident in the connected community as they can instantly communicate with the guard station 104 for help in cases of emergency or for alarm verification purposes. This feature is important especially when house owners or user are out of the town.

In addition, a "community eye" feature 203 as included in the user interface 200 will help to foster inter community collaboration among member of a community 100 as all members in the same community can view street cameras within the compound and thus increase the chances to spot any suspicious event or person. Subsequently, a user can also make a report to the guard station 104 by executing the "Report a Break In" feature 205 as included in the user interface 200 to inform the guard station 104 about any suspicious event or persons.

Other feature of a smart community is the monthly reporting features 207 that will help to summarize the security status of the community 100 such as the number of false alarms, number of break-ins and so forth.

As shown in FIG.3, the plurality of device interface modules 102 is located in a home to enable a connection between the plurality of electronic devices 103 and the remotely located community-based smart home controller 106 through a router 305 to the global internet connection 103.

The plurality of electronic devices 103 for example comprise of a lighting fixture, a security system, a surveillance system, an audio-visual system, an air conditioning unit and so forth. The communication between the plurality of electronics devices 103 and its corresponding device interface modules 102 are carried out via various types of home bus 306 methods. These home bus 306 methods amongst others include a radio wave transmission, an infrared signaling, cable, XI 0 or other known communication means in this art. For example, a lighting interface module 303 in this embodiment could communicate with the existing lighting fixture in the house via a XI 0 signal; while a camera interface module 302 could communicate with a digital video recorder via serial communication protocol or via a proprietary HTTP command as provided by the respective camera manufacturer.

Succinctly said, the functionality of a device interface module 102 as shown in this embodiment is to present a constant communication interface between the electronic devices 103 in the house and the community-based smart home controller located at remote location. The operation of a device interface module 103 therefore involve various procedures such as to receive an input signal from an electronic device 103, to encode any received signal to an appropriate IP format, and then to transmit it to the community- based smart home controller 106 via the internet 105 connection. The device interface modules 102 are therefore solely responsible for data conversion and communication purposes only. And thus a device interface module 102 is said to be only possessing a partial capability of a fully functioning conventional smart home controller which also capable of performing more intricate operations such as data fusion and analysis. As a result, a device interface module 102 is deemed to be relatively cheaper and could be deployed in a modular basis. Example of a devices interface modules 102 as shown in FIG.3 are such as a security interface module 301, a camera interface module 302, a lighting interface module 303, and a voice interface module 304.

A more detailed example of the operation of the device interface modules 102 are described in this section. A security system which is essentially an electronic device is used to detect an emergency situation which occurs in a house. Specifically, when a security system detects that a window is broken; it will issue an alarm signal to the security interface module 301 in the house. The security interface module 301 in turn will encode the received signal to an appropriate IP based alarm signal before transmitting it to the community-based smart home controller 106 for further processing and analysis. Once the IP based alarm signal is received and validated by the community-based smart home controller 106, a series of responses could be initiated in accordance to the user's preferences. For example, a series of IP based signals could be transmitted back to the respective device interface modules 102 in the house, such as to request for real time alarm information via the security interface module 301; to take a snap shot from the designated camera via the camera interface module 302; to turn on the designated light via the lighting interface module 303; to issue a pre-recorded warning via the voice interface module 304 and blare it over the speakers in the house. In this respect, the possibility and variety of responses that could be initiated by the community-based smart home controller 106 is enormous and is seemed only confined by a user's imagination and also the availability of the device interface modules 102 at home.

Besides, based on this embodiment, a user therefore empowered with the ability and flexibility to adopt the smart home system gradually according to his need and financial capability. This greatly departs from the conventional home-based smart home system whereby the all-in-one smart home controller must be deployed at once.

While the above description contains many specificities, these should not be construed as limitations on the scope of this invention, but as exemplifications of the presently preferred embodiments thereof. Thus the scope of the invention should be determined by the appended claims and their legal equivalents, and not by the examples given.

As shown in FIG.4, the community-based smart home controller 106 according to this embodiment comprises of three technology layers, namely the smart home application layer 401, the database layer 402, and the interfacing layer 403. These three technology layers work in one fully integrated and synergistic environment. Each technology layer in this embodiment in turn is constituted by various servers such as an smart home application server, a database server, a web server, a voice over IP (VoIP) server and so forth. In essence, the community-based smart home controller 106 is capable of receiving, processing, storing and transmitting various types of IP based signals and other related data such as a text, a sound, a video, a SMS and so forth.

The smart home application layer 401 is the centre processing unit of a smart home which comprises of various virtual components such as an input signal buffer 404, an output signal buffer 405, a signal validation unit 405, a signal parser 406, a data fusion and analysis unit 407, and a device heath monitoring unit 409.

The database layer 402 comprises of a system database server 410 which is mainly responsible to hold system-wise's information that facilitate the operation of the signal parser unit 406, a customer database server 411 which is responsible to hold historical data and information regarding an individual houses and a user's preference, a community database server 412 which is responsible to hold information related to a community's setting and preferences.

Whist, the interfacing layer 403 comprises of a web server 413 which is responsible to display and enable the user interface 200 and the community interface 201, a SMS server which is responsible to facilitate all SMS communication, a VoIP server which is responsible to receive, originate, and coordinate all voice communication among users, and a mail server 416 which is responsible for electronic mail communication purposes

A detailed example of the operation for the community-based smart home controller 106 is given in this section. Based on this embodiment, when the community-based smart home controller 106 receives a signal from the device interface modules 102 located in the house, it will first divert the received signal into an appropriate channel or port of the smart home application server 401 as pre-configured in a router 305. For example, a security and lighting ports of the smart home application server 401 could be configured to 50000 and 50009 respectively. Once a signal arrived at its intended port, the signal will be temporarily held at the input signal buffer 404. Subsequently, the signal is passed to the signal validation unit 405. In this unit, the raw IP signal will be decoded into an appropriate data before a signal validation process such as a check sum could be kick started to validate the data. After a successful round of data validation, the decoded data is send to the signal parser unit 406. The data will subsequently be further interpreted into more meaningful and human readable information before being stored at the customer database 411 and the community database 412 accordingly. The signal parser unit 406 mainly comprises of a collection of various communication standards, protocols or devices' drivers as provided by respective devices manufacturers. In other words, the signal parser unit 406 is a repository to facilitate signal interpretation of which contained a variety of communication standards and protocols such as the Contact-ID communication protocol for security industries, the HTTP protocols of respective camera manufacturers, the XI 0 protocol for lighting control purposes, and so forth.

After the parsed data is stored at the appropriate database, the data fusion and analysis unit 407 will commence. The data fusion and analysis unit 407 is the main computer program which contains the computer algorithm that provides artificial intelligence to the community-based smart home controller 106. At this unit, the computer program will integrate and automate various electronic devices 103 in the house in accordance to the user preferences such as to request for real time alarm information, to take a snap shot via the designated camera, to turn on the designated light, to issue a pre-recorded warning and so forth through the output signal buffer 408 to the corresponding device interface modules 102 located in the house. A user could furnish his preferences to the community- based controller 106 via the programming feature 208 embedded in the user's interface 200. Besides this, the data fusion and analysis unit 407 is also capable to generate and transmit various telecommunication formats such as to transmit a SMS message via the SMS server 414, to transmit an electronic mail via the mail server 416, or even to originate a voice call via the VoIP server 415.

In addition, the device health monitoring unit 409 is responsible to perform periodical check on the current health status of each of the device interface module 102 in the house. The device health monitoring unit 409 is assigned to receive and monitor a device's heartbeat, to automate fault detections in the event of loss of image, no dial tone, low battery level, and so forth. In essence, the device health monitoring unit 409 is designed to achieve easy system maintenance for the user. FIG.5 illustrates a flowchart of the operation of the present invention when an event occurs at the home. The description of the flow chart is provided as follow:

(a) As a burglar approaches a house, he accidentally triggers an alarm zone and subsequently activates the alarm 501.

(b) Within a split of a second, an IP based alarm signal is sent to the community-based smart home controller 502.

(c) Upon receiving the alarm signal, the community-based smart home controller will first validate the received alarm signal 503.

(d) The status of the signal validation process will then be stored to the database 511. (e) If the validation is unsuccessful, the program will be terminated. On the other hand, if the validation is successful, the alarm signal will be passed to the next level 504.

(f) A matching process will be performed in order to retrieve information regarding the user's setting and preferences 505.

(g) Subsequently, an analysis will be performed to analyze the relationship between the triggered alarm zone, the camera unit at the vicinity, and the corresponding lighting point as furnished by the user 506.

(h) With this information at hand, an IP based camera signal will be sent to the matched camera to retrieve the real time camera images 507.

(i) The retrieved images will then store to the customer's database 512.

(j) A SMS notification message and an electronic mail (attached with the retrieved camera image) will be sent to notify the users and the guard station simultaneously about the alarm event 508.

(k) Subsequently, an IP based audio signal will be sent to initiate two ways voice communication sessions that allow the users to listen to the premise, talk to the burglar and also issue warning 509.

(1) Lastly, an IP based lighting signal will be sent to turn on the matched lighting points, if it is dark 510.

Claims

CLAIMS:

A method for deployment of a smart home and a community of smart home, comprising the steps of:

a. providing a centralize smart home controller located at remote location wherein said controller capable of being in communication with at least one unit of device interface module in the house via the internet; and,

b. providing said device interface module as a bridge to enable the exchange of signals between said controller and said electronic devices located at said house thus enable control and automation features for said house, and,

c. providing an user interface wherein said user interface enable a user to control and automate said electronic device in said house via the internet, and, d. providing a community interface wherein said community interface enable an alert signal to be sent to a guard station and thus a security personnel at duty could be notified.

A method for deployment of a smart home and a community of smart home according to claim 1, wherein said controller is capable to receive and initiate a control signal to said device interface module, to store information, to process and analysis signal and to execute a series of output signals according to said user preferences, which further comprising the steps of:

providing a smart home application server wherein said smart home application server is used as a central processing unit to perform various functions such as signal validation, signal parsing, data fusion and analysis, device health monitoring and so forth; and,

providing a plurality of database servers to hold related information such as said user's details and preferences, a system setting, and a community setting; and, providing a plurality of communication servers such as a web server that host said user interface and said community interfaces, a SMS server, a VoIP server, and a mail server to facilitate and enable various telecommunication means for said user, said guard station, and said house.

A method for enabling interactivity among member of a smart home community according to claim 1 , which comprising the steps of:

providing means to enable communication between said user and said guard station via said user interface and said community interface, which wherein said user interface and said community interface further comprise of:

i. a guard call feature and a guard response feature which enable said user to communicate with said guard station in cases of emergency; and, ii. a community-based surveillance feature to enable members of said community to view street cameras within said community thus increasing the chances to spot any suspicious event or person; and,

iii. a report-break-in feature to enable said user to notify said guard station about any suspicious event or persons; and,

iv. a monthly reporting feature to enable said member of said community to monitor the security activities of said community such as the number of false alarms, number of break ins and as forth.